US1548964A - Combined excavator and car unloader - Google Patents

Combined excavator and car unloader Download PDF

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US1548964A
US1548964A US500047A US50004721A US1548964A US 1548964 A US1548964 A US 1548964A US 500047 A US500047 A US 500047A US 50004721 A US50004721 A US 50004721A US 1548964 A US1548964 A US 1548964A
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boom
gear
shaft
frame
excavator
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US500047A
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Henry F Vollmer
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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02FDREDGING; SOIL-SHIFTING
    • E02F3/00Dredgers; Soil-shifting machines
    • E02F3/04Dredgers; Soil-shifting machines mechanically-driven
    • E02F3/28Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, i.e. there is either one arm or a pair of arms, e.g. dippers, buckets
    • E02F3/283Dredgers; Soil-shifting machines mechanically-driven with digging tools mounted on a dipper- or bucket-arm, i.e. there is either one arm or a pair of arms, e.g. dippers, buckets with a single arm pivoted directly on the chassis
    • 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
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S414/00Material or article handling
    • Y10S414/122Remote control handlers

Definitions

  • a still further object of this invention is to provide a machine of the class described in which all of the controls are centralized whereby but one operator can manipulate the machine in lieu of the several operators as required by the excavating machines now in general use.
  • Figure 1 is a side view of a combined car loader and excavator employing my inventi'on;
  • Figure 2 is an enlarged fragmentary view, part in section and part in elevation taken through the boom carrying mechanism on the plane of line 2-2 of Figure 1
  • I Figure 3 is a view part in section and part in elevation taken on the plane of line 83 of Fig. 2 and illustrating the manner of drivingly connecting the boom actuating devices.
  • the numeral 5 designates the frame of a portable truck member mounted on front steering wheels 6 and rear drive wheels 7, a main frame 8 being rotatably mounted on 80 the truck and provided with a large gear 9 with which suitable power means connect for pivoting the same.
  • a power plant 10 which may be of any desired type and which is connected through a clutch 11 with transmission 12.
  • the transmission is connected through gears 13 and 1a with the truck drive worm 15, the gear 14L being slidable by a controlling handle 16 to connect and disconnect the wheel 7 with the power plant.
  • the truck is steered by a hand wheel 17, the shaft 18 of which is freely rotatably mounted in the truck drive shaft and has a worm 19 on the lower end thereof in connection with suitable steering mechanism 20, which may be of any desired design.
  • the lever 16 and wheel 17 are positioned adjacent a seat 21 mounted on a main frame carried platform 22 and a transmission gear shift lever 23 is also positioned adjacent the seat for the use of the operator in transporting the excavator from place to place.
  • I-- 105 beams 25 Connected adjacent the corner beams 24 of the main frame are two longitudinal I-- 105 beams 25, the outer ends of which project beyond the rear end of the main frame and are braced by diagonal beams 26.
  • a supplemental or super-frame 27 Slidably mounted longitudinally on the beams 25 is a supplemental or super-frame 27 hav- 110 ing two side I-beams 28 slidably engaging the upper faces of the beams 25.
  • each beam 28 cured to each beam 28 is a bracket 29 carryingrtwo spaced rollers 30 which engage the opposite faces of the adjacent beam 25 to prevent disengagement of the rear end of the supplemental frame when the forward end thereof is projected beyond the extended end of the main frame.
  • the supplen'iental frame is longitudinally movedwn the main frame by power derived from the plant 16 through a vertical shaft 31 journaled in the main frame and having its lower end connected with the power take off shaft of the transmission 12 by gears 32 and carrying at its upper end a beveled gear 33 adapted to have gears 34 and selectively engaged therewith.
  • Gears 34 and are slidably splined upon a counter shaft 36 journaled in bearings carried by a transverse beams 37 which connect beams 28.
  • one end of said shaft carrying a beveled gear 38 in geared connection with a shaft 39 having a pinion gear 40 mounted on its outer end and meshing with a gear rack 41 carried by the adjacent beam 28.
  • the gear 40 is slidably splined on its shaft 39 and is engageable with rack 41 by a lever 42 positioned adjacent a seat made fast to a platform carried by the main frame.
  • the base mamber 47 has a central standard or bracket member 49 provided with a horizontal support 50 and a vertical support 51, the support 50 having a bore in axial alignment with a bore within the base member part 46 and in which is journaled the upper end of a tubular shaft 52, the lower portion of shaft 52 being freely rotatably mounted within a larger tubular shaft 53 journaled in the bore of base member part 46.
