FR2626807A1 - Multi-function remote manipulator robot for nuclear reactor steam generators - Google Patents

Abstract

This manipulator relates to work and monitoring to be carried out on all the walls of a steam generator waterbox: tubes plate, hemispherical bowl, manhole, the separation plate, the primary inlets and outlets. Due to its design and its positioning in the waterbox Fig. 1, its implementation takes place in remote control without personnel being exposed to the waterbox. It comprises: a base plate 1 for fixing onto the manhole, a base 2 for orientation, 3 articulation pairs for positioning in 3, 4 and 5 and 3 embeddable structures 6, 7, 8.

Description

The invention relates to a versatile tooling and interventional plane intended for maintenance, control and repair operations in the vanishing generator boxes of nuclear reactors, such as the inclination of the relevant heat exchanger with respect to vertical ansolus
The architecture of this manipulator allows the interventions on all the zurfaces of the water heater of the heat exchanger 2 of which essentially the tubular plate (9), the emitting bowl (10), the plate of separation (11) and the pipes of entering and exiting primary fluids (12).

The robot is characterized by a compact and built-in structure that allows the installation without human intervention in the water box which is a very radiating environment
This robot in operation allows the return to the manhole and chanoment bit tools of the box without enposstion personnel implementation
This sonot comprises: - a base (1) linking mècant with the other bowme hole zur which he is bolted.

 an orientation guide in case 0 to 360.

- 3 pairs of joints (3) (4) (5)
- 3 structures (6) (7) (8) fit into each other and maneuvered on three axes by the joints
an input arm which comprises a motorisation
coaniale from 0 to 360 'and an end work plate providing an orientation e t 360 on a
vertical axis relative to the axis of the arm
Aonlitations to all maintenance, control and repair operations related to automatic processes
Given its compamity, its lightness and its simplicity of implementation, it will also find its annlitation by the man of rt in all applications in hostile environments and especially under man.

 Since the robot's entire body is waterproof, an electronic blinning is particularly suited to the battlefield or nuclear accident.

compact and efficient ampert this collapsible and flush arm also finds san application on the shuttle of 1 space
GENERAL DESCRIPTION
This telemanager fiqure 2 tomporte - a mocle (1) rigidly connected to the axterieur and fixed by bolts on the manhole via a rim 1). This base is positioned and set to establish a plane parallel to the tube plate and includes the recentacle of the base of the robot, @ a base (2) is united finite on the socie by the underside collar .The booster has a motorization in o & so cad to ensure the positioning of the robot
articulations "couples" (3) (4) (5) amsurent the handling of the charges close to 50 kos in emtrémite and definiasent the positioning o to 360 in sites of cnacun of the components of the robot - 3 structures built-in (to) 7) (8) 1 which allow the complete folding of the robot FIG. 3 and FIG. 4, The arm g B 5 folds into the arm (7 S and 1 'all of the tres @ 7) and 8 3 folds into the main arm t
These 3 ancastraules structures give to the rrt a very large atactive volume, allows to be introduced without difficulty and without dismounting by the man of dimenzion limited for the establishment in the box & water which is a medium radipactit. This position folds to Figure 4 has the advantage of factilter transportation in congested places that are compartments breeders étancmme These structures are light alloys or esmposities to limit the total weight of the robot.

OPERATION AND POBITIONING Figure 5 and Figure a
The robot on its socla in water box is positioned on a plane parallel to the plane of the tubular plate. the motorization of 1 'base ensures a circular positioning o 360 on these plans
The articulation (5) allows the orientation at altitude and site
A) relative to the plane 20. This rotation is provided around the axis @@ 'of the plane 20 and is located concordant with respect to the vertical axis of the vv "The main arm allowing the installation of 1 l together ensures the rigid connection of the main articulation (5 with the secondary arm via a so-called secondary articulation (4
The axes of the two joints (5) and (4> are at a distance k. The axis yy lies in the plane parallel to the plane 20 defined by the axis xx *
The articulation 5 realizes the positioning at the site (A) - The sacral pras has the strict connection with the axis of articulation (3) of the bram d'enemité, the axis of the articulation determines the work plan (40) Parallel to the tubular plate (50), Artarulation (3) is at a distance V of the VV *. The articulation (4) realizes the positioning in site (B). The acticulation (3) assures positioning of the axis of the end arm confoandu with the plane (40) by the orientation in site (C).

