US1924455A - Swinging conveyer mechanism - Google Patents
Swinging conveyer mechanism Download PDFInfo
- Publication number
- US1924455A US1924455A US544413A US54441331A US1924455A US 1924455 A US1924455 A US 1924455A US 544413 A US544413 A US 544413A US 54441331 A US54441331 A US 54441331A US 1924455 A US1924455 A US 1924455A
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- conveyer
- shaft
- casing
- vertical
- machine
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-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F3/00—Dredgers; Soil-shifting machines
- E02F3/04—Dredgers; Soil-shifting machines mechanically-driven
- E02F3/08—Dredgers; Soil-shifting machines mechanically-driven with digging elements on an endless chain
-
- E—FIXED CONSTRUCTIONS
- E02—HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
- E02F—DREDGING; SOIL-SHIFTING
- E02F3/00—Dredgers; Soil-shifting machines
- E02F3/04—Dredgers; Soil-shifting machines mechanically-driven
- E02F3/08—Dredgers; Soil-shifting machines mechanically-driven with digging elements on an endless chain
- E02F3/086—Dredgers; Soil-shifting machines mechanically-driven with digging elements on an endless chain vertically shiftable relative to the frame
-
- Y—GENERAL 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T74/00—Machine element or mechanism
- Y10T74/19—Gearing
- Y10T74/19502—Pivotally supported
- Y10T74/19521—Bevel
Definitions
- SWINGING CONVEYER MECHANISM Original Filed June 6, 1927 7 Sheets-Sheet 3 INVENTOR Augustus J Penote ATTORNEY Aug. 29, 1933.
- A. .1. PENOTE SWINGING CONVEYER MECHANISM Original Filed June 6, 1927 7 Sheets-Sheet 4' u & S I I P U I P" N 1
- Figure 2 is a similar view of'the machine in an 60 mounted upon trenchers, it being a particular op a v position-0f h boom;
- M objectjof myzinvention to improve the type of Figure 3 is a rear elevation of theimachi'ne excavating machines: which" include in their wi h h x v in uni in p v po i i n;
- Structure a conveyer mechanism mounted above Figure 4 is a plan view of th h w the power mechanism for receiving thereon the DOTtiOnS broken y; j excavated material from the.
- a rearwardlynections serve to either drive the conveye extending digging boom 14 supports ansendless belt, the chain excavator, the tractor mechanism; Chain digger unit 5, d s hinged I h or to adjust the vertical position of the excavator members- 11 Pivotal arrangement; SOY-[that unit or the lateral position of the conveyer the lowerend 0f the boom y Swing Out 1 it, p i and upward to lift the digger from the trench.
- a still further object of my i ti is to Somewhat forward of the center of the tractor so mount the conveyer beneath the deliveryend base, ab10Ck23 is mounted y' thelfram of the excavator that the entire conveyer unit, at E Side Of the 'machine; and link including its intermediate driving means, may unsupported. between s is pivoted e be shifted longitudinal of the machine without at end e Point breaking the driving connection with the power intermediate the: ends 'l at 10 source.
- This arrangement of the relative posi- Its other to said block 1 at "either Side? tion of the conveyer unit makes possible'the of machme; whereby.
- the shaft-2 4 is journalled inw'blocks m nt e e i h novel features which are slidableyin"giiideslots 13, :and is' construction, combination and arrangement of j itself: driven from a lower and'paralleltrans- 55 marts to be hereinafter moreiully described; reverse 'shaft 33 through the medium of bevel gears 26 on both ends of each shaft, such gears connected by corresponding bevel gears 29 on' the ends of sectional and telescopic shafts 30 at either side of the machine.
- each of the telescopic shafts 3O 29 without interrupting movement of the boom lengthwise of'the machine.
- the shafts 30 are shown in'their closed relation in Figs. 1, 3 and .5; 'while'theyare shown in'their extended relation in Fig. 2 while the boomis raised and I shifted forwardly.
- the icasing 42 is divided into two tubes, two .cup members 43 being riveted to the-casing sections and to each other.
- a worm gear 45 is mounted on the shaft 38 for rotation therewith, and a worm shaft "46 enters the casing and engages the gear 45] for driving the excavating chains, and is itself driven from; the main powershaft 47 by gear 48.
- a very important feature of my combined'ma chine is the provision of a conveyor just underneath the upper endof the excavating or digger unit,.and so mounted that it may be .swung about avertical axis by power means, material at different positions to deliver the desired.