  • a WOIIII wheel 54 Fixed to the lower end of shaft 53 is a WOIIII wheel 54 and fixed'to the end of shaft 52 projected beyond the lower end of the shaft 53 is a worm wheel 55, said wheels having worm gears 56 and 57, respectively, engaged therewith, and carried by shafts 58 and 59, respectively, having their outer ends journaled in parts 60 carried by the supplemental frame and their inner ends slidably but non-rotatably tele- .scoped within tubular shafts .61 and 62, re-
  • Shafts 61 and 62 have drive gears 63 and gear 65 having a collar 66 fixed thereto with which an operating lever 68 is engaged.
  • a beveled pinion gear 69 adapted to be selectively engaged by pinion gears 70 and 71, gear 71 being slidably splined on the inner end of a shaft 72 journaled in bearings carried by the base member and is movable to engage with gear 69 by a lever 73.
  • the outer end of shaft 72 has a gear wheel 74 fixed thereto which meshes with a circular gear rack 75 formed on the periphery of support 44 to rotate base member 47 when gears 69 and 71 are meshed.
  • an enlarged bracket or bearing member 76 Carried by one side of the base member 47 is an enlarged bracket or bearing member 76 in which is journaled a boom carrying member 77 which has a slide bearing 78 intersecting the axis thereof to longitudinally slidably mount the boom 48.
  • a shaft 79 is journaled in the base member 78 and has a gear 81 mounted on the outer end thereof and meshed with a gear 82 mounted on a counter shaft 83 and carrying a gear wheel 84 which projects into the interior of bearing slide 78 to mesh with the teeth of a gear rack 85 carried by boom 48.
  • the gear 70 is slidably splined on the inner end: shaft 79 and is movable by a lever similar to lever 73 (not shown) to mesh with gear 69 and move the boom 48 longitudinally, the dir .ction in which he boom 48 is moved and the base member 47 is rotated being controlled by gears 34 and
  • the gears and 35 have a common collar 86 with which a lever 87 is engaged for shifting the same.
  • the boom 48 carries a bucket 88 of any construction on the outer end there l as a part of pulleys 89 journaled in het 99 around which trains a cable 91 having one end 92 secured to a fixed boom or braclcet construction 93 carried by the base nieniiber 47. and in the outer end of which is journalcd a part of pulleys 94, the cable 91 pa sing downwardly from its fixed end 92 around one pulley 89.
  • the drum 97 is mounted on a shaft 98 journaled in the main frame and having a gear wheel 99 fired thereto and adapted to be operatively connected with a shaft 100 by a sliding gear 161 through the medium of a hand lever 102.
  • Shaft 100 is connected with the drive shaft of the power plant 10 as at 163.
  • the boom carrying member 77 is rotated in its bearing 76 either by winding the cable 91 on its drum or else by a gear 104 meshing with gear teeth 105 on the periphery of member 77, which gear 1 is carried by a shaft 106 having a gear 107 slidably splined on the inner end thereof to mesh with a gear 108 carried by the upper end of shaft Gear 107 is moved to and from engagement with gear 108 by a lever 109.
  • a main frame a supplemental frame mounted thereon, means operable to project the outer end portion of the supplemental frame beyond the main frame, and a substantially universally swingingly mounted bucket carrying boom mounted on the outer end portion of the supplemental frame.
  • a supporting truck a main frame pivotally mounted on said truck, a supplemental frame slidably mounted on the main frame, an excavator member carrying boom mounted on the supplemental frame, means for pivoting the main frame, means for sliding said supplemental frame on the main frame, and means for substantially universally swinging said boom with respect to the supplemental frame.
  • a supporting frame a base longitudinally slidably mounted thereon and arranged for rotation on a vertical axis, a boom carrying member mounted on the base and arranged for rotation on a horizontal axis, a boom longitudinally slidably mounted in said boom carrying member, means for rotating the base, means for rotating the boom carrying member, and
  • a main frame mounted thereon, a sli l able frame mounted thereon, a base mounted on the slidable frame and arranged for rotation on a vertical axis, a boom carrying member mounted on the base for rotation on a horizontal axis, and a boom slidably mounted in said boom carrying member.
