Displacement pump mounting and retention

The invention claimed is: 1. A fluid spraying system comprising: a displacement pump comprising: a cylinder; a pump rod at least partially disposed in the cylinder, the pump rod configured to reciprocate within the cylinder along a pump axis to cause the displacement pump to pump fluid, and the pump rod comprising: a shaft extending out of the cylinder; a neck formed at a first end of the shaft disposed outside of the cylinder, the neck having a neck width; and a head having a head width larger than the neck width, wherein the head is disposed at an end of the neck opposite the shaft; a drive housing configured to support the displacement pump by interfacing with the cylinder, wherein the drive housing includes a mounting cavity, a first housing opening of the mounting cavity, a second housing opening of the mounting cavity, and a housing flange extending at least partially about the second housing opening; and a reciprocating drive connectable to the pump rod to drive reciprocation of the pump rod, the reciprocating drive comprising: a drive link body having a first end and a second end; and a receiving cavity formed in the first end; wherein the displacement pump is configured to slide relative to the pump axis during mounting such that the displacement pump passes through the first housing opening by radial movement relative to the pump axis to mount to the drive housing and such that the head slides within the receiving cavity to mount to the reciprocating drive and such that the cylinder slides within the second housing opening; and wherein the displacement pump extends from within the mounting cavity and through the second housing opening with the displacement pump mounted to the drive housing. 2. The fluid spraying system of claim 1 , wherein the drive link body includes a connecting slot extending into the second end, a connecting rod is attached to the drive link body within the connecting slot, and the connecting rod is connected to a crankshaft to receive an input from a motor and cause reciprocation of the drive link body. 3. The fluid spraying system of claim 1 , wherein a projection extends from an end of the head opposite the neck, the projection aligned on the pump axis and configured to directly interface with a contact surface within the receiving cavity, the contact surface disposed opposite a cavity opening of the receiving cavity through which the neck extends. 4. The fluid spraying system of claim 1 , further comprising: a guard supported by the drive housing and configured to pivot between an open state and a closed state, wherein the guard at least partially covers the first opening when in the closed state to prevent sliding of the displacement pump out of the mounting cavity. 5. The fluid spraying system of claim 1 , further comprising: an intake hose connected to an inlet of the displacement pump; a supply hose connected to an output of the displacement pump and to a control housing, the control housing including a pressure control configured to regulate pressure of the fluid downstream from the control housing; and a dispensing hose extending from the control housing to a sprayer. 6. The fluid spraying system of claim 1 , wherein the housing flange is a U-shaped flange. 7. The fluid spraying system of claim 1 , wherein the displacement pump further comprises: an intake valve housing mounted to a second end of the cylinder, wherein the pump rod extends out of the cylinder through a first end of the cylinder; a packing nut mounted to the first end of the cylinder; a plurality of throat packings disposed within the cylinder, wherein the pump rod extends through the plurality of throat packings; a fluid outlet through the pump cylinder, the displacement pump configured to output pumped fluid through the fluid outlet; a plurality of piston packings mounted to the pump rod; and a fluid passage through the pump rod. 8. The fluid spraying system of claim 7 , wherein an inlet ball of a first valve is disposed within the displacement pump and an outlet ball of a second valve is disposed within the pump rod. 9. The fluid spraying system of claim 1 , wherein: the receiving cavity extends partially into the drive link body and includes a lower opening, a forward-facing opening through which the head slides during mounting, a contact surface disposed opposite the lower opening, and a drive link flange extending at least partially about the lower opening; and the drive link flange abuts a lower surface of the head. 10. A fluid spraying system comprising: a displacement pump comprising: a cylinder; a pump rod at least partially disposed in the cylinder, the pump rod configured to reciprocate within the cylinder along a pump axis to cause the displacement pump to pump fluid, the pump rod comprising: a shaft extending out of the cylinder; a neck formed at a first end of the shaft disposed outside of the cylinder, the neck having a neck width; and a head having a head width larger than the neck width, wherein the head is disposed at an end of the neck opposite the shaft; a drive housing configured to support the displacement pump, wherein the drive housing includes a mounting cavity, a first housing opening of the mounting cavity, and a second housing opening of the mounting cavity; and a reciprocating drive connectable to the pump rod to drive reciprocation of the pump rod, the reciprocating drive comprising: a drive link body having a first end and a second end; and a receiving cavity formed in the first end, wherein the receiving cavity extends partially into the drive link body and includes a lower opening, a forward-facing opening through which the head slides during mounting, a contact surface disposed opposite the lower opening, and a drive link flange extending at least partially about the lower opening; wherein the drive link flange abuts a lower surface of the head; wherein the displacement pump is configured to mount to and dismount from the drive housing by radial movement of the displacement pump relative to the pump axis; wherein the head mounts to the reciprocating drive by sliding radial movement relative to the pump axis into and out of the receiving cavity; and wherein the cylinder extends through the second housing opening with the displacement pump mounted to the drive housing. 11. The fluid spraying system of claim 10 , further comprising: a guard supported by the drive housing and configured to move between an open state and a closed state, wherein the guard at least partially covers the first housing opening when in the closed state to prevent shifting of the displacement pump out of the mounting cavity. 12. The fluid spraying system of claim 11 , wherein the guard is configured to pivot between the open state and the closed state. 13. The fluid spraying system of claim 11 , wherein the drive housing is configured such that the displacement pump shifts past the guard by the sliding radial movement during mounting and dismounting of the displacement pump. 14. The fluid spraying system of claim 10 , wherein a projection extends from an end of the head opposite the neck, the projection aligned on the pump axis and configured to directly interface with a contact surface within the receiving cavity, the contact surface disposed opposite a cavity opening of the receiving cavity through which the neck extends. 15. The fluid spraying system of claim 10 , further comprising an electric motor connected to the reciprocating drive by gearing. 16. The fluid spraying system of claim 10 , wherein the displacement pump fu