US1106591A - Slicing-machine. - Google Patents

Slicing-machine. Download PDF

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Publication number
US1106591A
US1106591A US1913779675A US1106591A US 1106591 A US1106591 A US 1106591A US 1913779675 A US1913779675 A US 1913779675A US 1106591 A US1106591 A US 1106591A
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plate
support
respect
movement
embodying
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Henrik Stukart
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U S Slicing Machine Co Inc
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U S Slicing Machine Co Inc
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B26HAND CUTTING TOOLS; CUTTING; SEVERING
    • B26DCUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
    • B26D1/00Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor
    • B26D1/01Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work
    • B26D1/12Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis
    • B26D1/14Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a circular cutting member, e.g. disc cutter
    • B26D1/143Cutting through work characterised by the nature or movement of the cutting member or particular materials not otherwise provided for; Apparatus or machines therefor; Cutting members therefor involving a cutting member which does not travel with the work having a cutting member moving about an axis with a circular cutting member, e.g. disc cutter rotating about a stationary axis
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/18Mechanical movements
    • Y10T74/18056Rotary to or from reciprocating or oscillating
    • Y10T74/18072Reciprocating carriage motions
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T83/00Cutting
    • Y10T83/647With means to convey work relative to tool station
    • Y10T83/6492Plural passes of diminishing work piece through tool station
    • Y10T83/6499Work rectilinearly reciprocated through tool station
    • Y10T83/6508With means to cause movement of work transversely toward plane of cut
    • Y10T83/6515By means to define increment of movement toward plane of cut
    • Y10T83/6516Interrelated with movement of reciprocating means

Definitions

  • HENDRIK STUKART '0F CHICAGO, ILLINOIS, ASSIGNOR TO U. S. SLICING- MACHINE COMPANY, 0F CHICAGO, ILLINOIS, A CORPORATION ILLINOIS.
  • This invention relates in general to 1mprovements in slicing machines of the type embodying a reciprocating carriage and an .cle support with respecttothe carriage.
  • the invention consists in the features of novelty, in substantially the construction, combination and arrangement ⁇ of the several parts, hereinafter more fullydescribed and claimed and shown/in the accompanying drawings, exemplifying the invention, and' in Which,-
  • Figure 1 is a top plane view of a slicing machine, having an attachment applied thereto, constructed in accordance with the principles of this invention, and with parts removed and parts bro-ken away; for the sake of clearance;
  • Fig. 2 is a. longitudinal sectional view as takenjon line 2-2 of Fig. 1;
  • Fig. 3 is a sectional view as taken on line 3 3 of Fi 1;
  • Fig. 4 is a detail view in elevation o a portion of the feeding mechanism.
  • the carriage designated generally by the reference numeral 10 vmoves adjacent the cutter 11, and is reciprocatedupon the guides 12, 13, by means of a crank 14 connected to a shaft 15 supported by the base 16, and which crank is connected by means of a link 17 with vthe carriage, so that when the hand Wheel 18 is operated, the shaft 15 will be rotated, and a reciprocating movement be instar-ted 'to the carriage.
  • a shaft 19 ⁇ is Journaled in suitable bearings 20, carried by the carriage 16 and this shaft is located below, and preferably adjacent the center of the meat table to be hereinafter described. 'Arranged adjacent one end of the shaft 19 is a clutch element 21, which is secured to lthe shaft for rotation therewith by means of a suitable fastening device 22.
  • a sleeve 23 is mounted loosely upon the shaft 19 and connected with the sleeve is another clutch element 24 which coperates with the clutch element 21.
  • This sleeve 23 is adapted to be shiftedlcngitudinally on the shaft 19 by means of a crank arm 25, which is connected with a shaft 26 journaled in suitable bearings, and which crank arm is provided with a projection-27 enteringa circumferential groove 28 in an enlarged portion 29 arranged preferably adjacent the other end of the sleeve'23.
  • This enlarged portion. 29 is provided with a clutch face 3 0, which ccperates with another clutch element 31 mounted looselynpon the shaft 19.
  • This clutch element 31 is mounted loosely upon a sleeve 32 having an enlarged portion 33 and the sleeve 32-is in turn connected with a sleeve 34 for rotation therewith, the latter being directly journaled upon the shaft 1'9, and having connected thereto a pinion 35, which pinion ⁇ meshes with a rackcarried by the lower face of the guide 13, so that as' the carriage is reciprocated the pinion 35 will ,be rotated first in one direction and then in the other, according to the direction of movement of the carriage.
  • a ylelding connection is provided between the clutch element 31 and the sleeve 32, preferably in theyform of spring controlled pins 36, which engage in coperating teeth 37 on the adjacentl face of the enlarged portion 33 of the sleeve.
  • This 'yielding connection is provided for the' purpose of preventing movement of'the meat plate upon the inovemeint of the support to the right in Fig. 1, which movement of the support would cause the meat plate to move forward, but to permit movement of the meat plate u pon the completion of the cutting stroke and the beginning of the return stroke to retract the Same until the actuation of the lever 58 by' the pin 60.
  • a worm gear 38 which is connected to the sieeve fory rotation therewith by means of keys or feathers 1 with respect to tue worm gear.
  • the worm gear is providedl with a ortion having a circumferential groove 40 into which a projection 41 on the carriage 16 extends, there by permitting the worm gear to rotate with the sleeve, and holding it against movement longitudinally when the sleeve is shifted.
