Pneumatic hammer device and a method pertaining to a pneumatic hammer device

The invention claimed is: 1. A pneumatic hammer device, comprising: a connector configured to be connected to a compressed air conduit of an external compressed air source, and a striking mechanism comprising a striking mechanism housing and a striking piston arranged for reciprocating motion in said striking mechanism housing, the striking piston having a front piston portion and a rear piston portion, wherein the front piston portion affects an insert tool arranged at the hammer device, wherein the striking piston and the striking mechanism housing together form a front space and a rear space, wherein the front space is limited rearwards by the front piston portion and the rear space is limited forwards by the rear piston portion, wherein said compressed air conduit is arranged in air flow communication with the rear space via a first passage in the striking mechanism housing, and wherein said compressed air conduit is arranged in air flow communication with the front space via a second passage in the striking mechanism housing, at which second passage a first valve is arranged, wherein the striking piston is configured such that an intermediate space is formed between the front piston portion and the rear piston portion and the striking mechanism housing, wherein a control unit is arranged to alternately be subjected to an air pressure at said rear space and said intermediate space respectively during the reciprocating motion of the striking piston, and wherein said control unit is arranged to control said first valve on the basis of said air pressure to alternately supply compressed air to the front space and achieve a return movement of the striking piston. 2. The pneumatic hammer device according to claim 1 , further comprising: a first venting passage arranged at said striking mechanism housing for maintaining atmospheric pressure at said intermediate space. 3. The pneumatic hammer device according to claim 1 , wherein the control unit comprises a control passage arranged at said striking mechanism housing and a control conduit arranged between the control passage and the first valve. 4. The pneumatic hammer device according to claim 1 , further comprising: a second venting passage arranged at the striking mechanism housing such that the second venting passage is in communication with the front space when the control unit is in communication with the intermediate space. 5. The pneumatic hammer device according to claim 1 , further comprising a feed conduit arranged in air flow communication with the compressed air conduit and the first valve. 6. The pneumatic hammer device according to claim 1 , wherein the connector comprises a second valve arranged in connection with the air conduit for controlling the supply of compressed air. 7. The pneumatic hammer device according to claim 6 , further comprising: an actuator arranged in communication with the second valve, in order to manually achieve the opening/closing of the second valve. 8. The pneumatic hammer device according to claim 7 , wherein the actuator comprises a servo valve. 9. The pneumatic hammer device according to claim 1 , further comprising: a venting device arranged for venting of said front space. 10. The pneumatic hammer device according to claim 1 further comprising: an intermediate block arranged between the insert tool and the front portion of the striking piston. 11. The pneumatic hammer device according to claim 1 , further comprising: a rotation mechanism for rotation of the insert tool. 12. A method pertaining to a pneumatic hammer device comprising a connector arranged for connection to a compressed air conduit of an external compressed air source and a striking mechanism comprising a striking mechanism housing and a striking piston arranged for reciprocating motion in said striking mechanism housing, the striking piston further comprising a front piston portion and a rear piston portion, wherein the front piston portion affects an insert tool arranged at the hammer device, wherein the striking piston and the striking mechanism housing together form a front space and a rear space, wherein the front space is limited rearwards by the front piston portion and the rear space is limited forwards by the rear piston portion, wherein said compressed air conduit is arranged in air flow communication with the rear space via a first passage in the striking mechanism housing, and wherein said compressed air conduit is arranged in air flow communication with the front space via a second passage in the striking mechanism housing, at which second passage a first valve is arranged, the method comprising: controlling the first valve with a control unit arranged to be alternately subjected to an air pressure of said rear space and an intermediate space respectively, during the reciprocating motion of the striking piston, wherein said intermediate space is formed between the striking mechanism housing, the front piston portion and the rear piston portion, wherein the control unit controls said first valve based on said air pressure to alternately supply compressed air to the front space and achieve a return movement of the striking piston. 13. The method pertaining to a pneumatic hammer device according to claim 12 , further comprising: controlling said first valve such that the first valve opens and supplies compressed air to said front space when the striking piston is positioned such that the control is in communication with the rear space, in order to achieve a rearward movement of the striking piston in the striking mechanism housing. 14. The method pertaining to a pneumatic hammer device according to claim 12 , further comprising: controlling said first valve such that the first valve closes when the striking piston is positioned such that the control unit is in communication with the intermediate space. 15. The method pertaining to a pneumatic hammer device according to claim 12 , further comprising: venting said front space when the first valve is closed.