Medical fluid therapy machine including pneumatic pump box and accumulators therefore

The invention is claimed as follows: 1. A medical fluid delivery machine comprising: a medical fluid pump including a pneumatically actuated pump chamber and first and second pneumatically actuated medical fluid valve chambers located respectively upstream and downstream of the pneumatically actuated pump chamber; a pneumatic regulator for regulating positive pressure air; and an accumulator storing the positive pressure air for delivery to a destination having an operating pressure set by the pneumatic regulator, the destination including at least one of the pneumatically actuated pump chamber, the first pneumatically actuated medical fluid valve chamber, or the second pneumatically actuated medical fluid valve chamber, the accumulator holding an elastic bladder constructed with a wall thickness that is selected based on the set operating pressure and a pressure of the positive pressure air supplied to the accumulator for storage, wherein the elastic bladder inflates from a resting shape at a bladder inflation pressure, which is a positive pressure greater than the operating pressure set by the pneumatic regulator and less than the pressure of the positive pressure air supplied to the accumulator for storage, thereby creating additional positive pressure such that when the pressure in the bladder falls to the bladder inflation pressure from an initial pressure greater than the bladder inflation pressure, the bladder supplies the bladder inflation pressure until the bladder reaches its resting shape, wherein the accumulator includes an outer rigid housing holding the elastic bladder, wherein the bladder is held in a sealed relationship with the outer rigid housing, and wherein the outer rigid housing includes a vent port that is configured to enable air to escape the outer rigid housing as the bladder inflates. 2. The medical fluid delivery machine of claim 1 , which includes a connector forming the sealed relationship between the bladder and the outer rigid housing. 3. The medical fluid delivery machine of claim 2 , wherein the connector includes a sealing end configured to seal to an open end of the bladder and a tube connecting end configured to seal to a pneumatic tube extending from the accumulator. 4. The medical fluid delivery machine of claim 1 , wherein the outer rigid housing is contoured to enable the elastic bladder when inflated to conform at least substantially completely to an inner shape of the outer rigid housing. 5. The medical fluid delivery machine of claim 1 , wherein the bladder initially has a thin tube shape and inflates to conform at least substantially completely to an inner shape of the outer rigid housing. 6. The medical fluid delivery machine of claim 1 , wherein the pneumatic regulator sets the operating pressure for the positive pressure air, the bladder enabling the additional amount of the positive pressure air to be provided to the pneumatic regulator. 7. The medical fluid delivery machine of claim 1 , wherein at least one of the first and second pneumatically actuated medical fluid valve chambers is closed via positive pressure and opened via venting to atmosphere. 8. A medical fluid delivery machine comprising: a medical fluid pump including a pneumatically actuated pump chamber and first and second pneumatically actuated medical fluid valve chambers located respectively upstream and downstream of the pneumatically actuated pump chamber; a compressor for creating positive pressure air; and an accumulator storing the positive pressure air for delivery to a destination having an operating pressure set by a pneumatic regulator external to the accumulator, the destination including at least one of the pneumatically actuated pump chamber, the first pneumatically actuated medical fluid valve chamber, or the second pneumatically actuated medical fluid valve chamber, the accumulator holding an elastic bladder constructed with a wall thickness that is selected based on the externally set operating pressure and an output pressure of the compressor, wherein the elastic bladder inflates from a resting shape at a bladder inflation pressure, which is a positive pressure greater than the externally set operating pressure and less than the output pressure of the compressor, thereby creating additional positive pressure such that when the pressure in the bladder falls to the bladder inflation pressure from an initial pressure greater than the bladder inflation pressure, the bladder supplies the bladder inflation pressure until the bladder reaches its resting shape, wherein the accumulator includes an outer rigid housing holding the elastic bladder, wherein the bladder is held in a sealed relationship with the outer rigid housing, and wherein the outer rigid housing includes a vent port that is configured to enable air to escape the outer rigid housing as the bladder inflates. 9. The medical fluid delivery machine of claim 1 , which includes a connector forming the sealed relationship between the bladder and the outer rigid housing. 10. The medical fluid delivery machine of claim 9 , wherein the connector includes a sealing end configured to seal to an open end of the bladder and a tube connecting end configured to seal to a pneumatic tube extending from the accumulator. 11. The medical fluid delivery machine of claim 1 , wherein the outer rigid housing is contoured to enable the elastic bladder when inflated to conform at least substantially completely to an inner shape of the outer rigid housing. 12. The medical fluid delivery machine of claim 1 , wherein the bladder initially has a thin tube shape and inflates to conform at least substantially completely to an inner shape of the outer rigid housing. 13. The medical fluid delivery machine of claim 1 , wherein the pneumatic regulator is located between the accumulator and the destination, the pneumatic regulator setting the operating pressure for the positive pressure air, the bladder enabling the additional amount of the positive pressure air to be provided to the pneumatic regulator. 14. The medical fluid delivery machine of claim 1 , wherein at least one of the first and second pneumatically actuated medical fluid valve chambers is closed via positive pressure and opened via venting to atmosphere. 15. The medical fluid delivery machine of claim 1 , further comprising a vacuum pump for creating negative pressure and a second accumulator storing the negative pressure for operation within the medical fluid delivery machine, the second accumulator holding a second elastic bladder that inflates under negative pressure from the vacuum pump applied to an outside of the bladder, increasing the amount of negative pressure that the second accumulator can provide. 16. The medical fluid delivery machine of claim 1 , wherein the compressor and the accumulator are provided at a location of the medical fluid delivery machine, the location further including a vacuum pump for supplying negative pneumatic pressure for the medical fluid pump and a dryer for removing water from the positive pressure air outputted from the compressor prior to storage in the accumulator, wherein the compressor and the dryer are located beneath the accumulator and the accumulator is located beneath the vacuum pump.