  • a main frame In an excavator, a main frame, a slidable frame mounted thereon, a base mounted. on the slid-able frame and arranged for retation on a vertical axis, a boom carrying member mounted on the base for rotation on a horizontal axis, a boom slidably mountd in said boom carrying member, and drive means mounted on the main frame and connected with the base, boom carrying member and boom for actuating the same.
  • a supporting frame a turn-table mounted on said frame for rotation about a vertical axis, a boom carrying member carried by said turn-table and mounted for rotation on a horizontal axis substantially intersecting the axis of the turn-table, and an excavator carrying boom member longitudinally slidably mounted in the boom carrying member.
  • a supporting truck a supporting frame mounted on the truck for rotation about a vertical axis, a supplemental frame slidably mounted on the supporting frame and adapted to have its outer end projected beyond the supporting frame, a base mounted on the upper end portion of the supplemental frame and arranged for rotation on a vertical axis, a boom carrying member mounted on the base and arranged for rotation on a horizontal axis, and a boom longitudinally slidably mounted in the boom carrying member.

Description

' Aug. 11, 1925.
Filed Sept. 12, 1921 2 Sheets-Sheet 1 INVENTOR. HEn1"y PIA/121111121 awwy ATTORNEY.
Patented Aug. 11, 1925.
HENRY F. VOLL MER, OF MILVJAUKEE, WISCONSIN,
COMBINED Application filed September 12, 1921.
To all whom it may concern:
Be it known that I, HENRY F. VOLLMER, a citizen of the United States, and resident of lvlilwaukee, in the county of Milwaukee for one of its objects to provide what may" be termed a combined excavator and car unloader.
In car unloading devices it is essential that the unloading machine be capable of' reaching into all the corners of the car and it is, therefore, another object of my invention to provide a combined excavator and car unloader in which the material handling bucket is carried by a boom mounted on a super-structure which protrudes beyond the main frame to enable the bucket to be projected into the corners of the car, or the like, being unloaded.
It is a further object of this invention to provide a machine of the class described in which the bucket carrying boom is permitted substantially a universal movement in order to permit the economical and eflicient operation of the machine.
It is a still further object of this invention to provide a machine of the class de scribed designed for operation with any suitable type of motor power and one which may be commercially produced.
A still further object of this invention is to provide a machine of the class described in which all of the controls are centralized whereby but one operator can manipulate the machine in lieu of the several operators as required by the excavating machines now in general use.
With the above and other objects in view which will appear as the description proceeds, my invention resides in the novel construction, combination and arrangement of parts substantially as hereinafter described and more particularly defined byithe appended claims, it being understood that such changes in the precise embodiment of the, hereindisclosed invention may be made as come within the scope of the claims.
In the accompanying drawings, I have illustrated one complete example of the XCAVATOR AND CAR UNLOADER.
Serial No. 500,047.
9 physical embodiment of my invention con structed according to the best mode I have so far devised for the practical application of the principles thereof, and in which:
Figure 1 is a side view of a combined car loader and excavator employing my inventi'on;
Figure 2 is an enlarged fragmentary view, part in section and part in elevation taken through the boom carrying mechanism on the plane of line 2-2 of Figure 1, and I Figure 3 is a view part in section and part in elevation taken on the plane of line 83 of Fig. 2 and illustrating the manner of drivingly connecting the boom actuating devices.
Referring now more particularly to the accompanying drawings in which like numerals designate like parts throughout the 75 several views:
The numeral 5 designates the frame of a portable truck member mounted on front steering wheels 6 and rear drive wheels 7, a main frame 8 being rotatably mounted on 80 the truck and provided with a large gear 9 with which suitable power means connect for pivoting the same.
Mounted on the main frame is a power plant 10 which may be of any desired type and which is connected through a clutch 11 with transmission 12. The transmission is connected through gears 13 and 1a with the truck drive worm 15, the gear 14L being slidable by a controlling handle 16 to connect and disconnect the wheel 7 with the power plant. The truck is steered by a hand wheel 17, the shaft 18 of which is freely rotatably mounted in the truck drive shaft and has a worm 19 on the lower end thereof in connection with suitable steering mechanism 20, which may be of any desired design. The lever 16 and wheel 17 are positioned adjacent a seat 21 mounted on a main frame carried platform 22 and a transmission gear shift lever 23 is also positioned adjacent the seat for the use of the operator in transporting the excavator from place to place.
