Modular fluid end for a multiplex plunger pump

The invention claimed is: 1. A discharge manifold for a modular multiplex pump, comprising: a monolithic, first tee fitting coupled to a discharge port of a first module of the pump by an externally threaded collar that is threaded into engagement with the first module such that a lower neck portion of the first tee fitting is disposed within the discharge port of the first module; a monolithic cross fitting coupled to a discharge port of a second module of the pump by an externally threaded collar that is threaded into engagement with the second module such that a lower neck portion of the cross fitting is disposed within the discharge port of the second module, the cross fitting also coupled to the first tee fitting; and a monolithic, second tee fitting coupled to a discharge port of a third module of the pump by an externally threaded collar that is threaded into engagement with the third module such that a lower neck portion of the second tee fitting is disposed within the discharge port of the third module, wherein the second tee fitting is coupled to the cross fitting on a side opposite from the first tee fitting, wherein the first tee fitting, the cross fitting, and the second tee fitting form a flow bore of the discharge manifold, and wherein split rings and snap rings secure the lower neck portions of the fittings to the collars. 2. The manifold of claim 1 , wherein fluid is pumped from at least one of the first, second, and third modules to the flow bore of the discharge manifold during a discharge stroke of the pump. 3. The manifold of claim 2 , wherein the cross fitting includes a threaded top port. 4. The manifold of claim 3 , wherein the first and second tee fittings are threadedly coupled to the cross fitting by wing nuts. 5. The manifold of claim 4 , wherein the fittings are formed from 1502 iron. 6. The manifold of claim 1 , wherein the modules are forced together using a compression clamp disposed entirely external to the modules, and having clamp plates and clamp fasteners coupled to the clamp plates. 7. The manifold of claim 1 , wherein the discharge ports comprise manifold bores that are in fluid communication with discharge bores of the modules. 8. The manifold of claim 1 , wherein the upper ends of the collars include tool insertion bores formed about the outer circumference. 9. The manifold of claim 1 , wherein the split rings include an outer shoulder that contacts an inner shoulder of the collars. 10. The manifold of claim 9 , wherein the lower neck portions of the fittings include an outer shoulder that contacts the bottom ends of the split rings. 11. A discharge manifold for a modular multiplex pump, comprising: a monolithic, first tee fitting coupled to a discharge port of a first module of the pump by an externally threaded collar that is threaded into engagement with the first module such that a lower neck portion of the first tee fitting is disposed within the discharge port of the first module; a monolithic cross fitting coupled to a discharge port of a second module of the pump by an externally threaded collar that is threaded into engagement with the second module such that a lower neck portion of the cross fitting is disposed within the discharge port of the second module, the cross fitting also coupled to the first tee fitting, and wherein the cross fitting includes a threaded top port; and a monolithic, second tee fitting coupled to a discharge port of a third module of the pump by an externally threaded collar that is threaded into engagement with the third module such that a lower neck portion of the second tee fitting is disposed within the discharge port of the third module, wherein the second tee fitting is coupled to the cross fitting on a side opposite from the first tee fitting, wherein the first tee fitting, the cross fitting, and the second tee fitting form a flow bore of the discharge manifold, wherein fluid is pumped from at least one of the first, second, and third modules to the flow bore of the discharge manifold during a discharge stroke of the pump, and wherein the first and second tee fittings are threadedly coupled to the cross fitting by wing nuts. 12. The manifold of claim 11 , wherein the fittings are formed from 1502 iron. 13. A discharge manifold for a modular multiplex pump, comprising: a monolithic, first tee fitting coupled to a discharge port of a first module of the pump by an externally threaded collar that is threaded into engagement with the first module such that a lower neck portion of the first tee fitting is disposed within the discharge port of the first module; a monolithic cross fitting coupled to a discharge port of a second module of the pump by an externally threaded collar that is threaded into engagement with the second module such that a lower neck portion of the cross fitting is disposed within the discharge port of the second module, the cross fitting also coupled to the first tee fitting; and a monolithic, second tee fitting coupled to a discharge port of a third module of the pump by an externally threaded collar that is threaded into engagement with the third module such that a lower neck portion of the second tee fitting is disposed within the discharge port of the third module, wherein the second tee fitting is coupled to the cross fitting on a side opposite from the first tee fitting, wherein the first tee fitting, the cross fitting, and the second tee fitting form a flow bore of the discharge manifold, and wherein the upper ends of the collars include tool insertion bores formed about the outer circumference.