- Such conveyer 68 may be swung outside the outline of the ma-'- chine, and in an'arc'extending over l8il degrees or somewhat more, depending upon thecharac ter. of the surface of the ground where the conveyer may deposit such material.
- Such mounting of the conveyer comprises actuating means for the movement of the conveyer unit about its vertical and, further, power-driven means for actuating the conveyer belt itself, and suchmounting will nowbe described.
- a cylindrical hollow casing 59 suitable to enclose a cylindrical hollow casing 59, I enclose driving Worm gearing, and shown in vertical section in Fig. '6.
- the said verticalcasing 59 may rotate upon suitable bearings 60, and has mounted thereon for its actuation a worm gear 61 engaged by the driving worm 62 mounted on the horizontal drive shaft 63 which protrudes through the casing 58 .and is slidably and non-rotatably en'- gaged with the worm 62 by polygonal form of the shaft in cross-section or by keying, to prevent relative rotation of the shaft and worm.
- Integral with the casing :59 is anupper enlarged hollow gear casing64, preferably rectangularin outline in cross section but somewhat elongated fin a direction lengthwise, of the belt.
- frame arms 65j which upperends are widely spaced and have bearings thereon66 for receiving therein a horizontal drive shaft 67 members 71 are pivoted to the casing 64 in suit-- able manner with the upper ends'thereof 'positioned just outside of the frame 680:1 either side thereof, and adapted to engage, interchangeably,
- Suitable means may be provided for locking the brace members in. their adjusted inclination.
- the belt element 69 is driven from the roll '70 carried on the shaft 67, the latter having on-its ends outside the arms 65, suitable sprockets-.72.
- a driving shaft 73 passesthrough the gear 'c'asing 64 parallellto'shaft 67 and mounted upon the side walls 74 of casing 64 in bearings therein.
- Sprockets '72 similar to those on shaft 67 are mounted in alinement with their corresponding gears and sprocket chains 75 at either side engage the respective sprockets.
- the rotation of shaft 63 may drive the casings 59-and 64 together with their supported conveyer structure 68, about the axis of the vertical casing 59, while the. conveyer belt .69'may be actuated from shaft '73 while the conveyer is in any position upon said axis.
- a vertical shaft 76 is'mounted within and longitudinally of the casing 59, being provided with sleevemembers 7'7 engaging the ends 78 interiorly of the casing 59, to make proper rotation therein. Both ends of the shaft '76 are provided with bevel gears '79, the upper one of which engages a bevel gear 80 secured to the shaftf'ZB within the gear cas ing 64.
- a similar bevelgear 80 is mounted upon a horizontal shaft 81 for engaging. ear 79 below the casing 59, so that rotationof shaft-81j will drive theconveyer belt 69.- g
- the sleeves'7'7 of the shaft '76 rotate upon suitable bearings 82 upon the ends of the casing 59, so that the parts 59 and 76 are independently V rotatable, the latter driving the conveyer belt," while the former adjusts the conveyer in its relative position about the axis of the shaft'76.
- the shaft 63 is elongated for quite an extent and is slidably movable through the worm 62- whereby the shaft is immovable lengthwise of the frame, but rotatable to drive the worm-, while the entire conveyer mechanism with its gearing and casings 58, 59 and 64,, are movable longtiudinally of the machine as the-worm '62 slides along the fixed shaft 63, these arrangements of relative parts serving an important function to be described now in further detail.
- the shaft 81 is carried lengthwiseo'f the frame togetherwith the bevel gearSG, another portion of theshaft 81 sliding through an element for driving thev same rotatably.
- The-casing ,58 I is carried by vertical bars-s83 which maybe .L-bars. connected together by flat plates. 84* bolted'or. riveted thereto, the cas-. ing58 being ,directly mounted between saidplates '84 which .are'suitably spaced'to receive it,: as shown' ingFighiln i a v To. the upper ends of the bars 83. are secured outwardly-directed blockscor plates 85,
- Suitable inclined braces86 connect the bars83- and thewplates 84 for the .purpose .of. great rigidity.
- the casing .58 is provided-at its :lower position witha downwardlyaextending. arm 87 perforated lua'to receive therein .thefshaft 81,' as shown in Fig-n1.
