Securing device for a cylindrical ceramic hollow body and fireproof ceramic gas purging brick having such type of securing device

The invention claimed is: 1. Refractory ceramic gas purging brick with the following characteristics in an operational position in a bottom of a metallurgic vessel: a) a gas distribution chamber (GV) at a lower end b) multiple securing devices ( 10 ) which are arranged at a distance to each other in the area of a ceiling (MB) of the gas distribution chamber (GV), where c) each securing device ( 10 ) holds a cylindrical ceramic hollow body (SR), each of which extends through a ceramic base material (MM) of the gas purging brick up to its upper face, wherein each securing device comprises: 1) a base body ( 12 ) which, with its bottom ( 12 B) and a circumferential wall ( 12 W), defines a cylindrical space ( 12 R) with a corresponding central longitudinal axis (M), 2) the bottom ( 12 B) features an opening ( 12 O) whose longitudinal axis (L) aligns with the central longitudinal axis (M), 3) the bottom ( 12 B) features a ring-shaped channel ( 14 N) which extends concentrically around the opening ( 12 O), 4) at least an inner wall ( 14 I) of the channel ( 14 N) which is adjacent to the opening ( 12 O) consists of a material which is plastically ductile under application of pressure, 5) a ring-shaped compact ( 16 ) whose radial wall cross-section increases in size upwards from a lower free end ( 16 U), thereby reducing the cross section of the opening ( 12 O), 6) a shape of the ring-shaped compact ( 16 ) is to be chosen in such a way that it is able to enter the channel ( 14 N) over a small distance in an unloaded manner, before the compact ( 16 ) is pressed further into the channel ( 14 N) in an axial direction of the securing device, wherein 7) the ring-shaped channel ( 14 N) extends into a discrete element ( 14 ), which forms an upper segment of the bottom ( 12 B) and is arranged without any substantial play in the space ( 12 R). 2. Gas purging brick according to claim 1 , wherein the ceiling (MB) of the gas distribution chamber (GV) consists of metal and the securing devices are attached in through holes (DB) of this ceiling (MB) by welding (S). 3. Securing device for a cylindrical ceramic hollow body (SR) in a gas purging brick, the securing device having the following characteristics in its operational position: a) a base body ( 12 ) which, with its bottom ( 12 B) and a circumferential wall ( 12 W), defines a cylindrical space ( 12 R) with a corresponding central longitudinal axis (M), b) the bottom ( 12 B) features an opening ( 12 O) whose longitudinal axis (L) aligns with the central longitudinal axis (M), c) the bottom ( 12 B) features a ring-shaped channel ( 14 N) which extends concentrically around the opening ( 12 O), d) at least an inner wall ( 14 I) of the channel ( 14 N) which is adjacent to the opening ( 12 O) consists of a material which is plastically ductile under application of pressure, e) a ring-shaped compact ( 16 ) whose radial wall cross-section increases in size upwards from a lower free end ( 16 U), thereby reducing the cross section of the opening ( 12 O), f) a shape of the ring-shaped compact ( 16 ) is to be chosen in such a way that is able to enter the channel ( 14 N) over a small distance in an unloaded manner, before the compact ( 16 ) is pressed further into the channel ( 14 N) in an axial direction of the securing device, wherein (g) the ring-shaped channel ( 14 N) extends into a discrete element ( 14 ), which forms an upper segment of the bottom ( 12 B) and is arranged without any substantial play in the space ( 12 R). 4. Securing device according to claim 3 , wherein the ring-shaped channel ( 14 N) in the bottom ( 12 B) features a rectangular cross section in the radial direction. 5. Securing device according to claim 3 , wherein the ring-shaped channel ( 14 N) in the base ( 12 B) features a cross section which radially enlarges upwards, towards the open end. 6. Securing device according to claim 3 , wherein the discrete element ( 14 ) is made of a material which is plastically ductile under the application of pressure. 7. Securing device according to claim 3 , wherein the compact ( 16 ) is made of a material which is plastically ductile under the application of pressure. 8. Securing device according to claim 3 , wherein the plastically ductile material is a material which is a material from the group which comprises the following materials: copper, copper alloys, aluminium, aluminium alloys, tin, tin alloys, zinc, zinc alloys. 9. Securing device according to claim 3 with at least one circumferential recess ( 14 R) on at least one of the following surfaces: inner surface ( 14 II) of the inner wall ( 14 I), outer surface ( 14 AA) of the outer wall ( 14 A). 10. Securing device according to claim 3 wherein the recess ( 14 R) features a saw-tooth-like profile. 11. Securing device according to claim 3 with a lid ( 18 ) which is attachable to the base body ( 12 ) and features a lid opening ( 18 O) which extends concentrically to the opening ( 12 O) in the bottom of the base body ( 12 ). 12. Securing device according to claim 11 , wherein the lid ( 18 ) and the base body ( 12 ) can be screwed together. 13. Securing device according to claim 11 , wherein the lid ( 18 ) features an extension ( 18 V) which can be inserted into the space ( 12 R) in a form-fitted manner and also features a drilling ( 18 B) which extends concentrically to the lid opening ( 18 O).