Rotary atomizing head for electrostatic coater

What is claimed is: 1. A rotary atomizing head for an electrostatic coater, including an assembly of an atomizing head body and a structural component, in which the atomizing head body has an inner circumferential surface on which paint flows under the centrifugal force, and the structural component accessible from the front of the atomizing head body to be removably fixed in a central concavity formed in the central portion of the atomizing head body, wherein the rotary atomizing head is free of an O-ring between the atomizing head body and the structural component removably fixed in the atomizing head body, said structural component comprising: a front wall forming a disc-shaped hub contiguous to the inner circumferential surface of the atomizing head body; a plurality of paint discharge openings formed at circumferentially regular intervals in an outer circumferential surface of the front wall; a plurality of cleaning openings formed in the central portion of the front wall; a side wall extending rearward from the outer circumferential surface of the front wall to be circumferentially continuous; a plurality of legs extending rearward from the outer circumferential surface of the rear end of the side wall; a pawl protruding outwardly from the rear end of each leg into a circumferential recess formed in a circumferential wall of the central concavity for engagement on a side wall of the circumferential concavity; a bottom wall disposed radially inside the plurality of legs; a spoon-cut recess formed in the bottom wall; and a paint space defined by the front wall, the side wall and the bottom wall, and wherein the circumferential wall of the central concavity is formed of an inclined wall gradually increased in diameter forward; wherein the outer circumferential surface of the side wall of the structural component is complementary in shape with the circumferential wall of the central concavity, and wherein the outer circumferential surface of the side wall of the structural component is in contact with the circumferential wall of the central concavity throughout the entire length of the structural component from a front end to a rear end thereof. 2. The rotary atomizing head according to claim 1 , wherein the bottom wall of the structural component includes: a circumferential ridge formed at a radially inward position of the spoon-cut recess and projecting toward the front wall, and a central opening formed at a radially inward position of the circumferential ridge and extending along the axis of the rotary atomizing head. 3. The rotary atomizing head according to claim 1 , wherein the bottom wall of the structural component has a cylindrical outer circumferential surface; wherein the atomizing head body has a large-diameter cavity to receive the bottom wall of the structural component and has a shoulder formed at the rear end of the large-diameter cavity; and wherein the bottom wall sits on the shoulder when the structural component is mounted in the atomizing head body and the bottom wall of the structural component is received in the large-diameter cavity. 4. The rotary atomizing head according to claim 1 , wherein the structural component is formed of a relatively hard synthetic resin. 5. The rotary atomizing head according to claim 1 , wherein a shoulder having a dam function is defined between the structural component and atomizing head body when the structural component is mounted in the atomizing head body. 6. The rotary atomizing head according to claim 2 , wherein a shoulder having a dam function is defined between the structural component and atomizing head body when the structural component is mounted in the atomizing head body. 7. The rotary atomizing head according to claim 3 , wherein a shoulder having a dam function is defined between the structural component and atomizing head body when the structural component is mounted in the atomizing head body. 8. The rotary atomizing head according to claim 1 , wherein the structural component has formed a shoulder on an outer circumferential portion of the front end surface of the front wall, and the shoulder acts as a dam mechanism for receiving paint flowing out of the paint discharge openings and spreading it thin and wide, wherein the shoulder forms a first dam on the front surface of the structural component and a second dam between the structural component and the atomizing head body. 9. The rotary atomizing head according to claim 2 , wherein the structural component has formed a shoulder on an outer circumferential portion of the front end surface of the front wall, and the shoulder acts as a dam mechanism for receiving paint flowing out of the paint discharge openings and spreading it thin and wide, wherein the shoulder forms a first dam on the front surface of the structural component and a second dam between the structural component and the atomizing head body. 10. The rotary atomizing head according to claim 3 , wherein the structural component has formed a shoulder on an outer circumferential portion of the front end surface of the front wall, and the shoulder acts as a dam mechanism for receiving paint flowing out of the paint discharge openings and spreading it thin and wide, wherein the shoulder forms a first dam on the front surface of the structural component and a second dam between the structural component and the atomizing head body. 11. A method of reusing the rotary atomizing head of claim 1 for an electrostatic coater, comprising: (i) preparing an assembly of an atomizing head body and a structural component, in which the atomizing head body has an inner circumferential surface on which paint flows under the centrifugal force, and the structural component accessible from the front of the atomizing head body to be removably fixed in a central concavity formed in the central portion of the atomizing head body, wherein the structural component comprising: a front wall forming a disc-shaped hub contiguous to the inner circumferential surface of the atomizing head body; a plurality of paint discharge openings formed at circumferentially regular intervals in an outer circumferential surface of the front wall; a plurality of cleaning openings formed in the central portion of the front wall; a side wall extending rearward from the outer circumferential surface of the front wall to be circumferentially continuous; a bottom wall continuous to a rear end of the side wall; a spoon-cut recess formed in the bottom wall; and a paint space defined by the front wall, the side wall and the bottom wall; (ii) removing the structural component from the atomizing head body; (iii) cleaning or disposing the structural component; and (iv) accessing from the front of the atomizing head body to fix the cleaned structural component or a new structural component in the central concavity of the atomizing head body. 12. The method of reusing the rotary atomizing head according to claim 11 , wherein the structural component further comprising: a plurality of legs extending rearward from the outer circumferential surface of the rear end of the side wall; a pawl protruding outwardly from the rear end of each leg into a circumferential recess formed in a circumferential wall of the central concavity for engagement on a side wall of the circumferential concavity.