- inxthe slot '13.'and.yet maintains a1substantial" position of the; said shaft directly over ;.the i con ,iveyersibelt; such relative position of the: .parts not varying materiallyrwhile the diggertmechanism'r, reachesl'theiground. l
- sition includes the winding reels 52 which. are
- the two units 15 and 69 are actuated to-' gether from a common source of power, but they are adjusted together in proper relative posi% tion while it is essential that they should be, when; the unit 15 is of the structural form shown in these drawings.
- An endless conveyer having at oneenda supporting frame including a hollow non-rotatable casing, an elongated main frame 'upon which said supporting frame is movable, a vertically elongated hollow casing rotatably mounted upon a vertical axis in said non-rotatable casing, means rigidlysecured tosaid rotatable casing for mounting.
- a vertical drive shaft mounted axially within said rotatable casing, two power driven shafts extending through the non-rotatable casing and having .gear connections; within the latter for actuating -said,rotatable casing and the other having atone end driving connections with said vertical shaft outsidethe casings, driving connections between said vertical shaft and the conveyer, the power driven shafts operating independently, so that one mayswing the rotatable casing and the conveyer together on its vertical axis,; and the other may drive the conveyer for actuating said conveyer, and including in-' dependent power driven shafts having separate gear connections, one with agear within said gear casing for actuating said vertical casing on its axis, and the other having driving connections between said conveyer and the operating means through said vertical axis, said driving connections being outside the casings, whereby one of said shafts mayswing the rotatable casing and its conveyer together on-its' vertical axis, and the other may drive the conveyer while in
- An endless conveyer and a supporting frame ing, a vertically elongated hollow casing mounted in said non-rotatable casing for rotation upon a vertical axis, means for mounting the conveyer pivotally upon said rotatable casing including 'a horizontal shaft upon which the conveyer may be adjusted in a vertical plane, a horizontal therefor including a hollow non-rotatable casshaft extending through the upper portion of saidrotatable casingfdriving connections between said horizontal shafts, a vertical drive 7 shaft mounted in bearings within said'r'otatable casing and having driving connections with said second horizontal shaft, means for driving the I conveyer-from its pivotal shaft, and bearings between the two casings whereby the conveyer including its supporting and driving means may be rotated about said vertical shaft, there being.
- An endless conveyer and a supporting frame therefor including ahollow, non-rotatablecasing, a vertically elongated, hollow casing mounted in said anon-rotatable casing for rotation upon a vertical axis, a pair of upturned and spaced armsmounted upon the upper portion of said rotatable casing and having bearings in their upper ends, and a horizontal shaftmounted in said bearings and upon which the conveyer is pivoted in a vertical plane at one end and another pair of arms extending upwardly from said upper portion and adjustably vconnected to the lateral portions of the conveyer to determine the inclin'ation'of the same, a transverse horizontalshaft extending through the up per portion of said casing, driving connections between said horizontal shafts, a vertical drive shaft mounted'in bearings within said rotatable casing and having atits endsdriving connections for actuating the'second horizontal shaft and thereby the conveyer shaft, and bearings between the two casings whereby the conveyer including its supporting and drivingmeans may be rotated about
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- Engineering & Computer Science (AREA)
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- General Engineering & Computer Science (AREA)
- Structural Engineering (AREA)
- Structure Of Belt Conveyors (AREA)
Description
1933- A. J. PENOTE SWINGING CONVEYER MECHANISM 7 Sheets-Sheet 2 Original Filed June 6, 1927 gnuento'o Auyuslus 72/7022 Mm.
Aug. 29, 1933. A. J. PENOTE 1.924.455
. SWINGING CONVEYER MECHANISM Original Filed June 6, 1927 7 Sheets-Sheet 3 INVENTOR Augustus J Penote ATTORNEY Aug. 29, 1933. A. .1. PENOTE SWINGING CONVEYER MECHANISM Original Filed June 6, 1927 7 Sheets-Sheet 4' u & S I I P U I P" N 1| l h-H N NI. 6 m
m/ lllnlilrllllfl n h Z FIG. 4.
Aug. 2 1933- A. J. I ENOTE SWINGING CONVEYER MECHANISM Original Filed June 6, 1927 7 Sheets-Sheet 5 INVENTOR Aueustus J. Penote BY w ATTORNEY Aug. 29, 1933. A. J. PENOTE SWINGING CONVEYER MECHANISM 7 Sheets-Sheet 6 Original Filed June 6, 1927 INVENTOR m/ nQ k 2 w A 2 U W? A Y B ATTORN EY Aug. 29, 1933. A. J. PENOTE SWINGING .CONVEYER MECHANISM 7 Sheets-Sheet 7 Original Filed June 6, 1927 INVENTOR Augustus J. Denote ATTORNEY Patented Au .29, 1933 p i -1,924,455.
