RU1340442C - Transferring system for transported nuclear reactor - Google Patents

Abstract

The invention relates to nuclear energy and can be used to reload nuclear transport reactors. The aim of the invention is to increase the reliability of the overload process when the nuclear reactor is tilted. The reloading system comprises a support ring 8, inside of which a Cup 12 is mounted with swinging levers 14 located on its periphery. The levers 14 have at their ends guide surfaces 15 and 16 passing through the slots 17. When overloaded, zone 1 slides along its direction with its lower end the surface 15 and immerses them in the slot 17. When approaching the upper base of the slope zone 1 to the upper guide surfaces 15, the levers 14 are parted, and their lower guide surfaces 16 are set to the receiving position of the base a 5 of zone 1. Since the length of the guide surfaces 15 and 16 is greater than the length of the friction element 2 of the zone, the filter element 2 is preserved during the passage of the landing collar 21. In the initial position, the guide surfaces 15 are reduced to the longitudinal axis of the glass 12, which is achieved by the location the center of mass of each lever between its axis 20. the gate and the longitudinal axis of the stack. 1 e.p. f-ly, 1 ill. g cl

Description

The invention relates to nuclear energy and can be used to reload transport nuclear reactors.

The aim of the invention is to increase the reliability of the overload process when the nuclear reactor is tilted.

The drawing shows a transshipment system for a transport nuclear reactor for reloading. Zone 1, which includes a filter ephemeng 2-, a cylindrical section 35 located above the flailing element 8, a supporting surface 4, two base belts 5 n 6 and a fungus 7 under the "grab."

The reloading system comprises a support ring 8, which is installed during the reloading period on the reactor vessel 9, a reloading container 10 with a hook 11 and a glass 12 installed inside the support ring 8. The glass is fixed inside the support ring by the connection 13. In the glass 12, its periphery is located at least two swinging levers / 14 having guide surfaces 15 and 16 extending through the slots 17 of the cup 12. The guide surfaces 15 and 16 exceed the length of the flange element 2 and end with bevels 18 and 19. In the original In their position, the guiding surfaces 13 are reduced to the longitudinal axis of the cup 12, which is achieved by locating the center of mass of each lever between its axis 20 and the longitudinal axis of the cup.

The overload of zone 1 of the transport slug of the reactor when it is inclined occurs in the following sequence. A support ring 8 is mounted and fixed on the reactor vessel 9, inside the support ring

40 rum of the filter element 2 and the inner diameter of the shaft 22 provides a guaranteed clearance, which excludes contact between ish, with all further lowering of the zone to the moment

rings 8 are lowered and the 45- landing of the supporting surface 4 is fixed on the connection 13 of the glass 12. Then on the supporting collar 2 .. After that, the rear ring 8 is installed overload 10

A 9-point container 10 with a zone 1 therein connected by a fungus 7 to a grab 11.

Zone 1 moves from the reloading container 10 and, acting on its lower end on the upper bevels 18 of the guide surfaces 15 of the levers Hj, spreads ir. With further movement, zone 1 slides along its guides with its lower end. surfaces 15, recessing them in the slot 17 of the glass 12. When the sub-suction. the upper grip 11 can be detached from the fungus 7 It should be noted that the gripper 11 does not go out of the 50 glass 12 during overloading, which ensures its protection with the fungus ipoBaHHoe 7 when removing the zone from the reactor vessel.

55 When a zone is removed from the reactor, the interaction along the upper zone and the right-hand side of the lever surfaces occurs. di G in the reverse order, but similarly.

04A2 of call-up zone 6 of zone 1, the ruling surfaces are later divorced, and

5

10

to the upper part 15 of the lever, their lower guide surfaces 16 are set to receive the base gear 5 of zone 1, Now the base juice 5 of zone 1 interacts with the guide surfaces 16 of the levers 1A, rotates them on the axis 20 until the guides stop surfaces 15 of these levers in the base juice 6.

Thus, the juice b of zone 1 is covered by the guiding surfaces 15,

15 and juice 5. is in contact with the guiding surfaces 16. In this position, zone 1 is aligned with the reactor vessel and with a clearance relative to the landing, shoulder 21 of the housing.

20 sa 9 reactor. Now the zone, when sliding along the jaws 5 and 6 along the guiding surfaces 15 and 16, passes with a clearance through the landing collar 21. Since the length of the guides over the 25 posts 15 and 16 exceeds the length

of the filter element 2 of the zone, the safety of the filter element during passage of the landing collar is ensured.

30 With further lowering of zone 1 after the release of jaws 5 and 6 out of contact with the guiding surfaces 15 and 16, zone 1s tends to take up a vertical position (due to the flexible suspension) SI will control the base rail 6 with the inner surface of the glass 12 , with a cylindrical section 3 with the hole of the landing collar 21. In this case, between the outer diameter 40 rum of the filter element 2 and the inner diameter of the shaft 22, a guaranteed clearance is ensured, which excludes contact between ish with the further lowering of the zone until

45- landing of the supporting surface 4 on the landing flange 2 .. After that-

45- landing of the supporting surface 4 on the landing flange 2 .. After that-

the gripper 11 can be detached from the fungus 7. It should be noted that the gripper 11 does not go out of the 50 glass 12 during reloading, which ensures that the ip ipBaHHoe ensures its engagement with the fungus 7 when the zone is removed from the reactor vessel.

55 When a zone is removed from the reactor, the interaction along the upper zone and the right-hand side of the lever surfaces occurs. di G in the reverse order, but similarly.

Claims (2)

The claims 1, A transfer nuclear reactor reloading system, comprising a reloadable zone with a filter element in its lower part, a support ring mounted for a period of reloading on a reactor vessel having a landing collar for the zone, a reloading container with a grip docked with the support ring, different from the fact that, in order to increase the reliability of the overload process with the inclined position of the nuclear reactor, the system is equipped with a glass mounted on its tip with an oscillating tip located on its periphery with levers guided at their ends by guiding surfaces that are identical to the base rails made on the zone, and the guiding surfaces of the levers exceed the length of the filter element of the zone. 2. The system according to claim 1, about t and h and u - sh and so that the centers of mass of the levers are located between their axis of rotation and the longitudinal axis of the glass, 2 / 22 Or T. Ivanova 2828 Compiled by V.Yuhimchuk Tehred M.DITSK Circulation VNISHTI of the USSR State Committee for affairs of inventions and discoveries 113035, Moscow, Zh-35, Rauska nab., A / 5 Cor Pod Production and printing company, Uzhgorod, st. Projectna, 4 Proofreader M. Pozho Subscribed