  • a worm 42 which latter rotates about an axis 43 ar- -ranged at right angles to the shaft 19, and connected withv this worm 42 foi ⁇ rot-ation therewith is a pinion gear 44, which meshes with a. rack 45 carried bythe bottom of the feed table 46, and which latter has a bearing directly upon the ,carriage 1-6, as shown more clearly in Fig. 3.V
  • a pinion gear 44 which meshes with a. rack 45 carried bythe bottom of the feed table 46, and which latter has a bearing directly upon the ,carriage 1-6, as shown more clearly in Fig. 3.V
  • the feed table 46 is held against displacement with respect to the carriage 16 in any suitable manner, a simple and efficient means embodies pins 46 which project through portions of the carriage 16 and into grooves 47 in the adjacent faces of the feed table and which grooves extend longitudi- -nally of the table, so that the reciprocating movement of the feed table with respect to the ,carriage will not bev interferred vvlth.
  • Elastic elements 48 are provided for 'holding the pins in position and screws 49 are also provided lfor vholding the elastic elements against displacement.
  • a meat plate 50 is arranged above thel feed plate 46 and has a bearing directly upon the carriage16, and this plate 50/ is connected with the feed ⁇ table in any suitable manner, such as by means of a separable fastening device 51, although any form of fastening device may be employed.
  • An intermittent movement is imparted to the shaft 19 preferably by means of a ratchet gear 52, secured to the shaft, and with which gear a dog 53 coperates.
  • This dog is mounted upon an arm 54 pivotally supported preferably bylthe shaft 19, and an extension 55 on the arm carries an antifriction device 56 Whichcoperates with a cam 57 secured to any fixed portion of the machine. so that when the carriage is reciprocated, the anti-'friction device will pass across the ⁇ cam 57 and move the dog in a direction such that it will coperate with the teeth of the ratchet 52 and thereby impart a step of rotation to the shaft 19.
  • a crank 58 may also be connected With the shaft 19 for rotating it.y
  • crank shaft 26 and crank 25 are provided, and these are automatically rrocked by means of an arm 58, which is connected to the crank shaft 26, and is arranged beneath the feed plate 46.
  • Spaced projections 59, 60 are arranged on the bottom of the feed plate between which the arm 58 extends, and these projections are so disposed with respect to each other that just as the feed plate is about to reach the limit of its forward movement one of the projections will engage the arm 58 to shift it and rock the shaft 26 to move the-sleeve 23 in one direction, and when the feed plate is about to reach the limit of its movement in the opposite direction, the other projection will engage and shift the arm 58 as well as the sleeve 23.
  • a lever 61 is rovided which is connected with themcran shaft 26 and is provided with a projection 62 and a second lever 63 having a tapered or cam-shape portion 64 is arranged at right angles with the lever 61 and an elastic member 65 is con-yv nected with the lever 63 and a xed portion of the carriage and operates to normally hold the tapered portion 64 of the lever in engagement' with the projection 62 on the vanced to a predetermined lever 61.
  • the sleeve 23 When the extremity of the taperedv portion 64 is in Contact with the projection 62, the sleeve 23 will be held in an intermediate position, that is, so that the clutch elements 21, 24 and 30,31 will be inactive with respect to each other.
  • the arm 58 is shifted and the shaft 26 rocked, the projection 62 of the 'lever 61 will be shifted and the spring 65 will cause one or the other of the inclined portions or faces 64 to move against the projection- 62 and thereby assist in shifting the sleeve 23.
  • the lever 61 In order to return the feed plate from any point to which it has been advanced, and at any time, the lever 61 is provided with a handle 66 arranged in a convenient position for the operator, and which may be grasped by the operator and shifted when desired.
  • a friction device 67 controlled by an elastic member 68 may be' provided, and which cooperates with the shaft 19.
  • a relatively movable article supportl and cutter connected with the support forv movement with respect thereto, means for moving the feeding plate in one direction with respect to the support, and means controlled by such movement of the plate for moving the plate in another direction with respect to the support.
  • Article feeding mechanism for slicing machines embodying a support having a forward and a return movement, a feed plate carri ed therewith and movable with respect thereto, positive means for moving the plate in one direction with respect to the support, positive means for moving the pl ate in another and different direction with respect to the support, a rotatable element, and provisions for automatically and alternately connecting the saidaneans with the rotatable element.
  • Article feeding mechanism for slicing machines embodying a support having a forward and a return movement, a feed plate Vcarried therewith and movable with respect thereto, means forV advancing,v angie means for returning the plate with" respect to the support, a rotatable element, and means controlled by the movement of the plate and operating to automatically and alternately connect the said advancing and returning means with the said element.
  • Article feeding mechanism for slicing machines embodying a support havin a forward and a return movement, a eed plate carried therewith and movable with respect thereto, means for advancing and means for returning the plate with respect to the support, a rotatable element, and means operating at a predetermined point in i the'travel of the plate with relation to the thereto,
  • Article feeding mechanism for slicing machines embodying. a supporthavin a forward and ⁇ a return movement, a eed plate carried therewith and movable with respect thereto, positive means for advanc ing and positive means for returning the plate, and provisions for automatically controlling both of the said means.l
  • Article feeding mechanism for slicing machines, embodying' a support having a forward anda return movement, a feed plate carried therewith and movable with respect means for advancing and means for returning the plate, a controlling element for the advancing and returning means, and means whereby the movement of the plate in either direction will automatically render active the mechanism for moving the plate v12.
  • Article feeding mechamsm for slicing machnes embodying a support having a forward anda' return movement, a feed plate carried therewith and movable with respect thereto, positive means for advancing and positive means for returning the plate, controlling means for rendering active the said vadvancing' and returning'means, and means said controlling means.