I iumrr. o STATES PATENT -orrice' l 1,924,455 SWINGING coNvnYEn MECHANISM Augustus J. Penote, Shaker Heights, ohm Original application lune 6, 1927, Serial N6; 4 196,745. Divided and this application June 15,
1931. SerialNo. 544,413- 7 1 4 Claims. (01.198-118) This 1 invention relates to'swinging; conveyer cited in the "appended claims and illustrated mechanism, the present applicationibeing a'diviin the accompanying drawings, in which,- sion of my application Serial No., 196,745,"f1led Figure 1 is a side view in elevation ofxmy'ex- June- 6, 1927, issued'January 19, 1932 as patent cavating machine shown in operative position;
No. 1,842,193, and especially to such conveyers Figure 2 is a similar view of'the machine in an 60 mounted upon trenchers, it being a particular op a v position-0f h boom; M objectjof myzinvention to improve the type of Figure 3 is a rear elevation of theimachi'ne excavating machines: which" include in their wi h h x v in uni in p v po i i n; Structure a conveyer mechanism mounted above Figure 4is a plan view of th h w the power mechanism for receiving thereon the DOTtiOnS broken y; j excavated material from the. excavating unit, Figure 5 h verticalsec'tional detail v w n so'that thesaidconveyer is designed to deliver the plane indicatedty the in of thematerial beyond the outline of the machine Fi ure 6 i a d il transverse, ec ionon the i as a whole. 7 i r 1 line 66 of Fig. .1; l V v a 15 :It is 'a, further object f my invention to pro- Figure 7 is "a detail view "Of the 10011116013101), 70
vide a conveyer unit above the engine of the members between the conveyer ishifterand the machine=and beneath the upper end of the eX- boom k; i i j Y n cavating unit so that the latter may deposit'its Figure is a detail v r-ra tly in' trans materialupon the conveyer. It is also my pur- Verte Section, Of e pp tq l or pose-to mount the 'said conveyer upon pivotal 'e nv y taken in theiplahe indicated y means permitting swinging the said conveyer theilihe 1 in a horizontal plane, for the purpose of de- Figure '9 is a detail of the same in sidefiele i positing the material therefrom in'a wide range vation. i a i H of; area. forward of and at either side of the Referring in detail to the drawings; 3Jde$ige machine; as may be. most convenient. ates a vehicle frame comprising the' usual" It is a further objectof my invention to mount base including the $1118 '7, driven y the the said conveyer ofthe endless type, upon a single pair-0f end es 't a t m 'h 1 vertical pivot andutilize a vertical drive'shaft this base mounted a P i Of inclined for the conveyer belt, as the axis for'swinging 9 at h r r f h m n a p r o steel the conveyer unit as above explainedl It is furbraces 10 resting p the base and s r'v n ther explained as a feature of this invention," together wi h the meets, to pp ve that a single source of power, here shown as an horizontal d fmfwardly-extendingv S pp internal combustion engine, may by ri members 11 in parallel relation. A rearwardlynections, serve to either drive the conveye extending digging boom 14 supports ansendless belt, the chain excavator, the tractor mechanism; Chain digger unit 5, d s hinged I h or to adjust the vertical position of the excavator members- 11 Pivotal arrangement; SOY-[that unit or the lateral position of the conveyer the lowerend 0f the boom y Swing Out 1 it, p i and upward to lift the digger from the trench. i A still further object of my i ti is to Somewhat forward of the center of the tractor so mount the conveyer beneath the deliveryend base, ab10Ck23 is mounted y' thelfram of the excavator that the entire conveyer unit, at E Side Of the 'machine; and link including its intermediate driving means, may unsupported. between s is pivoted e be shifted longitudinal of the machine without at end e Point breaking the driving connection with the power intermediate the: ends 'l at 10 source. This arrangement of the relative posi- Its other to said block 1 at "either Side? tion of the conveyer unit makes possible'the of machme; whereby. the i n f shifting of the conveyer forwardly, as the exh blopks 23 andpthe pwot cava-tor delivery end shifts in'the same direcig 1S always 1 a 50 tion correspondingly; This is regarded as a ver ppelmsproce s I: dfor drivin t the i 'ur important feature of my invention. ger 0 mm q i- -mnsverse' with the d th shaft r24, shown very clearly :lIl F1g.-.5.of'the 1 i ObJects n drawings. The shaft-2 4 is journalled inw'blocks m nt e e i h novel features which are slidableyin"giiideslots 13, :and is' construction, combination and arrangement of j itself: driven from a lower and'paralleltrans- 55 marts to be hereinafter moreiully described; reverse 'shaft 33 through the medium of bevel gears 26 on both ends of each shaft, such gears connected by corresponding bevel gears 29 on' the ends of sectional and telescopic shafts 30 at either side of the machine. For the driving connection of, these four shafts in the manner shown in of the drawings, four casing heads are' providedto protect the gears and 2G I mayv rotate bodily together with its bevel gears hold them in engagement. The outer sides of the blocks 25 which in a horizontal plane, are rectangular in form, are provided with vertically extending flanges 27 upon which the upper casing heads 28' are mounted. 'Within the lower portion of each casing 28 are, located the beveled gears 29 carried by said vertical, telescopic shafts 30.
