Claims
- 1. A refuse loader arm assembly for reaching and grabbing a refuse bin from a rest position on the ground laterally spaced from a refuse storage chamber fitted with said refuse loader arm assembly, and for raising said bin to a dump position in which refuse in said bin falls by action of gravity into said refuse storage chamber, said arm assembly comprising:
- a first limb having at one end thereof a pivotal connection at a first pivot point and being pivotally connected at an opposite end thereof to one end of a second arm assembly, said second arm assembly including, at an opposite end from said one end thereof, a grab assembly for grabbing said bin; and
- a linkage means, coupled between said first limb and said grab assembly, for providing that said grab assembly is maintained at a fixed angular orientation with respect to said first limb independently of the angular orientation of said second arm assembly with respect to said first limb throughout raising of said bin, and providing that by pivoting said first limb said bin is disposed in said dump position so that said refuse in said bin is automatically dumped into said refuse storage container.
- 2. The refuse loader arm assembly of claim 1, wherein the linkage means comprises a linkage limb pivotally connected at one end to the first limb and at an opposite end to a crank arm of said grab assembly.
- 3. The refuse loader arm assembly of claim 2, wherein said second arm assembly comprises a second limb pivotally connected to the first limb at a second pivot point, said grab assembly being pivotally connected to the second limb at a third pivot point and to said linkage limb at a fourth pivot point located on said crank arm, and said linkage limb being pivotally connected to the first limb at a fifth pivot point, whereby said second, third, fourth, and fifth pivot points interconnect said first limb, second limb, grab assembly and linkage limb into a parallelogram structure.
- 4. The refuse loader arm assembly of claim 3, wherein said grab assembly includes first and second symmetrically opposed grab fingers.
- 5. The refuse loader arm assembly of claim 4, wherein each of said first and second grab fingers comprise first and second limbs articulated about a common pivot point.
- 6. The refuse loader arm assembly of claim 5, wherein both said first and second symmetrically opposed grab fingers are pivotally connected to a common portion of said grab assembly about separate pivot points.
- 7. The refuse loader arm assembly of claim 6, further comprising a plurality of hydraulic cylinders for centrally pivoting about respective pivot points of said first and second grab fingers.
- 8. The refuse loader arm assembly of claim 7, wherein all of said plurality of hydraulic cylinders are fed from a common hydraulic fluid supply so that equal fluid supply pressure is experienced by each of said cylinders whereby a substantially equal force is exerted by each said cylinder.
- 9. The refuse loader arm assembly of claim 1, wherein a first hydraulic ram controls pivoting of said first limb about said first pivot point relative to said refuse storage chamber.
- 10. The refuse loader arm assembly of claim 9, wherein a second hydraulic ram controls pivoting of said first limb with respect to said second arm assembly.
- 11. The refuse loader arm assembly of claim 10, further comprising a controller including a joy stick for controlling the operation of said first hydraulic ram and of said second hydraulic ram such that movement of the joy stick through a first line of movement controls the said first hydraulic ram only and movement of said joy stick through a second and different line of movement controls the second hydraulic ram only and movement of said joy stick through an intermediate line causes concurrent actuation of said first and second hydraulic rams.
- 12. A refuse loader arm assembly of claim 11, wherein said first line of movement is perpendicular to said second line of movement and so concurrent actuation of both hydraulic rams may be initiated by moving the joy stick in a diagonal line from a start of said first line to an end of said second line.
- 13. A refuse loader arm assembly of claim 12, wherein said refuse storage chamber is mounted on a vehicle.
- 14. A refuse loader arm apparatus, mountable on a refuse storage chamber carried by a vehicle, for reaching and grabbing a refuse bin from a rest position on the ground laterally spaced from a refuse storage chamber on which said refuse loader arm apparatus is mounted, and for raising said bin to a dump position in which refuse in said bin falls, by action of gravity, into said refuse storage chamber, said refuse loader arm apparatus comprising:
- an arm assembly;
- a first limb for pivotal connection at one end thereof to a vehicle carrying said bulk refuse container at a first pivot point and pivotally connected at an opposite end to one end of said arm assembly, said arm assembly including, at an opposite end from said one end thereof, a grab assembly for grabbing a bin; and,
- a linkage means, coupled between said first limb and said grab assembly, for providing, in cooperation with said first limb and said grab assembly, that said grab assembly is maintained as a fixed angular orientation with respect to said first limb independently of the angular orientation of said arm assembly with respect to said first limb throughout raising of a bin, and that by pivoting said first limb, a bin that has been grabbed by said grab assembly is disposed in said dump position so that refuse in that bin is automatically dumped into said refuse storage chamber.
- 15. The refuse loader arm apparatus of claim 14, wherein said grab assembly includes a crank arm wherein the linkage means comprises a linkage limb pivotally connected at one end to the first limb and at an opposite end to said crank arm of said grab assembly.
- 16. The refuse loader arm apparatus of claim 15, wherein said arm assembly comprises a second limb pivotally connected to the first limb at a second pivot point, said grab assembly being pivotally connected to the second limb at a third pivot point and to said linkage limb at a fourth pivot point located on said crank arm, and said linkage limb being pivotally connected to the first limb at a fifth pivot point, whereby said second, third, fourth, and fifth pivot points interconnect said first limb, said second limb, said crank arm and said linkage limb to form a parallelogram.
Priority Claims (1)
Number |
Date |
Country |
Kind |
PK 1362 |
Jul 1990 |
AUX |
|
Parent Case Info
This application is a continuation of application Ser. No. 07/842,161, filed May 26, 1992, now abandoned (as the National Phase of International Application PCT/AU91/00331).
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
102e Date |
371c Date |
PCT/AU91/00331 |
7/24/1991 |
|
|
5/26/1992 |
5/26/1992 |
Publishing Document |
Publishing Date |
Country |
Kind |
WO92/01612 |
2/6/1992 |
|
|
US Referenced Citations (12)
Foreign Referenced Citations (9)
Number |
Date |
Country |
5444265 |
Jul 1966 |
AUX |
3563678 |
May 1978 |
AUX |
7545881 |
May 1981 |
AUX |
1247083 |
Sep 1984 |
AUX |
6023190 |
Feb 1991 |
AUX |
1183859 |
Dec 1964 |
DEX |
1201756 |
Sep 1965 |
DEX |
3620610 |
Feb 1987 |
DEX |
2003115 |
Mar 1979 |
GBX |
Continuations (1)
|
Number |
Date |
Country |
Parent |
842161 |
May 1992 |
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