  • Article feedingV mechanism for slicing machines embodying a support having a forward and a return moveme t, a feed plate carried therewith and movable with respect ⁇ connected with the plate adapted to? be automatically thereto, positive means forv advancing and positive means for returning the plate, actuatingl shiftable controlling element, and means and operating at predetermined points in the movement o the plate with respect 'to thesupport to shift'v the said element.
  • Article feeding mechanism for slicing machines, forward and a backward movement, a eed plate carried therewith and movable with respect thereto, positive means for advancing and retracting the plate with respect to the support, and means for automatically changing the direction ofmovement of the plate, at one ormore lpredetermined points in 'the movement of' the plate.
  • lArticle feeding mechanism for slicing machines embodying a support havin a lforward and abackward movement, a eed plate carried therewith and movablev with respect thereto, vancing and retracting'- the plate with re the embodying a support havin la a rotatable element for adplate connected therewith 4spect to the support, 'and means operating to A automatically control the direction' of moyement of the plate, all of said parts being located substantially below the plane 'of the plate.
  • Article feeding mechanism'for slicing lmachines embodying asupport havinfg forward and a backward movement, a e
  • Article feeding mechanism for slicing machines embodying a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a prime mover for advancing and retracting the plate with respect to the support, means embodying a shiftable element for controlling the direction of movement of the plate and with respect to which prime mover, the shifting of the said element is automatic, and manual means for also actuating the said prime mover.
  • Article feeding mechanism for slicing machines embodying a support having a :forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a rotatable element for advancing and retracting the plate with re-v spect to the support, mechanismfor actuating the element embodying provisions for rotating it in opposite directions, and mechanism for automatically 'controlling the direction of rotation of the element.
  • Article feeding mechanism for slicing 'machines embodying a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a rotatable element for advancingand retracting the plate withrespect to the support, mechanism for actuating the element embodying provisions for f rotating it in opposite directions, andmeans whereby the direction of rotation of the element will be automatically controlled by thet movement of the plate.
  • Article feeding mechanism for slicing machines embodying a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a, rotatable element for ad-L vancing and retracting the plate with re-y spect to the support, mechanism for act-uat-f ing the element embodying provisions fori rotating it in opposite directions, and means whereby the direction of rotation of the element will be automatically controlled by the: movement of the plate, all of the parts being disposed below the plate.
  • Article feeding mechanism for slicing machines embodying a support having va forward and a backward movement.
  • a feed plate carried therewith and movable with machines embodying a reciprocating support, a feed plate connected therewith, means for moving the plate relatively to the support, the said means embodying two cooperating and relatively movable elements normally inactive with respect to the plate, one of the elements being movable with and the other being separate from and fixed with relation to the support, and meanswhereby the movement of the plate will automatically render the first said means active.
  • Article feeding mechanism for slicing machines embodying a reciprocating support, a feed' plate Y connected therewith, means for moving the plate relatively to the support, the said means embodying a rack and pinion' normallyinactive with respect to the plate, said rack and pinion being, one connected and movable with the support, and the other being fixed and with relation to which the support has a relative movement, and meansV foi' automatically rendering the first recited means active with respect to the plate.
  • Article feeding mechanism for slicing machines embodying areciprocating support, a feed plate connected therewith, means for moving the plate relatively to the support, thesaid means embodying a rack and gear.. and normally inactive'with respect to the plate, said gear and rack being one connected and movable with the support, and the other being xed and with relation to which the support has a relative movement. and means for automatically rendering the first said means active and inactive, at predetermined points in the movement of the plate.
  • Article feeding mechanism for slicing machines embodying a reciprocating support, a feed plate movable therewith and with respect thereto, means for moving the plate with respect to the support, the said means embodying a gear and rack normally inactive with respect tothe plate, one of whichY is movable with the support, the other being separate from the support and with respect to which the support is relatively movable, and provisions for automatlcally rendering the said means active and inactive lwith respect to the plate.
  • Article feeding mechanism for slicing machines embodying a reciprocating support, a feed plate movable with respect thereto, a guide for the support provided with a rack portion, a pinion lnovable With the support and rotatable with respect thereto, said pinion meshing with the rack, said rack and pinion being normally inactive ⁇ with respect to the plate, means controlled by the plate for connecting and disconnecting the pinion with the feed plate.
  • Article feeding mechanism for slicing machines embodying a reciprocating support, a feed plate movable therewith and With respect thereto, a rack adjacent the support, a pinion carried with the support and meshing with the rack, said rack and pinion being normally inactive with respect to the plate, and means responsive to the movement of the plate with respect to the support, for automatically connecting and disconnecting the pinion and feeding plate.
  • Article feeding mechanism for slicing machines embodying a reciprocating support, a feed plate movable therewith and with respect thereto, a rack adjacent the support, a pinion carried with the support and meshing with the rack, said rack and pinion being normally inactive with respect to the plate, and means responsive to the movement of the plate for automatically connectingr and disconnecting the pinion and feeding plate, all of said parts being arranged below-the plate.
  • Article feeding mechanism for slicing machines embodying a reciprocating support,' a,l feed plate movable therewith and with respect thereto, a rack adjacent the sup port, a pinion carried with the support and meshing with the rack, and means controlled by the movement of the plate with respect to the support for rendering the rack and pinion active and inactive with respect to the ate.