In the lower casings 28, the inner faces" of the same 'engage'the peripheral flanges '41 of the casing 42 which protects 'the shaftr83, as
shown in Fig. 5. From this description, it will be seen that each of the telescopic shafts 3O 29 without interrupting movement of the boom lengthwise of'the machine. The shafts 30 are shown in'their closed relation in Figs. 1, 3 and .5; 'while'theyare shown in'their extended relation in Fig. 2 while the boomis raised and I shifted forwardly. The icasing 42 is divided into two tubes, two .cup members 43 being riveted to the-casing sections and to each other. Within this intermediate casing 43 a worm gear 45 is mounted on the shaft 38 for rotation therewith, and a worm shaft "46 enters the casing and engages the gear 45] for driving the excavating chains, and is itself driven from; the main powershaft 47 by gear 48. 'A very important feature of my combined'ma chine is the provision of a conveyor just underneath the upper endof the excavating or digger unit,.and so mounted that it may be .swung about avertical axis by power means, material at different positions to deliver the desired.
7 It is characteristic of the conveyer mechanism disclosed in this application that'such conveyer 68 may be swung outside the outline of the ma-'- chine, and in an'arc'extending over l8il degrees or somewhat more, depending upon thecharac ter. of the surface of the ground where the conveyer may deposit such material. Such mounting of the conveyer comprises actuating means for the movement of the conveyer unit about its vertical and, further, power-driven means for actuating the conveyer belt itself, and suchmounting will nowbe described.
Within a fixed casing '58, suitable to enclose a cylindrical hollow casing 59, I enclose driving Worm gearing, and shown in vertical section in Fig. '6. The said verticalcasing 59 may rotate upon suitable bearings 60, and has mounted thereon for its actuation a worm gear 61 engaged by the driving worm 62 mounted on the horizontal drive shaft 63 which protrudes through the casing 58 .and is slidably and non-rotatably en'- gaged with the worm 62 by polygonal form of the shaft in cross-section or by keying, to prevent relative rotation of the shaft and worm. Integral with the casing :59 is anupper enlarged hollow gear casing64, preferably rectangularin outline in cross section but somewhat elongated fin a direction lengthwise, of the belt.
Mounted on said casing 64 and rising "there-1:
from in-an upward andrearward di'rectionare provided frame arms 65jwhose upperends are widely spaced and have bearings thereon66 for receiving therein a horizontal drive shaft 67 members 71 are pivoted to the casing 64 in suit-- able manner with the upper ends'thereof 'positioned just outside of the frame 680:1 either side thereof, and adapted to engage, interchangeably,
' a bolt or pin on the members 68 to adjust the desired height of the conveyer on its pivot 67.
Suitable means may be provided for locking the brace members in. their adjusted inclination.
The belt element 69 is driven from the roll '70 carried on the shaft 67, the latter having on-its ends outside the arms 65, suitable sprockets-.72.
A driving shaft 73 passesthrough the gear 'c'asing 64 parallellto'shaft 67 and mounted upon the side walls 74 of casing 64 in bearings therein. Sprockets '72 similar to those on shaft 67 are mounted in alinement with their corresponding gears and sprocket chains 75 at either side engage the respective sprockets.
