Plural component proportioner comprising a first pump and a second pump simultaneously driven by a motor connected to the pumps by a yoke assembly comprising a shoe, a tie plate including a slot, and a tie rod

The invention claimed is: 1. A two-component pumping system comprising: a first pump for pumping a first component, the first pump including a first pump body and a first displacement rod extending from the first pump body and that reciprocates in a first pump axis; a second pump for pumping a second component, the second pump including a second pump body and a second displacement rod extending from the second pump body and that reciprocates in a second pump axis parallel to the first pump axis; a motor for simultaneously driving the first pump and the second pump, the motor including a drive shaft configured to: reciprocate in a drive axis that is parallel to and in a common plane with the first and second pump axes; and drive the first and second displacement rods in unison; a yoke assembly for connecting the motor to the first pump and the second pump, the yoke assembly comprising: a top connector connected to the drive shaft; and a shoe comprising: a first side connected to the first and second displacement rods; and a second side adjustably connected to the top connector, wherein adjustment of the shoe moves the shoe and the first and second displacement rods relative to the drive axis in a direction perpendicular to the first and second pump axes and within the common plane to balance moments between the drive shaft and the first and second displacement rods; a motor support on which the motor is mounted; a tie plate to which the first pump body and the second pump body are mounted and through which the first pump body and the second pump body extend, wherein the tie plate includes a slot; and a tie rod connected to the motor support and the tie plate; wherein the tie rod is configured to move within the slot allowing the first and second pumps, tie plate, and shoe to move perpendicularly to the drive axis and relative to the top connector, motor, and motor support. 2. The two-component pumping system of claim 1 , wherein the top connector inserts into the shoe, such that the top connector is configured to slide within the shoe moving the first and second displacement rods perpendicular to the first and second pump axes relative to the drive axis and within the common plane to balance moments between the drive shaft and the first and second displacement rods. 3. The two-component pumping system of claim 1 , further comprising a centerline indicium on the top connector and a centering indicium on the shoe that, when in alignment, are configured to indicate that the first and second displacement rods are equally offset from the drive shaft. 4. The two-component pumping system of claim 3 , wherein the first and second pumps are of different sizes, and are configured to pump at different rates. 5. The two-component pumping system of claim 4 , wherein the shoe further comprises an alternate ratio indicium that, when in alignment with the centerline indicium of the top connector, is configured to balance moments between the motor and the differently sized first and second pumps. 6. The two-component pumping system of claim 5 , wherein the alternate ratio indicium comprises a plurality of alternate ratio indicia. 7. The two-component pumping system of claim 5 , wherein the motor support comprises a motor mounting plate. 8. The two-component pumping system of claim 1 , further comprising a plurality of tie rods, and wherein the tie plate further comprises a plurality of slots. 9. The two-component pumping system of claim 2 , wherein the shoe further comprises a slot for receiving a fastener therethrough to secure the top connector to the shoe at various positions of the top connector relative to the shoe. 10. The two-component pumping system of claim 1 , further comprising a sprayer connected to the first pump and the second pump, configured to mix the first and second components, and configured to controllably spray the mixture of the first and second components. 11. The two-component pumping system of claim 10 , wherein the sprayer is configured to spray a mixture of the first and second component in varying ratios. 12. A two-component pumping system comprising: a first pump that pumps a first component and includes a first pump body and a first displacement rod extending from the first pump body and that reciprocates in a first pump axis; a second pump that pumps a second component and includes a second pump body and a second displacement rod extending from the second pump body and that reciprocates in a second pump axis parallel to the first pump axis; a tie plate to which the first pump body and the second pump body are mounted and through which the first pump body and second pump body extend, the tie plate including a slot; a motor for simultaneously driving the first pump and second pump, the motor including a drive shaft configured to: reciprocate in a drive axis that is parallel to and in a common plane with the first and second pump axes; and drive the first and second pumps in unison; a motor support on which the motor is mounted; a tie rod connected to the motor support and the tie plate and received in the slot; a yoke assembly for connecting the motor to the first pump and second pump, the yoke assembly comprising: a top connector connected to the motor; and a shoe comprising: a first side connected to the first and second pumps; and a second side adjustably connected to the top connector, wherein adjustment of the shoe moves the shoe and the first and second pumps relative to the drive axis in a direction perpendicular to the first and second pump axes and within the common plane to balance moments between the motor and the first and second pumps; wherein the tie rod is configured to move within the slot allowing the first and second pumps, tie plate, and shoe to move perpendicularly to the drive axis and relative to the top connector, motor, and motor support. 13. The two-component pumping system of claim 12 , wherein the top connector inserts into the shoe, such that the top connector is configured to slide within the shoe. 14. The two-component pumping system of claim 12 , further comprising a centerline indicium on the top connector and a centering indicium on the shoe that, when in alignment, are configured to indicate that the first and second pumps are equally offset from the motor. 15. The two-component pumping system of claim 14 , wherein the first and second pumps are of different sizes, and are configured to pump at different rates. 16. The two-component pumping system of claim 15 , wherein the shoe further comprises an alternate ratio indicium that, when in alignment with the centerline indicium of the top connector, is configured to balance moments between the motor and the differently sized first and second pumps. 17. The two-component pumping system of claim 16 , wherein the motor support comprises a motor mounting plate. 18. A method of assembling a two component pumping system, the method comprising: connecting a motor mounted on and supported by a motor support and having a drive axis to a top connector of a yoke assembly; connecting a first pump having a first pump axis to a shoe of the yoke assembly, the first pump including a first pump body mounted to and extending through a tie plate having a slot; connecting a second pump having a second pump axis to the shoe, wherein the first pump axis, second pump axis, and drive axis are parallel and in a common plane, the second pump including a second pump body mounted to and extending through the tie plate; inserting the top connector into