  • avreciprocating support In a slicing machine, avreciprocating support, a feed plate, an elementrotatable about an upright axis for advancing and returning the plate, a prime mover for said element, means for actuating the prime mover in one direction, means for actuating the prime mover in the opposite direction, one of the said means embodying a gear and rack, and mechanism commonv to the said means for rendering them active with respect to the prime mover.
  • a reciprocating support a feed plate, an element rotatableabout an upright axis .for advancing and returning the plate, a prime mover for said element, means for actuating the prime mover in one direction, means for actuating the prime mover in the opposite direction', one of the said means embodyin a ar and rack, and mechanism controlled gy tig movement of the plate for automatically rendering both of the said means active and inactive with relation to the said prime mover.
  • a reciprocating support a feed plate, an element rotatable about an upright axis for advancing and returning the plate, a prime mover for said element, means for actuating the prime mover in one direction, means for actuating the prime mover in the opposite direction, one of the said means embodying a gear and rack, mechanism common to the said means for automatically rendering them active and inactive with relation to the prime mover, and manual means for also actuating the said prime mover.
  • a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, means for advancing the feed plate, with respect to the support, and means responsive to the movement o f the plate and automatically rendered operative for returning the plate.
  • a reciprocating support In a slicing machine, a reciprocating support, a feed plate carried therewith, means for advancing the feed plate with respect to the support, and means adapted to be set by the movement of the plate'and operating to automatically return the feed plate.
  • a reciprocating support a feed plate carried therewith, means for advancing the feed plate with respect to the support, and positive means automatically rendered active at a predetermined point in the advancement of the plate for returning the plate.
  • a feeding plate slidable upon the carriage, means detachably connecting the plate with the carriage, and a meat plate slidable upon the carriage.
  • a reciprocating carriage In a slicing machine, a reciprocating carriage, a feeding plate slidably supported by the carriage, means disposed below the plate for moving it, a meat plate slidably supported by the carriage, and provisions for connecting the plates for'movement in unison with respect to the carriage.
  • ka reciprocating carriage a feeding plate slidibly support lof which is arranged above and a portion below the carriage, and means for automatically controlling the direction of movement of the feeding plate by the said operating mechanism.
  • a reciprocating support In a slicing machine, a reciprocating support, a guide rail for the support, a feed plate carried with .the support, means for advancing the plate with respect to the support, and positive means operatively related to the guide rail and automatically rendered active at a predetermined point in the advancement of the plate.
  • a reciprocating support In a slicing machine, a reciprocating support, a guide rail for the support, a feed plate carried With the support, means for advancing the feed plate with respect to the support, aud means connected with the support and guide rail and' automatically rendered active at a predetermined point in the advancement of the plate for returning the plate.

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Description

1^ H. STUKART.
SLIGING MACHINE.
APPL'IUATION FILED JULY 1a, 191s.
Patented Aug. 11, 1914.
Z SHEETS-SHEET 1.
H. STUKART.
SLICING MACHINE.
APPLICATION FILED JULY1s,1o13.
Patented Aug. 11, 1914.
2 SHEETS-SHEET 2.
amiral) strains Iramena carina,
HENDRIK STUKART, '0F CHICAGO, ILLINOIS, ASSIGNOR TO U. S. SLICING- MACHINE COMPANY, 0F CHICAGO, ILLINOIS, A CORPORATION ILLINOIS.
SLICINGMACHINE.
Patented aug. 11, 1am.
Application led J'u1yA18, 1913. Serial No. 779,675.
To all whom it may concern 4 Be ih known that I, HENDRIK STUKART, a subject of the Ruler of the Netherlands, and resident of Chicago, in the county of Cook and State of Illinois, have invented certain new and useful Improvements in Slicing- Machines, of whieh the following is a speci-l fication. 0
This invention relates in general to 1mprovements in slicing machines of the type embodying a reciprocating carriage and an .cle support with respecttothe carriage.
To the attainment of these ends and the accomplishment of other new 'and useful objects as will appear, the invention consists in the features of novelty, in substantially the construction, combination and arrangement `of the several parts, hereinafter more fullydescribed and claimed and shown/in the accompanying drawings, exemplifying the invention, and' in Which,-
Figure 1 is a top plane view of a slicing machine, having an attachment applied thereto, constructed in accordance with the principles of this invention, and with parts removed and parts bro-ken away; for the sake of clearance; Fig. 2 is a. longitudinal sectional view as takenjon line 2-2 of Fig. 1; Fig. 3 is a sectional view as taken on line 3 3 of Fi 1; Fig. 4 is a detail view in elevation o a portion of the feeding mechanism. x
Referring more particularly to the drawings, the carriage designated generally by the reference numeral 10 vmoves adjacent the cutter 11, and is reciprocatedupon the guides 12, 13, by means of a crank 14 connected to a shaft 15 supported by the base 16, and which crank is connected by means of a link 17 with vthe carriage, so that when the hand Wheel 18 is operated, the shaft 15 will be rotated, and a reciprocating movement be instar-ted 'to the carriage.
