Reciprocating pumps having a pivoting arm

What is claimed is: 1. A pump assembly for pressurizing a working fluid, the pump assembly comprising: a base; a power end mounted to the base, the power end comprising an output shaft having an output shaft axis; a fluid end mounted to the base, the fluid end comprising a piston configured to reciprocate within the fluid end to pressurize the working fluid; and a transmission coupled to each of the power end and the fluid end wherein the transmission comprises: an offset shaft coupled to the output shaft, wherein the offset shaft comprises an offset axis that is disposed at a non-zero angle θ relative to the output shaft axis; a linking assembly coupled to the offset shaft; a carriage coupled to the piston and reciprocally coupled to the base; and a pivoting arm pivotably coupled to the carriage at a first connection about a first pivot axis, wherein the first pivot axis extends in a direction that is perpendicular to a direction of the output shaft axis; and a sleeve member pivotably coupled to the pivoting arm at a second connection about a second pivot axis and coupled to the linking assembly at a third connection; wherein rotation of the output shaft about the output shaft axis is configured to cause the offset shaft to orbit about the output shaft axis, and to cause the pivoting arm to pivot about the first pivot axis at the first connection and to pivot about the second pivot axis at the second connection, and to cause the carriage to reciprocate relative to the base. 2. The pump assembly of claim 1 , wherein the second connection is spaced from the first connection along the pivoting arm and the second pivot axis is parallel to and radially offset from the first pivot axis. 3. The pump assembly of claim 2 , wherein the angle θ is between 0 and 90°. 4. The pump assembly of claim 3 , wherein the transmission further comprises an offset collar member having a first through bore and a second throughbore spaced from the first throughbore, wherein the output shaft is received within the first throughbore; wherein a first end of the offset shaft is received within the second throughbore; and wherein rotation of the output shaft about the output shaft axis is configured to cause the offset collar member to rotate about the output shaft axis and to cause the offset shaft to rotate within the second throughbore of the offset collar member. 5. The pump assembly claim 2 , wherein the linking assembly comprises a universal joint assembly, the universal joint assembly comprising: a first gimbal member coupled to the offset shaft; and a second gimbal member pivotably coupled to the first gimbal member and pivotably coupled to the pivoting arm at the second connection. 6. The pump assembly of claim 5 , wherein the first gimbal member comprises a first body and a pair of parallel projections extending from the first body; wherein second gimbal member comprises second body, a first pair of shafts, and a second pair of shafts, wherein the first pair of shafts and the second pair of shafts extend outward from the second body; wherein the first pair of shafts are pivotably coupled to the base; and wherein the second pair of shafts are pivotably coupled to the projections of the first gimbal member. 7. The pump assembly of claim 6 , wherein the first pair of shafts is aligned along a third pivot axis, wherein the second pair of shafts is aligned along a fourth pivot axis, and wherein the third axis is orthogonal to the fourth axis. 8. The pump assembly of claim 7 , wherein the fourth pivot axis extends in a direction that is perpendicular to the direction of the offset shaft axis. 9. The pump assembly of claim 2 , wherein the linking assembly comprises: a ball coupled to the base; and a clamp assembly disposed about the ball, wherein the clamp assembly is configured to pivot omni-directionally about the ball. 10. The pump assembly of claim 9 , wherein the clamp assembly is mounted to the offset shaft and pivotably coupled to the pivoting arm at the second connection. 11. A pumping system, comprising: a suction manifold; a discharge manifold; and a plurality of pump assemblies configured to draw a working fluid from the suction manifold, pressurize the working fluid, and deliver the pressurized working fluid to the discharge manifold; wherein each of the plurality of pump assemblies comprises: a base; a power end mounted to the base, the power end comprising an output shaft having an output shaft axis; a fluid end mounted to the base, the fluid end comprising a piston configured to reciprocate within the fluid end to pressurize the working fluid; and a transmission coupled to each of the power end and the fluid end wherein the transmission comprises: an offset coupled to the output shaft, wherein the offset shaft comprises and offset shaft axis that is disposed at a non-zero angle θ relative to the output shaft axis; a linking assembly coupled to the offset shaft; a carriage coupled to the piston and reciprocally coupled to the base; a pivoting arm pivotably coupled to the carriage at a first connection about a first pivot axis, wherein the first pivot axis extends in a direction that is perpendicular to a direction of the output shaft axis; and a sleeve member pivotably coupled to the pivoting arm at a second connection about a second pivot axis and coupled to the linking assembly at a third connection; wherein rotation of the output shaft about the output shaft axis is configured to cause the offset shaft to orbit about the output shaft axis, and to cause the pivoting arm to pivot about the first pivot axis at the first connection and to pivot about the second pivot axis at the second connection, and to cause the carriage to reciprocate relative to the base. 12. The pumping system of claim 11 , wherein the second connection is spaced from the first connection along the pivoting arm and the second pivot axis is parallel to and radially offset from the first pivot axis. 13. The pumping system of claim 12 , wherein the angle θ is between 0 and 90°. 14. The pumping system of claim 13 , wherein the transmission of each pump assembly further comprises an offset collar member having a first through bore and a second throughbore spaced from the first throughbore, wherein the output shaft is received within the first throughbore; wherein a first end of the offset shaft is received within the second throughbore; and wherein rotation of the output shaft about the output shaft axis is configured to cause the offset collar member to rotate about the output shaft axis and to cause the offset shaft to rotate within the second throughbore of the offset collar member. 15. The pumping system of claim 12 , wherein for each pump assembly, the linking assembly comprises a universal joint assembly, the universal joint assembly comprising: a first gimbal member coupled to the offset shaft; and a second gimbal member pivotably coupled to the first gimbal member and pivotably coupled to the pivoting arm at the second connection. 16. The pumping system of claim 15 , wherein for each pump assembly, the first gimbal member comprises a first body and a pair of parallel projections extending from the first body; wherein second gimbal member comprises second body, a first pair of shafts, and a second pair of shafts, wherein the first pair of shafts and the second pair of shafts extend outward from the second body; wherein the first pair of shafts are pivotably coupled to the base; and wherein the second pair of shafts are pivotably coupled to the projections of the first gimbal