Connected adjacent the corner beams 24 of the main frame are two longitudinal I-- 105 beams 25, the outer ends of which project beyond the rear end of the main frame and are braced by diagonal beams 26. Slidably mounted longitudinally on the beams 25 is a supplemental or super-frame 27 hav- 110 ing two side I-beams 28 slidably engaging the upper faces of the beams 25. Se-
cured to each beam 28 is a bracket 29 carryingrtwo spaced rollers 30 which engage the opposite faces of the adjacent beam 25 to prevent disengagement of the rear end of the supplemental frame when the forward end thereof is projected beyond the extended end of the main frame.
The supplen'iental frame is longitudinally movedwn the main frame by power derived from the plant 16 through a vertical shaft 31 journaled in the main frame and having its lower end connected with the power take off shaft of the transmission 12 by gears 32 and carrying at its upper end a beveled gear 33 adapted to have gears 34 and selectively engaged therewith. Gears 34 and are slidably splined upon a counter shaft 36 journaled in bearings carried by a transverse beams 37 which connect beams 28. one end of said shaft carrying a beveled gear 38 in geared connection with a shaft 39 having a pinion gear 40 mounted on its outer end and meshing with a gear rack 41 carried by the adjacent beam 28. The gear 40 is slidably splined on its shaft 39 and is engageable with rack 41 by a lever 42 positioned adjacent a seat made fast to a platform carried by the main frame. Thus it will be seen that when either of the gears 34 or 35 are engaged with gear 33,-
Fixed between the outer ends of beams 28 is a mounting 44 having a central bean ing portion 45 in which is journaled the centrally enlar 'ed part 46 of a rotatable base member 4 said base member carrying the excavator boom 48 to be later described. The base mamber 47 has a central standard or bracket member 49 provided with a horizontal support 50 and a vertical support 51, the support 50 having a bore in axial alignment with a bore within the base member part 46 and in which is journaled the upper end of a tubular shaft 52, the lower portion of shaft 52 being freely rotatably mounted within a larger tubular shaft 53 journaled in the bore of base member part 46. Fixed to the lower end of shaft 53 is a WOIIII wheel 54 and fixed'to the end of shaft 52 projected beyond the lower end of the shaft 53 is a worm wheel 55, said wheels having worm gears 56 and 57, respectively, engaged therewith, and carried by shafts 58 and 59, respectively, having their outer ends journaled in parts 60 carried by the supplemental frame and their inner ends slidably but non-rotatably tele- .scoped within tubular shafts .61 and 62, re-
spectively carried by the main frame.
1 Shafts 61 and 62 have drive gears 63 and gear 65 having a collar 66 fixed thereto with which an operating lever 68 is engaged.
lilounted on the upper end of shaft 53 is a beveled pinion gear 69 adapted to be selectively engaged by pinion gears 70 and 71, gear 71 being slidably splined on the inner end of a shaft 72 journaled in bearings carried by the base member and is movable to engage with gear 69 by a lever 73. The outer end of shaft 72 has a gear wheel 74 fixed thereto which meshes with a circular gear rack 75 formed on the periphery of support 44 to rotate base member 47 when gears 69 and 71 are meshed.
Carried by one side of the base member 47 is an enlarged bracket or bearing member 76 in which is journaled a boom carrying member 77 which has a slide bearing 78 intersecting the axis thereof to longitudinally slidably mount the boom 48. A shaft 79 is journaled in the base member 78 and has a gear 81 mounted on the outer end thereof and meshed with a gear 82 mounted on a counter shaft 83 and carrying a gear wheel 84 which projects into the interior of bearing slide 78 to mesh with the teeth of a gear rack 85 carried by boom 48. The gear 70 is slidably splined on the inner end: shaft 79 and is movable by a lever similar to lever 73 (not shown) to mesh with gear 69 and move the boom 48 longitudinally, the dir .ction in which he boom 48 is moved and the base member 47 is rotated being controlled by gears 34 and The gears and 35 have a common collar 86 with which a lever 87 is engaged for shifting the same.