A shaft 19` is Journaled in suitable bearings 20, carried by the carriage 16 and this shaft is located below, and preferably adjacent the center of the meat table to be hereinafter described. 'Arranged adjacent one end of the shaft 19 is a clutch element 21, which is secured to lthe shaft for rotation therewith by means of a suitable fastening device 22. A sleeve 23 is mounted loosely upon the shaft 19 and connected with the sleeve is another clutch element 24 which coperates with the clutch element 21. This sleeve 23 is adapted to be shiftedlcngitudinally on the shaft 19 by means of a crank arm 25, which is connected with a shaft 26 journaled in suitable bearings, and which crank arm is provided with a projection-27 enteringa circumferential groove 28 in an enlarged portion 29 arranged preferably adjacent the other end of the sleeve'23. This enlarged portion. 29 is provided with a clutch face 3 0, which ccperates with another clutch element 31 mounted looselynpon the shaft 19. This clutch element 31 is mounted loosely upon a sleeve 32 having an enlarged portion 33 and the sleeve 32-is in turn connected with a sleeve 34 for rotation therewith, the latter being directly journaled upon the shaft 1'9, and having connected thereto a pinion 35, which pinion `meshes with a rackcarried by the lower face of the guide 13, so that as' the carriage is reciprocated the pinion 35 will ,be rotated first in one direction and then in the other, according to the direction of movement of the carriage.
A ylelding connection is provided between the clutch element 31 and the sleeve 32, preferably in theyform of spring controlled pins 36, which engage in coperating teeth 37 on the adjacentl face of the enlarged portion 33 of the sleeve. This 'yielding connection is provided for the' purpose of preventing movement of'the meat plate upon the inovemeint of the support to the right in Fig. 1, which movement of the support would cause the meat plate to move forward, but to permit movement of the meat plate u pon the completion of the cutting stroke and the beginning of the return stroke to retract the Same until the actuation of the lever 58 by' the pin 60.
icunted upon the sleeve 23 is a worm gear 38 which is connected to the sieeve fory rotation therewith by means of keys or feathers 1 with respect to tue worm gear. In order to hold the gearv against longitudinal movement 'during the shifting of the sleeve, the worm gear is providedl with a ortion having a circumferential groove 40 into which a projection 41 on the carriage 16 extends, there by permitting the worm gear to rotate with the sleeve, and holding it against movement longitudinally when the sleeve is shifted.
Meshing with the worm gear 38 is a worm 42 which latter rotates about an axis 43 ar- -ranged at right angles to the shaft 19, and connected withv this worm 42 foi` rot-ation therewith is a pinion gear 44, which meshes with a. rack 45 carried bythe bottom of the feed table 46, and which latter has a bearing directly upon the ,carriage 1-6, as shown more clearly in Fig. 3.V Thus it will be manifest that when the shaft. 19 is rotated, the sleeve 23 will be rotated. This in turn will impart a rotary movement to the worm 38, which latter rotates the worm 42 and in turn the pinion gear 44, thereby causing the feed table 46 to be advanced or( retracted with respect to the carriage 16 according to the direction of rotation of the worm 38'.
The feed table 46 is held against displacement with respect to the carriage 16 in any suitable manner,a simple and efficient means embodies pins 46 which project through portions of the carriage 16 and into grooves 47 in the adjacent faces of the feed table and which grooves extend longitudi- -nally of the table, so that the reciprocating movement of the feed table with respect to the ,carriage will not bev interferred vvlth. Elastic elements 48 are provided for 'holding the pins in position and screws 49 are also provided lfor vholding the elastic elements against displacement.
A meat plate 50 is arranged above thel feed plate 46 and has a bearing directly upon the carriage16, and this plate 50/ is connected with the feed `table in any suitable manner, such as by means of a separable fastening device 51, although any form of fastening device may be employed.
An intermittent movement is imparted to the shaft 19 preferably by means of a ratchet gear 52, secured to the shaft, and with which gear a dog 53 coperates. This dog is mounted upon an arm 54 pivotally supported preferably bylthe shaft 19, and an extension 55 on the arm carries an antifriction device 56 Whichcoperates with a cam 57 secured to any fixed portion of the machine. so that when the carriage is reciprocated, the anti-'friction device will pass across the `cam 57 and move the dog in a direction such that it will coperate with the teeth of the ratchet 52 and thereby impart a step of rotation to the shaft 19. A crank 58 may also be connected With the shaft 19 for rotating it.y
With the me hanism thus far described,
it will be manifest that as the carriage is reciprocated, the pinion 35, which is in engagement with the rack on the guide 13, will be rotated in first one direction and then the other, and as long as the clutch elements 30 and 31 are.out of engagement witheach other this motion of the pinion 35 will have no effect upon the shaft 19, and during this time the pawl and ratchet elements 53,52, Will intermittently operate the shaft 19 and if the clutch elements 21, 24, are in engagement with each other, the feed plate will be .o
advanced .tb present a' new portion of the uncut material to the cutter. In order, therefore, to utilize this motion of the pinion 35 to return the feed and meat plates, all that is. necessary is to disconnect 'the clutch elements 21, 24 and move the clutch elements 30, 31 into operative relation. In this position, the motion imparted to the pinion by the rack on the guide 13, will rotate the worm 38 and consequently the worm 42 and pinion 44 in the opposite direction, and the pinion44 will, through the medium of the rack 45, automatically return the meat and feed plates.
To automatically render the respective clutch elements active and inactive and to shift the sleeve 23, the crank shaft 26 and crank 25 are provided, and these are automatically rrocked by means of an arm 58, which is connected to the crank shaft 26, and is arranged beneath the feed plate 46.