By the structure above described, the rotation of shaft 63 may drive the casings 59-and 64 together with their supported conveyer structure 68, about the axis of the vertical casing 59, while the. conveyer belt .69'may be actuated from shaft '73 while the conveyer is in any position upon said axis. For driving the shaft 73, a vertical shaft 76 is'mounted within and longitudinally of the casing 59, being provided with sleevemembers 7'7 engaging the ends 78 interiorly of the casing 59, to make proper rotation therein. Both ends of the shaft '76 are provided with bevel gears '79, the upper one of which engages a bevel gear 80 secured to the shaftf'ZB within the gear cas ing 64. A similar bevelgear 80 is mounted upon a horizontal shaft 81 for engaging. ear 79 below the casing 59, so that rotationof shaft-81j will drive theconveyer belt 69.- g
The sleeves'7'7 of the shaft '76 rotate upon suitable bearings 82 upon the ends of the casing 59, so that the parts 59 and 76 are independently V rotatable, the latter driving the conveyer belt," while the former adjusts the conveyer in its relative position about the axis of the shaft'76. The shaft 63 is elongated for quite an extent and is slidably movable through the worm 62- whereby the shaft is immovable lengthwise of the frame, but rotatable to drive the worm-, while the entire conveyer mechanism with its gearing and casings 58, 59 and 64,, are movable longtiudinally of the machine as the-worm '62 slides along the fixed shaft 63, these arrangements of relative parts serving an important function to be described now in further detail.
It should be noted, however, that the shaft 81 is carried lengthwiseo'f the frame togetherwith the bevel gearSG, another portion of theshaft 81 sliding through an element for driving thev same rotatably. I
While the casing 58 has been referred to as fixed, in describing ,the parts mounted within.
the same, suchterm' is intended to'be used in the sense of being fixed relative to the rotating .parts, within. Because of a the arrangement of the boom and its chain digger mechanismltherej onfor movement longitudinal of the machine, ithas been found necessary that the casing 58,
together with allparts carriedpthereby; shall be =.-mounted for corresponding longitudinal i movement in parallelism with thedirection I of a movement in which .theboom travels, to insure vertical Ialinement of the, upper end of the chain digger mechanism for depositing the excavated material, :and the approximate point above the axisofithe parts 59 and 76.; The structure for" causing such movement of the conveyermecha- ;nismwbodilyforward will nowxbe described." Mounted forwardfof the braces and the casingsf58, .59 and 64,; are frame braces5 upon: which'the forward ends of the Ls 50 and plates" 5l; are mounted,=.the rear endsofsuch Us and 5;;plates being ,mounted securely upon, the. long bracesilO, in, thetman'ner indicated i in Fig.
5 of the drawings. Between the rearwardposition of the plate orbar 49which is shown in Fig. 5 of the drawings, andcarries the casing.
43 and drive" gearing forthe shafts 30, and the forward braces ,5, the casing" 58 is mountedupon' said Ls50 and plates 51 forreciprocatingimovee ment, thereon longitudinally of ;.the machine.
The-casing ,58 I is carried by vertical bars-s83 which maybe .L-bars. connected together by flat plates. 84* bolted'or. riveted thereto, the cas-. ing58 being ,directly mounted between saidplates '84 which .are'suitably spaced'to receive it,: as shown' ingFighiln i a v To. the upper ends of the bars 83. are secured outwardly-directed blockscor plates 85,
asshown'inFig. 8 and of proper size and proportions to. fit thespace between the --Ls 50.
whereby the casing58 and its mounting may "readily travel lengthwise of 'the. machine; Suitable inclined braces86 connect the bars83- and thewplates 84 for the .purpose .of. great rigidity.
The casing .58 is provided-at its :lower position witha downwardlyaextending. arm 87 perforated lua'to receive therein .thefshaft 81,' as shown in Fig-n1. To said'arm 87 thereis fixed a link 88- extending1,.rearwardly .andconnected with actuating means for ,reciprocatingthe conveyer in the-track just'described.
lower or operative position in the trench," the 1ink::20 is substantially in horizontal, lposition, asashown in Fig. 1. This. position is' further shown in Fig. 7. Theflink, 88. is then substan 503: tially parallel with link 20.I A lever bar 89: is
pivoted to a part190-of the base, and the upper 'end ,of bar '89 is then pivoted toothe rear end of the actuating, link88; so thatswinging the lever-bar 89'on its pivot'will reciprocate ith'e 5,5xfcasing 58v along the parts 50 and 51, and as a result, when the digger mechanism'lf) moves toward or from the trench being dug, the long.
