Tissue paper making machine and a method of operating a tissue paper making machine

The invention claimed is: 1. A tissue paper making machine ( 1 ) comprising: a forming section ( 2 ); a Yankee drying cylinder ( 3 ); a shoe roll ( 4 ) arranged to form a nip with the Yankee drying cylinder ( 3 ), the shoe roll ( 4 ) comprising: a shoe ( 6 ) arranged to act against the Yankee drying cylinder ( 3 ) in the nip formed between the shoe roll ( 4 ) and the Yankee drying cylinder ( 3 ), the nip having a maximum extension from an entry point ( 7 ) of the nip to an exit point ( 8 ) of the nip; and a flexible tubular belt ( 9 ) that forms a loop around the shoe ( 6 ) and forms an outer circumference of the shoe roll ( 4 ); a carrier fabric ( 10 ) arranged to be capable of carrying a fibrous web (W) from the forming section ( 2 ) to the nip formed between the Yankee drying cylinder ( 3 ) and the shoe roll ( 4 ) and pass through the nip between the Yankee drying cylinder ( 3 ) and the shoe roll ( 4 ) together with the fibrous web (W), the carrier fabric ( 10 ) being arranged to reach the outer circumference of the shoe roll ( 4 ) at a first contact point ( 11 ) such that the carrier fabric ( 10 ) will wrap a part of the outer circumference of the shoe roll ( 4 ) over an area stretching from the first contact point ( 11 ) to the nip, wherein: the shoe roll ( 4 ) further comprises a mechanical support ( 12 ) located inside the loop of the flexible tubular belt ( 9 ), the mechanical support ( 12 ) being placed to support the flexible tubular belt ( 9 ) in at least a part of the area between the first contact point ( 11 ) and the nip between the Yankee drying cylinder ( 3 ) and the shoe roll, the flexible tubular belt ( 9 ) has axial ends ( 15 , 16 ) connected to end walls ( 17 , 18 ) such that the end walls ( 17 , 18 ) and the flexible tubular belt ( 9 ) define an enclosed space ( 19 ), and the paper making machine ( 1 ) further comprises a source ( 20 ) of pressurized air that can communicate with the enclosed space such that the enclosed space ( 19 ) can be filled with pressurized air, the carrier fabric ( 10 ) is under a tension which is in the range of 3.0 kN/m-5.0 kN/m, the carrier fabric ( 10 ) wraps the outer circumference of the shoe roll ( 4 ) in the area stretching from the first contact point ( 11 ) by an angle which is greater than 80°, the mechanical support ( 12 ) is arranged to support the flexible tubular belt ( 9 ) in the area from the first contact point to the nip over an angle that is more than 90° and the mechanical support ( 12 ) has an end positioned at a point ( 13 ) which, in a circumferential direction of the shoe roll ( 4 ) in a rotation direction of the carrier fabric ( 10 ), is closer to the entry point ( 7 ) of the nip than to the exit point ( 8 ) of the nip and which, for the maximum extension of the nip, is at an angular distance from the entry point ( 7 ) of the nip which is at least 8°. 2. A tissue paper making machine ( 1 ) according to claim 1 , wherein the carrier fabric ( 10 ) wraps the outer circumference of the shoe roll in an area stretching from the first contact point by an angle which is in the range of 100°-280°. 3. A tissue paper making machine ( 1 ) according to claim 2 , wherein the angle is in the range of 100°-200°. 4. A tissue paper making machine ( 1 ) according to claim 2 , wherein the angle is in the range of 120°-180°. 5. A tissue paper making machine ( 1 ) according to claim 1 , wherein the shoe ( 6 ) is deformable such that the shape of a surface of the shoe that faces the Yankee drying cylinder in the nip between the Yankee drying cylinder and the shoe roll can adapt to match the outer surface of the Yankee drying cylinder. 6. A tissue paper making machine ( 1 ) according to claim 1 , wherein at least one applicator ( 21 ) for lubricant is located inside the flexible tubular belt ( 9 ) and arranged to be capable of applying a lubricant to an interior surface ( 22 ) of the flexible tubular belt ( 9 ). 