Spaced projections 59, 60 are arranged on the bottom of the feed plate between which the arm 58 extends, and these projections are so disposed with respect to each other that just as the feed plate is about to reach the limit of its forward movement one of the projections will engage the arm 58 to shift it and rock the shaft 26 to move the-sleeve 23 in one direction, and when the feed plate is about to reach the limit of its movement in the opposite direction, the other projection will engage and shift the arm 58 as well as the sleeve 23. Thus, it will be manifest that the sleeve 23 will be automatically shifted by the movement of the feed plate with respect to the carriage, and this' automatic shifting of the sleeve in one direction will render active the parts which will connect the pinion 35 with the sleeve 23 and thereby allitomatically and positively return the feed p ate. j
In order to insure a positive action of the sleeve 38, a lever 61 is rovided which is connected with themcran shaft 26 and is provided with a projection 62 and a second lever 63 having a tapered or cam-shape portion 64 is arranged at right angles with the lever 61 and an elastic member 65 is con-yv nected with the lever 63 and a xed portion of the carriage and operates to normally hold the tapered portion 64 of the lever in engagement' with the projection 62 on the vanced to a predetermined lever 61. When the extremity of the taperedv portion 64 is in Contact with the projection 62, the sleeve 23 will be held in an intermediate position, that is, so that the clutch elements 21, 24 and 30,31 will be inactive with respect to each other. When, however, the arm 58 is shifted and the shaft 26 rocked, the projection 62 of the 'lever 61 will be shifted and the spring 65 will cause one or the other of the inclined portions or faces 64 to move against the projection- 62 and thereby assist in shifting the sleeve 23.
In order to return the feed plate from any point to which it has been advanced, and at any time, the lever 61 is provided with a handle 66 arranged in a convenient position for the operator, and which may be grasped by the operator and shifted when desired.
In order to prevent overthrow of the shaft 19, under the iniiuence of the p'awl and ratchet mechanism, a friction device 67, controlled by an elastic member 68 may be' provided, and which cooperates with the shaft 19.
With this improved construction it will be manifest that all of the parts are compactly arranged and the feeding mechanism is not only mounted upon Athe carriage, but is concealed and protected thereby, the only portion of the feeding mechanism which projects above the top of the carriage 16 being the pinion 44, and this pinion is itself protected and covered by the feed plate, the latter being of sucha length that the pawl and ratchet mechanism will also be covered and protected-thereby in any position of the feed plate with respect to the carriage.
Whilein the present exemplication of this invention the preferred form or construction and" arrangement of the several parts are herein shown and described, it is to be understood that numerous changes may be made in the details of construction and in the combination and arrangement of the several parts, without departing from the spirit of this'invention.
With this improved arrangement of feed plate and meat plate, it wilt be apparent that one or bo-th may be readily removed or attached without interfering with anyof the remaining portions f the mechanism.
1'. The combination of a relatively movable article support and cutter', a feed plate connected with the support for movement with respect thereto, means for moving the plate in a feeding direction with respect to the support, and meansoperating to automaticallyreturn the feed plate with respect to the support when the platehas been adpoint with respect to the supportu ,I
2. The combinationof. a relatively movable article supportl and cutter, a feed plate connected with the support forv movement with respect thereto, means for moving the feeding plate in one direction with respect to the support, and means controlled by such movement of the plate for moving the plate in another direction with respect to the support.
3. The combination of a relatively movable article support and cutter, a feed plate connected with the support for movement with respect thereto, means for moving the feeding plate in one direction with'res ct to the support, and means controlled by such relative movement of the plate and the support for automatically returning the feeding plate with respect to the support.
4. The combination of a relatively movable article support and cutter, a feed plate, movable with the support, said plate and support bein capable of relative movement, means for e ecting a relative 'movement of the support and plate to move the article in one direction, and provisions whereby a portion of the said means will effect another relative movement of the support and plate when the plate has been moved to a. predetermined point with respect to the support.
5. The combination of a relatively movable meat support and cutter, a feed plate mounted for movement with respect to the support and in two different directions, and provisions embodying a controlling element for automatically effecting such movements of the plate upon the movement of the latter to a predetermined position with respect to the support.
6. The combination of a cutter, a support having a forward and a backward movement, a feed plate carried with the support for movement with respect thereto, means for moving the plate in a feeding direction with respect tothe support, and means operating to automatically return the feed plate with respect to the support when the plate has been advanced to a predetermined point with respect to the support. Y
7. Article feeding mechanism for slicing machines, embodying a support having a forward and a return movement, a feed plate carri ed therewith and movable with respect thereto, positive means for moving the plate in one direction with respect to the support, positive means for moving the pl ate in another and different direction with respect to the support, a rotatable element, and provisions for automatically and alternately connecting the saidaneans with the rotatable element.
8. Article feeding mechanism for slicing machines, embodying a support having a forward and a return movement, a feed plate Vcarried therewith and movable with respect thereto, means forV advancing,v angie means for returning the plate with" respect to the support, a rotatable element, and means controlled by the movement of the plate and operating to automatically and alternately connect the said advancing and returning means with the said element.
9. Article feeding mechanism for slicing machines, embodying a support havin a forward and a return movement, a eed plate carried therewith and movable with respect thereto, means for advancing and means for returning the plate with respect to the support, a rotatable element, and means operating at a predetermined point in i the'travel of the plate with relation to the thereto,
- '1n-the opposite direction.V
support, for controlling `the said advancing and returning means with respect to said element.
10. Article feeding mechanism for slicing machines, embodying. a supporthavin a forward and` a return movement, a eed plate carried therewith and movable with respect thereto, positive means for advanc ing and positive means for returning the plate, and provisions for automatically controlling both of the said means.l
11. Article feeding mechanism, for slicing machines, embodying' a support having a forward anda return movement, a feed plate carried therewith and movable with respect means for advancing and means for returning the plate, a controlling element for the advancing and returning means, and means whereby the movement of the plate in either direction will automatically render active the mechanism for moving the plate v12. Article feeding mechamsm for slicing machnes, embodying a support having a forward anda' return movement, a feed plate carried therewith and movable with respect thereto, positive means for advancing and positive means for returning the plate, controlling means for rendering active the said vadvancing' and returning'means, and means said controlling means.
