Patent Number: 
Section: claims

1. A method for sealing a seam in a wall of a pool of a nuclear facility, making use of a mobile robot carrying a dispenser for an adhesive tape, the method comprising:controlling a plurality of suction systems, comprising a first suction system and at least a second suction system, the second suction system being part of a frame carrying a crosspiece movably mounted in the frame, the crosspiece being movable at least in translation relatively to the frame, said translation being along at least one direction in a plane parallel to said wall, the crosspiece supporting the first suction system via an arm and a rotation shaft perpendicular to said plane, the crosspiece supporting the arm, said arm supporting the dispenser, the arm supporting the shaft for adjusting the height of the dispenser relatively to the frame to apply the adhesive tape of the dispenser against the seam, the motion in translation of the crosspiece relatively to the frame making the first suction system being movable in translation relatively to the second suction system in order to adjust the position of the dispenser, the shaft being able to move in rotation to orient furthermore the first suction system angularly relative to the second suction system, andcontrolling the movement of the first suction system relative to the second suction system of said plurality of suction systems. 2. The method according to claim 1, wherein, to move the dispenser relative to a wall of the pool, alternating steps are ordered which comprise at least the following:activating the plurality of suction systems while deactivating the first suction system,moving the first suction system relative to the second suction system in a given direction,activating the first suction system while deactivating the second suction system,moving the first suction system relative to the second suction system in a direction opposite the given direction. 3. The method according to claim 1, wherein the seam to be sealed is a weld between sheets covering an inner wall of the pool. 4. The method according to claim 3, wherein said weld contains a crack. 5. A mobile robot for sealing a seam in a wall of a pool of a nuclear facility, the mobile robot carrying a dispenser of an adhesive tape, and comprising:a plurality of suction systems, comprising a first suction system and at least a second suction system, the second suction system being part of a frame comprising a crosspiece movably mounted in the frame, the crosspiece being moveable at least in translation relatively in the frame, said translation being along at least one direction in a plane parallel to said wall, the crosspiece supporting the first suction system via an arm and a rotation shaft perpendicular to said plane, the crosspiece supporting the arm, said arm supporting the dispenser, the arm supporting the shaft for adjusting the height of the dispenser relatively to the frame to apply the adhesive tape of the dispenser against the seam, the motion in translation of the crosspiece relatively to the frame making the first suction system being movable in translation relatively to the second suction system in order to adjust the position of the dispenser, the shaft being able to move in rotation to orient furthermore the first suction system angularly relative to the second suction system, andmovement means for moving the first suction system relative to the second suction system of said plurality of suction systems. 6. The mobile robot according to claim 1, wherein the arm is mounted to move in translation relative to the crosspiece in at least a second direction that is different from the first direction. 7. The mobile robot according to claim 1, wherein the dispenser is mounted relative to the frame so that the dispenser is placed outside the frame. 8. The mobile robot according to claim 5, wherein the plurality of suction systems comprises suction cups with backflow of fluid. 9. The mobile robot according to claim 5, wherein the dispenser comprises a head that presses the tape against the wall and wherein said head includes a servomotor. 10. The mobile robot according to claim 5, wherein the adhesive tape is covered with a protective film. 11. The mobile robot according to claim 10, wherein the protective film is made of stainless steel. 12. A facility comprising a mobile robot for sealing a seam in a wall of a pool of a nuclear facility, the mobile robot carrying a dispenser of an adhesive tape, and comprising:a plurality of suction systems, comprising a first suction system and at least a second suction system, the second suction system being part of a frame comprising a crosspiece movably mounted in the frame, the crosspiece being moveable at least in translation relatively in the frame, said translation being along at least one direction in a plane parallel to said wall, the crosspiece supporting the first suction system via an arm and a rotation shaft perpendicular to said plane, the crosspiece supporting the arm, said arm supporting the dispenser, the arm supporting the shaft for adjusting the height of the dispenser relatively to the frame to apply the adhesive tape of the dispenser against the seam, the motion in translation of the crosspiece relatively to the frame making the first suction system being movable in translation relatively to the second suction system in order to adjust the position of the dispenser, the shaft being able to move in rotation to orient furthermore the first suction system angularly relative to the second suction system, andmovement means for moving the first suction system relative to the second suction system of said plurality of suction systems, and means for remotely controlling the suction systems and movement means comprised in the mobile robot.