The boom 48 carries a bucket 88 of any construction on the outer end there l as a part of pulleys 89 journaled in het 99 around which trains a cable 91 having one end 92 secured to a fixed boom or braclcet construction 93 carried by the base nieniiber 47. and in the outer end of which is journalcd a part of pulleys 94, the cable 91 pa sing downwardly from its fixed end 92 around one pulley 89. around one pulley 94, then downwardly and around the other pulley 89 and thence up over the other pulley 94 thence rearwardly over a pulley 95, thence downwardly through tubular shaft 52, around, a pulley 96 carried by the diagonal beams 26. and thence rearwardly and having its other-end made fast to a drum 97. The drum 97 is mounted on a shaft 98 journaled in the main frame and having a gear wheel 99 fired thereto and adapted to be operatively connected with a shaft 100 by a sliding gear 161 through the medium of a hand lever 102. Shaft 100 is connected with the drive shaft of the power plant 10 as at 163.
The boom carrying member 77 is rotated in its bearing 76 either by winding the cable 91 on its drum or else by a gear 104 meshing with gear teeth 105 on the periphery of member 77, which gear 1 is carried by a shaft 106 having a gear 107 slidably splined on the inner end thereof to mesh with a gear 108 carried by the upper end of shaft Gear 107 is moved to and from engagement with gear 108 by a lever 109.
From the foregoing description taken in connection with the accompanying drawings it will be readily apparent that I provide an excavator in which all the controls are so arranged and centralized as to require but a single operator and that the boom may be swung in all directions and be further per mitted to swing beneath its carrying frame to permit its eflicient use in unloading freight cars, in that the bucket 88 may be engaged in all the corners thereof to thoroughly remove materials therefrom.
What I claim as my invention is:
1. In an excavator, a main frame a supplemental frame mounted thereon, means operable to project the outer end portion of the supplemental frame beyond the main frame, and a substantially universally swingingly mounted bucket carrying boom mounted on the outer end portion of the supplemental frame.
2. In an excavator, a supporting truck, a main frame pivotally mounted on said truck, a supplemental frame slidably mounted on the main frame, an excavator member carrying boom mounted on the supplemental frame, means for pivoting the main frame, means for sliding said supplemental frame on the main frame, and means for substantially universally swinging said boom with respect to the supplemental frame.
8. In an excavator, a supporting frame, a base longitudinally slidably mounted thereon and arranged for rotation on a vertical axis, a boom carrying member mounted on the base and arranged for rotation on a horizontal axis, a boom longitudinally slidably mounted in said boom carrying member, means for rotating the base, means for rotating the boom carrying member, and
means for sliding the boom in said boom carrying member.
1. In an excavator, a main frame, a sli l able frame mounted thereon, a base mounted on the slidable frame and arranged for rotation on a vertical axis, a boom carrying member mounted on the base for rotation on a horizontal axis, and a boom slidably mounted in said boom carrying member.
5. In an excavator, a main frame, a slidable frame mounted thereon, a base mounted. on the slid-able frame and arranged for retation on a vertical axis, a boom carrying member mounted on the base for rotation on a horizontal axis, a boom slidably mountd in said boom carrying member, and drive means mounted on the main frame and connected with the base, boom carrying member and boom for actuating the same.
6. In an excavator, a supporting frame, a turn-table mounted on said frame for rotation about a vertical axis, a boom carrying member carried by said turn-table and mounted for rotation on a horizontal axis substantially intersecting the axis of the turn-table, and an excavator carrying boom member longitudinally slidably mounted in the boom carrying member.
7. In an excavator of the character described, a supporting truck, a supporting frame mounted on the truck for rotation about a vertical axis, a supplemental frame slidably mounted on the supporting frame and adapted to have its outer end projected beyond the supporting frame, a base mounted on the upper end portion of the supplemental frame and arranged for rotation on a vertical axis, a boom carrying member mounted on the base and arranged for rotation on a horizontal axis, and a boom longitudinally slidably mounted in the boom carrying member.
In testimony whereof I affix my signature.
HENRY F. VOLLMER.
US500047A 1921-09-12 1921-09-12 Combined excavator and car unloader Expired - Lifetime US1548964A (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2624478A (en) * 1950-02-09 1953-01-06 Efficient Equipment Inc Self-loading vehicle and controls therefor
US4734165A (en) * 1985-05-06 1988-03-29 Didier Engineering Gmbh Method for the production of coke

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2624478A (en) * 1950-02-09 1953-01-06 Efficient Equipment Inc Self-loading vehicle and controls therefor
US4734165A (en) * 1985-05-06 1988-03-29 Didier Engineering Gmbh Method for the production of coke

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