It is to be noted that the parts 20 and 89 are not connected directly together, though the former operates the latter; Instead, an inclined link or brace 91 connects the two, so that 1 the fulcrum of the bar 89 may remain constant in position, while the digger boom is swinging the bar 89 and thence the casing 58. The movement of the latter, which carries with it the conveyer itself as well as its actuating mechanism, is guided positively by the horizontal travel of the blocks in the tracks resulting from the Us 50 and plates 51. j Thetravel is in the apron 69.
r 7 cause no claim is When the digger mechanism 15 issinlits longitudinal,direction .of s; the-. machine, ,and
servesto; attain theabove-named result as to the relative-position :of; the ,:conveyer and the. digger:
mechanism;
The. movement ofthis casing carryingxwith'. it theiiconveyer itself is a great advantagetsince v it permits; the bodily movement lofethe' shaftv 24:=
inxthe" slot '13.'and.yet maintains a1substantial" position of the; said shaft directly over ;.the i con ,iveyersibelt; such relative position of the: .parts not varying materiallyrwhile the diggertmechanism'r, reachesl'theiground. l
The movement: of. the. two 'eIementsthe boom the swinging of the conveyer 681 about the vertandusthe delivery conveyer 68,":111 unison longi tudinally. of: the. machine frame makes "feasible 1 tical: shaf;t"76ttodeliver. thematerialeither for Wardoflthe machine or. at either Lside. thereof,"
theiadjustment: of .the conveyer on the. tracks .at;
85-as1 the, digger mechanismxrises, insuring the r dropping of-"the material at all times upon ithei;
substantially identical spot on the. conveyer The drive shaft 47' is: the main powertshaft; Ittis longitudinal of the machine: and extends 'rearwardly from the engine 4 andhasvarious driving connections with the several elements T V of "the machine: It has suitable gear connection a nection 96'withthe worm shaft"63 and-. other drive connection-97 with the=shaft 81.'-positively.-
48swith' the worm shaft 46, sprocket drive-cona. v
keyed to the'bevel gear 80. Shaft 47 drives the tractor belts'J8-1by worm" andTgear which drive each driving a chain 95', as shownin Figs. l "and Operation;The=conveyer 68'has two power- 5 actuated movements-'-driving of the shaft 63 from the engine shaft 47 through the intermediacyof' the sprocket chain 96 whereby the entire conveyer unit is swung. about the axis of the.ver-- tical'shaft' 76 to deliver materialfrom the con-' veyer beyondthe outline of 'the machine on 1 either side of or in front of the said shaft 76', and driving of apron rolls m -through the actua tion of the chains '75; bevelgears79' and 80,' shaft' '76 and the horizontal shaft 81 which receives its power from the engine shafts? by the driv ing connection 9'7. This latter actuation of the" conveyer apron 69 may be attained when the conveyerunit is adjusted toany one of its relative positions about theaxis of shaft76.
The connection of the boom 14 withthe conveyer unit 69 by the link system shown in Fig. 7 of the drawings, makes the mutual movement of the tWo elements very positive and certain,
so that the point upon the apron 69 directly' above the shaft '76 will remain substantially beneath the upper end of the digger unit 15 jdur-' ing the position of the lower end of the unit 15 in the trench. Some time after the said lower end of the unit 15 has moved out of the trench, a 'point willbe reached where the shaft 24 has moved forwardin the machine faster than the vertical shaft 76 0f the conveyer mech:
anism has been advanced. by its connection with I position aslshown in Fig. 2 is to provideia practical position which may be used, though not especially over highways, one means for .moving thefboom;
.- downwardly andrearwardly to the operative pomounted longitudinally of'said' main frame, one v the link 26, but it is now immaterial what the relative position of the two units 15 and 69 is, since the unit 15 is no longer carrying material from the trench, and hence is not delivering ,anything at points beneaththe shaft 24. When, .however, the rear end of the digger unit 15 is again lowered as far as or below the ground surface, the shaft 24 will have ,moved back to a position above the conveyer unit 69 as before. a The purpose of holding the boom in horizontal transportation,
essential, for
sition, includes the winding reels 52 which. are
unwound when the unit 15 sinks downwardly. Thus the two units 15 and 69 are actuated to-' gether from a common source of power, but they are adjusted together in proper relative posi% tion while it is essential that they should be, when; the unit 15 is of the structural form shown in these drawings.