13. Article feedingV mechanism for slicing machines, embodying a support having a forward and a return moveme t, a feed plate carried therewith and movable with respect `connected with the plate adapted to? be automatically thereto, positive means forv advancing and positive means for returning the plate, actuatingl shiftable controlling element, and means and operating at predetermined points in the movement o the plate with respect 'to thesupport to shift'v the said element.
14. Article feeding mechanism-for slicing machines, lembo'dying a support havinY ee plate carried therewithv and mova with respect` thereto, advancing and vretractn'g .meanafor theplate embodying an`element g set for control-v llin-tghthe' direction of movement of the plate ,wi res'peetto the support."
of the plate.
and retracting mechanism therefor embodying aa d f -plate carriedtherewithand movable with 15. The combination of a reciprocating support, a feed and movable relatively to the support, means for advancing and retracting the plate with respect to the support and embodying a shiftable element for controlling the direction of movement of the plate, and meansv whereb such relative movement of the plate will shift the said element. l
16. The combination of a reciprocating support, a feed plateconnected therewith and movable relatively to the support, means for advancing and retracting the plate'with respect to the support and embodying a shiftable element for controlling the direction of movement of the plate, and means movable in unison with the plate and operating to automatically shiftv the said element at a'predetermined point in the movement 17. Article feeding mechanism for slicing machines, embodying a support having a' forward and a return movement, a feed plate carried therewith and movable with respect theretoa rotatable element for advancing the plate with respect to the support, and means for automatically contiolling the direction of movement of ate. i P 18. Article feeding mechanism for slicing machines, forward and a backward movement,a eed plate carried therewith and movable with respect thereto, positive means for advancing and retracting the plate with respect to the support, and means for automatically changing the direction ofmovement of the plate, at one ormore lpredetermined points in 'the movement of' the plate.
19. lArticle feeding mechanism for slicing machines, embodying a support havin a lforward and abackward movement, a eed plate carried therewith and movablev with respect thereto, vancing and retracting'- the plate with re the embodying a support havin la a rotatable element for adplate connected therewith 4spect to the support, 'and means operating to A automatically control the direction' of moyement of the plate, all of said parts being located substantially below the plane 'of the plate. f v 20. Article feeding mechanism'for slicing lmachines, embodying asupport havinfg forward and a backward movement, a e
respect thereto, positivemeans for advancing and'retracting the plate withl respect to thesup ort, 'and means embodying a clutchV device or automatically controlling the d1- respect thereto, a' prime mover for"advanc v 130."
ing and retracting t e plate with respect to the support, and means embodying a 'shiftable element for controlling the direction of movement of the plate and with respect to which prime mover, the shifting of the said elementis automatic.
22. Article feeding mechanism for slicing machines, embodying a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a prime mover for advancing and retracting the plate with respect to the support, means embodying a shiftable element for controlling the direction of movement of the plate and with respect to which prime mover, the shifting of the said element is automatic, and manual means for also actuating the said prime mover.
23. Article feeding mechanism for slicing machines, embodying a support having a :forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a rotatable element for advancing and retracting the plate with re-v spect to the support, mechanismfor actuating the element embodying provisions for rotating it in opposite directions, and mechanism for automatically 'controlling the direction of rotation of the element.
24. Article feeding mechanism for slicing 'machines, embodying a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a rotatable element for advancingand retracting the plate withrespect to the support, mechanism for actuating the element embodying provisions for f rotating it in opposite directions, andmeans whereby the direction of rotation of the element will be automatically controlled by thet movement of the plate.
25. Article feeding mechanism for slicing machines, embodying a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, a, rotatable element for ad-L vancing and retracting the plate with re-y spect to the support, mechanism for act-uat-f ing the element embodying provisions fori rotating it in opposite directions, and means whereby the direction of rotation of the element will be automatically controlled by the: movement of the plate, all of the parts being disposed below the plate.
26. Article feeding mechanism for slicing machines, embodying a support having va forward and a backward movement. a feed plate carried therewith and movable with machines, embodying a reciprocating support, a feed plate connected therewith, means for moving the plate relatively to the support, the said means embodying two cooperating and relatively movable elements normally inactive with respect to the plate, one of the elements being movable with and the other being separate from and fixed with relation to the support, and meanswhereby the movement of the plate will automatically render the first said means active.
29. Article feeding mechanism for slicing machines, embodying a reciprocating support, a feed' plate Y connected therewith, means for moving the plate relatively to the support, the said means embodying a rack and pinion' normallyinactive with respect to the plate, said rack and pinion being, one connected and movable with the support, and the other being fixed and with relation to which the support has a relative movement, and meansV foi' automatically rendering the first recited means active with respect to the plate.
30. Article feeding mechanism for slicing machines, embodying areciprocating support, a feed plate connected therewith, means for moving the plate relatively to the support, thesaid means embodying a rack and gear.. and normally inactive'with respect to the plate, said gear and rack being one connected and movable with the support, and the other being xed and with relation to which the support has a relative movement. and means for automatically rendering the first said means active and inactive, at predetermined points in the movement of the plate.
