Vacuum System

1 . A vacuum system, comprising: a tank having an open end and a closed end; a door secured to the tank by a hinge and configured to close the open end of the tank; and a door lifting assembly, comprising: a primary linkage arm, having a first end and a second end, in which the first end is pivotally secured to the door at a first pivot axis; and a secondary linkage arm, having a first end and a second end, in which the first end of the secondary linkage arm is pivotally secured to the second end of the primary linkage arm at a second pivot axis; in which the secondary linkage arm is pivotally secured to a first side of the tank at a third pivot axis disposed between the first end and the second end of the secondary linkage arm; and in which the second pivot axis is always positioned intermediate the third pivot axis and the hinge. 2 . The vacuum system of claim 1 in which a socket is formed in the primary linkage arm between its first and second end. 3 . The vacuum system of claim 2 in which the socket is configured to engage with the secondary linkage arm at the third pivot axis. 4 . The vacuum system of claim 1 further comprising a hydraulic cylinder connected to the second end of the secondary linkage arm. 5 . The vacuum system of claim 4 in which the hydraulic cylinder comprises a piston and a cylinder, in which the linkage arms are fully extended when the piston is retracted within the cylinder. 6 . The vacuum system of claim 1 in which the third pivot axis comprises a stub attached to and projecting out from the first side of the tank and extending through a stub housing formed in the secondary linkage arm for receiving the stub. 7 . The vacuum system of claim 1 in which the primary linkage arm and the secondary linkage arm are separate pieces. 8 . The vacuum system of claim 1 in which the second end of the primary linkage arm comprises a slot for receiving a pivot pin, in which the slot allows for lateral movement of the primary linkage arm relative to the pivot pin. 9 . The vacuum system of claim 1 in which the secondary linkage arm comprises an inner member and an outer member and the primary linkage arm is positionable between the inner member and the outer member. 10 . The vacuum system of claim 1 further comprising a support member disposed across a center diameter of the tank, in which a longitudinal axis of the support member is spaced from the third pivot axis. 11 . The vacuum system of claim 1 in which the first pivot axis, the second pivot axis, and the third pivot axis are positionable on a plane that includes the first pivot axis, the second pivot axis, and the third pivot axis as the door moves from a closed position to an open position. 12 . A vacuum system, comprising: a tank having an open end and a closed end; a movable door configured to close the open end of the tank; and a door lifting assembly, comprising: a first rigid link element having two and only two points for pivotal attachment, designated as first and second attachment points, the first link element pivotally secured to the door at the first attachment point; a second rigid link element having three and only three points for pivotal attachment, designated as a primary attachment point and first and second secondary attachment points, the second link element pivotally attached to the second attachment point of the first link element at the second secondary attachment point, the second link element pivotally attached to the tank at the primary attachment point, in which a minimum central angle defined by movement of the secondary attachment points about the primary attachment point is greater than 90 degrees; and a motive power source pivotally attached to the first secondary attachment point of the second link element. 13 . The vacuum system of claim 12 in which the minimum central angle is less than 180 degrees. 14 . The vacuum system of claim 12 in which the first attachment point of the first link element, the second secondary attachment point of the second link element, and the primary attachment point of the second link element are positionable on a plane that includes said attachment points as the door moves from a closed position to an open position. 15 . The vacuum system of claim 14 in which the second secondary attachment point of the second link element is beneath the plane when the linkage arms are fully extended and the door is in the open position. 16 . The vacuum system of claim 12 in which a socket is formed in the first link element between its first and second attachment points. 17 . The vacuum system of claim 16 in which the socket is configured to engage with the second link element at the primary attachment point. 18 . The vacuum system of claim 12 in which the primary attachment point comprises a stub attached to and projecting out from a side of the tank and extending through a stub housing formed in the second link element for receiving the stub. 19 . The vacuum system of claim 12 in which the first link element and the second link element are separate pieces. 20 . The vacuum system of claim 12 further comprising a support member disposed across a center diameter of the tank, in which a longitudinal axis of the support member is spaced from the primary attachment point.