Having now fully described my, invention,
what, I claim as new and desire to secure by Letters Patent is: 1'. An endless conveyer having at oneenda supporting frame including a hollow non-rotatable casing, an elongated main frame 'upon which said supporting frame is movable, a vertically elongated hollow casing rotatably mounted upon a vertical axis in said non-rotatable casing, means rigidlysecured tosaid rotatable casing for mounting. said conveyer thereon, a vertical drive shaft mounted axially within said rotatable casing, two power driven shafts extending through the non-rotatable casing and having .gear connections; within the latter for actuating -said,rotatable casing and the other having atone end driving connections with said vertical shaft outsidethe casings, driving connections between said vertical shaft and the conveyer, the power driven shafts operating independently, so that one mayswing the rotatable casing and the conveyer together on its vertical axis,; and the other may drive the conveyer for actuating said conveyer, and including in-' dependent power driven shafts having separate gear connections, one with agear within said gear casing for actuating said vertical casing on its axis, and the other having driving connections between said conveyer and the operating means through said vertical axis, said driving connections being outside the casings, whereby one of said shafts mayswing the rotatable casing and its conveyer together on-its' vertical axis, and the other may drive the conveyer while in any adjusted position of said rotatable casing, 3. An endless conveyer and a supporting frame ing, a vertically elongated hollow casing mounted in said non-rotatable casing for rotation upon a vertical axis, means for mounting the conveyer pivotally upon said rotatable casing including 'a horizontal shaft upon which the conveyer may be adjusted in a vertical plane, a horizontal therefor including a hollow non-rotatable casshaft extending through the upper portion of saidrotatable casingfdriving connections between said horizontal shafts, a vertical drive 7 shaft mounted in bearings within said'r'otatable casing and having driving connections with said second horizontal shaft, means for driving the I conveyer-from its pivotal shaft, and bearings between the two casings whereby the conveyer including its supporting and driving means may be rotated about said vertical shaft, there being.
actuating connections within the outer casing engaging the inner-casing for swinging the con; veyer in a horizontal plane. r
4. An endless conveyer and a supporting frame therefor including ahollow, non-rotatablecasing, a vertically elongated, hollow casing mounted in said anon-rotatable casing for rotation upon a vertical axis, a pair of upturned and spaced armsmounted upon the upper portion of said rotatable casing and having bearings in their upper ends, and a horizontal shaftmounted in said bearings and upon which the conveyer is pivoted in a vertical plane at one end and another pair of arms extending upwardly from said upper portion and adjustably vconnected to the lateral portions of the conveyer to determine the inclin'ation'of the same, a transverse horizontalshaft extending through the up per portion of said casing, driving connections between said horizontal shafts, a vertical drive shaft mounted'in bearings within said rotatable casing and having atits endsdriving connections for actuating the'second horizontal shaft and thereby the conveyer shaft, and bearings between the two casings whereby the conveyer including its supporting and drivingmeans may be rotated about said vertical shaft, there being actuating connections within the outer casing engaging the inner casing for swinging the conveyer in a horizontal plane;
' AUGUSTUS J. PENOTE.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US544413A US1924455A (en) | 1927-06-06 | 1931-06-15 | Swinging conveyer mechanism |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US196745A US1842193A (en) | 1927-06-06 | 1927-06-06 | Swinging conveyer trencher |
US544413A US1924455A (en) | 1927-06-06 | 1931-06-15 | Swinging conveyer mechanism |
Publications (1)
Publication Number | Publication Date |
---|---|
US1924455A true US1924455A (en) | 1933-08-29 |
Family
ID=26892191
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US544413A Expired - Lifetime US1924455A (en) | 1927-06-06 | 1931-06-15 | Swinging conveyer mechanism |
Country Status (1)
Country | Link |
---|---|
US (1) | US1924455A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3263844A (en) * | 1964-07-24 | 1966-08-02 | Jr Francis T Spellman | Vehicle mounted conveyor |
US4676362A (en) * | 1984-08-08 | 1987-06-30 | Scharmann Gmbh & Co. | Control center for workpieces |
-
1931
- 1931-06-15 US US544413A patent/US1924455A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3263844A (en) * | 1964-07-24 | 1966-08-02 | Jr Francis T Spellman | Vehicle mounted conveyor |
US4676362A (en) * | 1984-08-08 | 1987-06-30 | Scharmann Gmbh & Co. | Control center for workpieces |
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