31. Article feeding mechanism for slicing machines. embodying a reciprocating support, a feed plate movable therewith and with respect thereto, means for moving the plate with respect to the support, the said means embodying a gear and rack normally inactive with respect tothe plate, one of whichY is movable with the support, the other being separate from the support and with respect to which the support is relatively movable, and provisions for automatlcally rendering the said means active and inactive lwith respect to the plate.
32. Article feeding mechanism for slicing machines, embodying a reciprocating support, a feed plate movable with respect thereto, a guide for the support provided with a rack portion, a pinion lnovable With the support and rotatable with respect thereto, said pinion meshing with the rack, said rack and pinion being normally inactive `with respect to the plate, means controlled by the plate for connecting and disconnecting the pinion with the feed plate.
33. Article feeding mechanism for slicing machines, embodying a reciprocating support, a feed plate movable therewith and With respect thereto, a rack adjacent the support, a pinion carried with the support and meshing with the rack, said rack and pinion being normally inactive with respect to the plate, and means responsive to the movement of the plate with respect to the support, for automatically connecting and disconnecting the pinion and feeding plate.
34. Article feeding mechanism for slicing machines, embodying a reciprocating support, a feed plate movable therewith and with respect thereto, a rack adjacent the support, a pinion carried with the support and meshing with the rack, said rack and pinion being normally inactive with respect to the plate, and means responsive to the movement of the plate for automatically connectingr and disconnecting the pinion and feeding plate, all of said parts being arranged below-the plate.
35. Article feeding mechanism for slicing machines, embodying a reciprocating support,' a,l feed plate movable therewith and with respect thereto, a rack adjacent the sup port, a pinion carried with the support and meshing with the rack, and means controlled by the movement of the plate with respect to the support for rendering the rack and pinion active and inactive with respect to the ate.
36. In a slicing machine, avreciprocating support, a feed plate, an elementrotatable about an upright axis for advancing and returning the plate, a prime mover for said element, means for actuating the prime mover in one direction, means for actuating the prime mover in the opposite direction, one of the said means embodying a gear and rack, and mechanism commonv to the said means for rendering them active with respect to the prime mover.
37. In a slicing machine, a reciprocating support, a feed plate, an element rotatableabout an upright axis .for advancing and returning the plate, a prime mover for said element, means for actuating the prime mover in one direction, means for actuating the prime mover in the opposite direction', one of the said means embodyin a ar and rack, and mechanism controlled gy tig movement of the plate for automatically rendering both of the said means active and inactive with relation to the said prime mover.
38. In a slicing machine, a reciprocating support, a feed plate, an element rotatable about an upright axis for advancing and returning the plate, a prime mover for said element, means for actuating the prime mover in one direction, means for actuating the prime mover in the opposite direction, one of the said means embodying a gear and rack, mechanism common to the said means for automatically rendering them active and inactive with relation to the prime mover, and manual means for also actuating the said prime mover.
39. In a slicing machine, a support having a forward and a backward movement, a feed plate carried therewith and movable with respect thereto, means for advancing the feed plate, with respect to the support, and means responsive to the movement o f the plate and automatically rendered operative for returning the plate.
40. In a slicing machine, a reciprocating support, a feed plate carried therewith, means for advancing the feed plate with respect to the support, and means adapted to be set by the movement of the plate'and operating to automatically return the feed plate.
41. In a slicing machine, a reciprocating support, a feed plate carried therewith, means for advancing the feed plate with respect to the support, and positive means automatically rendered active at a predetermined point in the advancement of the plate for returning the plate.
42. In a slicing machine, a reciprocating carriage, a feeding plate and a meat plate, b oth plates supported directly by the car nage.
43: In a slicing machine, a reciprocating carriage, a feeding plate, and a meat-plate, both'plates having direct sliding bearings upon the carriage.
44. In a slicing machine` a reciprocating carriage, a feeding plate slidable upon the carriage, means detachably connecting the plate with the carriage, and a meat plate slidable upon the carriage.
45. In a slicing machine, a reciprocating carriage, a feeding plate having a sliding bearing upon the carriage, a meat plate also having a sliding bearing upon the carriage,
and means detachably connecting the plates.
46. In a slicing machine, a reciprocating carriage, a feeding plate slidably supported by the carriage, means disposed below the plate for moving it, a meat plate slidably supported by the carriage, and provisions for connecting the plates for'movement in unison with respect to the carriage.
47. In a slicing machine, ka reciprocating carriage, a feeding plate slidibly support lof which is arranged above and a portion below the carriage, and means for automatically controlling the direction of movement of the feeding plate by the said operating mechanism.
48. In a slicing machine, a reciprocating carriage, a feeding plate, and a meat plate, both of said plates being supported directly by the carriage and independently With respect to each other.
49. In a slicing machine, a' reciprocating carriage, a feeding plate, and a meat plate, both of said plates being slidably supported directly by the carriage and independently with respect to each other.
50. In a slicing machine, a reciprocating support, a guide rail for the support, a feed plate carried with .the support, means for advancing the plate with respect to the support, and positive means operatively related to the guide rail and automatically rendered active at a predetermined point in the advancement of the plate.
5l. In a slicing machine, a reciprocating support, a guide rail for the support, a feed plate carried With the support, means for advancing the feed plate with respect to the support, aud means connected with the support and guide rail and' automatically rendered active at a predetermined point in the advancement of the plate for returning the plate.
In testimony whereof I have signed my name to this speciication, in the presence of two subscribing Witnesses, on this 16th day of July, A. D. 1913.
VHENDRIK STUKART.
Witnesses:
FRANK N. REED, J. H. JOACHUM, Jr.
plate for returning the e
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