Hydraulic pump arrangement

The invention claimed is: 1. A hydraulic pump assembly comprising: an electric motor; a hydraulic pump driveably connected to the electric motor via a rotatable coupling; wherein the rotatable coupling comprises a splined connection housed within a chamber comprising a chamber wall, wherein the chamber defines a flow passage for hydraulic oil for lubricating the rotatable coupling, the chamber comprising an inlet for receiving a flow of hydraulic oil from the pump and an outlet for exiting the flow of hydraulic oil to the exterior of the chamber, wherein the rotatable coupling comprises a first axial end proximate the pump and a second axial end proximate the electric motor, and wherein the inlet is provided towards the first axial end and the outlet is provided towards the second axial end such that the flow passage extends along the rotatable coupling between the first and second axial ends. 2. The hydraulic pump assembly of claim 1 , wherein the flow passage circumferentially envelopes the hydraulic coupling. 3. The hydraulic pump assembly of claim 2 , wherein the chamber wall is cylindrical and coaxial with the rotatable coupling. 4. The hydraulic pump assembly of claim 1 , wherein the outlet is an aperture in the chamber wall configured to provide an overflow drain for oil within the chamber. 5. The hydraulic pump assembly of claim 1 , wherein the pump comprises: a pump shaft connected to the rotatable coupling and a pump shaft bearing, wherein the inlet is in fluid communication with the pump shaft bearing and configured to receive a flow of hydraulic oil therefrom. 6. The hydraulic pump assembly of claim 1 , wherein the pump and electric motor are structurally connected via the chamber wall. 7. The hydraulic pump assembly of claim 6 , wherein the pump and electric motor are structurally connected by a threaded engagement in the chamber wall. 8. The hydraulic pump assembly of claim 1 , further comprising a hydraulic tank having an oil storage area, wherein the hydraulic pump is located within the oil storage area and comprises at least one pump inlet for drawing a flow of hydraulic oil therefrom. 9. The hydraulic pump assembly of claim 8 , wherein the rotatable coupling is located vertically within the hydraulic tank. 10. The hydraulic pump assembly of claim 9 , wherein the outlet is in fluid communication with an area above the oil storage area such that hydraulic fluid which exits the outlet can flow under gravity into the oil storage area. 11. The hydraulic pump assembly of claim 10 , wherein the oil storage area is defined by a fill level line, wherein the outlet is positioned above the fill level line. 12. The hydraulic pump assembly of claim 8 , wherein the hydraulic tank comprises a housing having a base, a side wall and an upper wall, wherein a motor housing of the electric motor is located above the upper wall and a motor drive shaft and a portion of the chamber wall extend from the motor through the upper wall. 13. The hydraulic pump assembly of claim 12 , wherein the rotatable coupling comprises a pump drive shaft and the motor drive shaft. 14. A working machine comprising the hydraulic pump assembly of claim 1 . 15. A hydraulic pump assembly, comprising: an electric motor; a hydraulic pump driveably connected to the electric motor via a rotatable coupling; wherein the rotatable coupling comprises a splined connection housed within a chamber comprising a chamber wall, wherein the chamber defines a flow passage for hydraulic oil for lubricating the rotatable coupling, the chamber comprising an inlet for receiving a flow of hydraulic oil from the pump and an outlet for exiting the flow of hydraulic oil to the exterior of the chamber, and wherein the electric motor comprises a motor drive shaft which extends into the chamber, the motor drive shaft comprising an oil seal to prevent oil entering the motor housing. 16. The hydraulic pump assembly of claim 15 , wherein the motor drive shaft comprises a female shaft spline and the pump comprises a male shaft spline. 17. A hydraulic pump assembly comprising: a hydraulic tank; an electric motor located above the hydraulic tank; a hydraulic pump located vertically below and within the hydraulic tank, the hydraulic pump being driveably connected to the electric motor via a rotatable coupling; wherein the rotatable coupling comprises: a splined connection housed within a chamber comprising: a chamber wall, wherein the chamber defines a flow passage for hydraulic oil for lubricating the rotatable coupling, an inlet for receiving a flow of hydraulic oil from the pump and an outlet for exiting the flow of hydraulic oil to the exterior of the chamber such that driving the hydraulic pump with the electric motor causes a flow of hydraulic fluid through the chamber. 18. The hydraulic pump assembly of claim 15 , further comprising a hydraulic tank having an oil storage area, wherein the hydraulic pump is located within the oil storage area and comprises at least one pump inlet for drawing a flow of hydraulic oil therefrom. 19. The hydraulic pump assembly of claim 18 , wherein the rotatable coupling is located vertically within the hydraulic tank. 20. The hydraulic pump assembly of claim 19 , wherein the outlet is in fluid communication with an area above the oil storage area such that hydraulic fluid which exits the outlet can flow under gravity into the oil storage area.