Hydraulic hammer assembly

What is claimed is: 1. A hydraulic hammer assembly comprising: a housing; a piston arranged for reciprocating movement along a longitudinal axis within the housing; a head disposed along the longitudinal axis on an end of the housing and defining a chamber for holding a pressurized gas; and a locking mechanism to lock the head on the housing, the locking mechanism comprising: at least one first flange extending radially from the end of the housing; and at least one second flange extending radially from the head, wherein the head is rotatable relative to the housing between a locked position and an unlocked position, wherein the head is retained on the housing by blocking axial movement of the at least one second flange against the at least one first flange when in the locked position, and wherein the head is free to disengage from the housing along the longitudinal axis when the head is located in the unlocked position relative to the housing. 2. The hydraulic hammer assembly of claim 1 , further comprising a biasing member disposed between the head and the housing, the biasing member being configured to bias the at least one second flange along the longitudinal axis into contact with the at least one first flange. 3. The hydraulic hammer assembly of claim 2 , wherein the biasing member is a spring. 4. The hydraulic hammer assembly of claim 1 , wherein the housing defines at least one opening adjacent to the at least one first flange to receive the at least one second flange in the end of the housing through the at least one opening in the unlocked position. 5. The hydraulic hammer assembly of claim 4 , wherein when the head is in the locked position relative to the housing, the at least one second flange is positioned axially adjacent to the at least one first flange, and when the head is in the unlocked position relative to the housing, the at least one second flange is positioned axially adjacent to the at least one opening. 6. The hydraulic hammer assembly of claim 5 , further comprising a detent on one of the at least one first flange and the at least one second flange and a projection for engaging the detent on the other of the at least one first flange and the at least one second flange for retaining the head in the locked position. 7. The hydraulic hammer assembly of claim 4 , wherein the at least one first flange includes a pair of first flanges positioned diametrically opposite to each other within a plane perpendicular to the longitudinal axis on the end of the housing, and the at least one opening includes a pair of openings positioned diametrically opposite to each other within the plane perpendicular to the longitudinal axis on the end of the housing. 8. The hydraulic hammer assembly of claim 1 , wherein the at least one first flange extends radially inward from the end of the housing and the at least one second flange extends radially outward from the head. 9. The hydraulic hammer assembly of claim 1 , wherein the head has a first end extending from the chamber and configured to be received in the end of the housing. 10. The hydraulic hammer assembly of claim 9 , wherein a sealing member seals a clearance between the first end of the head and the end of the housing. 11. A hydraulic hammer assembly comprising: a housing configured for a reciprocating movement of a piston along a longitudinal axis within the housing, the housing having at least one first flange extending radially inward from an end of the housing, the housing defining at least one opening adjacent to the at least one first flange relative to the longitudinal axis; and a head positioned on the end of the housing along the longitudinal axis of the housing and defining a chamber for holding a pressurized gas, the head having at least one second flange extending radially outward from the head and configured to be received in the end of the housing through the at least one opening, wherein the head is rotatable relative to the housing between a locked position and an unlocked position, wherein the head is retained on the housing by positioning the at least one second flange axially adjacent to the at least one first flange for blocking movement of the head away from the housing along the longitudinal axis when in the locked position, and wherein the head is free to disengage from the housing along the longitudinal axis when the head is located in the unlocked position relative to the housing. 12. The hydraulic hammer assembly of claim 11 , further comprising a biasing member disposed between the head and the housing, the biasing member being configured to bias the at least one second flange along the longitudinal axis into contact with the at least one first flange. 13. The hydraulic hammer assembly of claim 11 , wherein when the head is in the locked position relative to the housing having the at least one second flange is positioned axially adjacent to the at least one first flange, and when the head is in the unlocked position relative to the housing the at least one second flange is positioned axially adjacent to the at least one opening. 14. The hydraulic hammer assembly of claim 11 , the hydraulic hammer assembly further comprising a detent on one of the at least one first flange and the at least one second flange and a projection for engaging the detent on the other of the at least one first flange and the at least one second flange for retaining the head in the locked position. 15. The hydraulic hammer assembly of claim 11 , wherein the at least one first flange includes a pair of first flanges positioned diametrically opposite to each other within a plane perpendicular to the longitudinal axis on the end of the housing, and the at least one opening includes a pair of openings positioned diametrically opposite to each other within the plane perpendicular to the longitudinal axis on the end of the housing. 16. The hydraulic hammer assembly of claim 11 , wherein the head has a first end extending from the chamber and configured to be received in the end of the housing. 17. The hydraulic hammer assembly of claim 16 , wherein a sealing member seals a clearance between the first end of the head and the end of the housing. 18. A method for assembling a hydraulic hammer, the hydraulic hammer comprising a housing configured for reciprocating movement of a piston along a longitudinal axis of the housing and a head disposed on an end of the housing along the longitudinal axis, the head defining a chamber for holding a pressurized gas, at least one first flange extending radially from the end of the housing and positioned at an angle relative to the longitudinal axis, at least one opening defined on the end of the housing and positioned at an adjacent angle to the angle relative to the longitudinal axis to receive at least one second flange extending radially from the head, the method comprising: placing the head on the end of the housing such that the at least one second flange is received in the end of the housing through the at least one opening; and locking the head on the housing by rotating the head to position the at least one second flange axially adjacent to the at least one first flange. 19. The method of claim 18 , further comprising locking the head on the housing by a detent on one of the at least one first flange and the at least one second flange and a projection for engaging the detent on the other of the at least one first flange and the at least one second flange. 20. The method of claim 19 , further co