7. A tissue paper making machine ( 1 ) according to claim 1 , wherein a trough ( 24 ) is placed adjacent the shoe ( 6 ) in an area which, in the circumferential direction of the shoe roll ( 4 ), lies between the entry point of the nip ( 7 ) and the mechanical support ( 12 ) such that lubricant fluid that enters the nip and is pressed backwards out of the nip can be collected in the trough ( 24 ). 8. A tissue paper making machine ( 1 ) according to claim 1 , wherein: the forming section ( 2 ) comprises a first forming fabric ( 28 ) that is arranged to run in a loop supported by guide elements ( 29 ) and the carrier fabric ( 10 ) is a water-receiving felt which is used in the forming section ( 2 ) as a second forming fabric that is arranged to run in a loop supported by guide elements ( 26 ) and to carry the fibrous web (W) from the forming section ( 2 ) to the nip formed between the shoe roll ( 4 ) and the Yankee drying cylinder ( 3 ), the first forming fabric ( 28 ) and the carrier fabric ( 10 ) being so arranged in relation to each other that the two fabrics ( 10 , 28 ) converge towards each other to form an inlet gap ( 31 ) into which stock can be injected, the forming section ( 2 ) further comprising a head box ( 32 ) arranged to inject stock into the inlet gap ( 31 ) and a forming roll ( 33 ) arranged within the loop of the carrier fabric ( 10 ), the forming roll ( 33 ) being arranged to guide the carrier fabric ( 10 ) into the inlet gap ( 31 ) and to guide the carrier fabric ( 10 ) and the first forming fabric ( 28 ) along a part of their path which is common to both the carrier fabric ( 10 ) and the first forming fabric ( 28 ) and which begins at the inlet gap ( 31 ), the forming roll ( 33 ) comprising a flexible sleeve ( 35 ) which is arranged to run in a loop around an axis of rotation (A) that extends in a direction perpendicular to the direction in which the carrier fabric ( 10 ) and the first forming fabric ( 28 ) are arranged to run; and the forming roll ( 33 ) further comprises a support ledge ( 36 ) located inside the loop of the flexible sleeve ( 35 ) and extending in a direction parallel to the axis of rotation of the flexible sleeve ( 35 ) and which support ledge ( 36 ) is arranged to be capable of pressing the flexible sleeve ( 35 ) in a direction outwards away from the axis of rotation of the flexible sleeve ( 35 ) in an area along the loop in which the flexible sleeve ( 35 ) is arranged to run such that, in the area in which the flexible sleeve ( 35 ) is pressed outwards by the support ledge ( 36 ), the flexible sleeve ( 35 ) is caused to follow a path with a radius of curvature which is smaller than the radius of curvature of the flexible sleeve ( 35 ) outside the area in which the support ledge ( 36 ) contacts the flexible sleeve ( 35 ). 9. A tissue paper making machine ( 1 ) according to claim 8 , wherein the radius of the forming roll ( 33 ) in areas not in contact with the support ledge ( 36 ) is in the range of 500 mm-1600 mm and the smallest radius of the support ledge ( 36 ) is in the range of 40 mm-100 mm. 10. A tissue paper making machine ( 1 ) according to claim 9 , wherein the smallest radius of the support ledge ( 36 ) is in the range of 45-80 mm. 11. A tissue paper making machine ( 1 ) according to claim 9 , wherein the smallest radius of the support ledge ( 36 ) is in the range of 50 mm-75 mm. 12. A tissue paper making machine ( 1 ) according to claim 1 , wherein: the forming section ( 2 ) comprises: a first forming fabric ( 28 ) arranged to run in a loop supported by guide elements ( 29 ); a second forming fabric ( 38 ) arranged to run in a loop supported by guide elements ( 39 ), the second forming fabric ( 38 ) being a water-receiving felt and arranged so in relation to th