- The antremite arm (8) actuated by the hinge (3) has in end a fine positioning plate (5) in an ane perpenditulire to the plen 40.

Mositioning in the case of the base (D0 and positronnement in heading (E) he end of the positioning plate by the work in the tube axis of the tubular plate on the plane 50 cuelque is the triangular or rectangular pargage that it appears in.

The distance from the end platima to the xz axis of the plane (40) ze sitwe at a constant distance (d) on this plam for a work plane (40) parailale to the tubular plate (50) .

- The distance from the vertical axis of the base xx to the working axis ww projected on the plane (50) is achieved by the prosection of the main beam X by the site A, then by the prosection of the secondary arm y by site B and the mistory d of the arm of entremit
The heading positioning is achieved by the rotation of the angle (D) and the rotation of the angle (E) 1 = * cos A + y con B + d.

The orientation and construction of the work plate 7 also allows a great working capacity according to the contigation of the pergage of the tobucous plate and the adapted plate (1) the example shown in Figure 7 shows the large number of tubes that can be treated manx change the main position of the robot in the ars of the tune aims 2
ARTICIRATIONS CUTTERS Figure B
Coupled artitulations allow the movement of the robot under different modes of operation - dynamic operation without the use of electromnetic brakes (a) - fixed positioning operation with electro-brazing implementation of biocage in mite positioning
This standard joint shown in Figure 1 (8) comoorte - a platinum motrite (1) with a high performance engine
counle (2) and a tachymetric generatrite (3) These two elements are concentric, the stator support (4) of the tachymetric commutations at a minimum thickness of 6 mm of non-magnetic alloy a reducing plate (5) ensures the transmission of the movement of rotation by means of a reduction element (6) drives a driving bell (7) concentric to the driving plate and to the reduction plate - a high-resolution coding and positioning element (8) is integrated in the extremity of the reduction plate and activated by the driven part whose positioning must be detected This end fitting makes it possible to free the reduction rings and allows rapid replacement of the resolvers without disassembly of the robot. This assembly has the advantage in addition to isaler macanically as well as electrically ensible element of positioning of the joint and to achieve electromagnetic shielding of highly radioactive nuclear environment.

- an end-mounted electromagnetic brake plate to allow, adjustment, disassembly and repair without affecting the assembly of the joint comports:
a structural element C 12) mounted concentrically to the drive plate. This element receives a stator winding (13) from maintian. At the other end of the rmtog (14) of this articulation is mounted a non-magnetic disk (15) which comprises at its periphery a magnetic disc (16) which
allows magnetic coupling with stator (11)
With the brake. The diameter of the dimple (15) will be of 20mm nupérieur with diameter of ektrémite of the shaft (14) to alleviate the magnetic disturbances of the platinum motor
The aivaole (10) ensures the pressurimation of the articulation the diaphragms (1 11 lpermettant the internal ventilation of the drive plate and the brake plate
THE NLMERD EXTREMITY ARM 3 Figure 9
The arm n 3 FIG 9 can fold and fit into the secondary arm which allows 1 accessibility of the
structure of this versatile robot in limited space of access to
trt of man without difficulty of implementation
arm has other connection with the secondary arm
for a joint workmen enite ~ a shsemble of
concentric tmuole motorisation (1) to the structure of
arm3 allowing the rotation itself of OX 350 for
the PP '
The entremity of the arm 3 comprises another articulation torque
concentric which allows the formation of the platinum (2)
to account for work patterns on the plate
tunicular whatever the drilling of the plate
This end plate has a conical transmission
(3) driven by the platinum motor (4)
The plate includes:
a positioning encoder t 5
- a centering optics and shape analysis allowing a
central end of the robot t 6> - an inertial cal block of absolute positioning ensuring
Correlation and precise positioning according to the hoop
corrected from a control computer chain

Claims (2)

 3 CLAIMS  1: This remote manipulator for generator operations  of steam is characterized in that it comprises  a metal base fixed on the access hole to the enclosure delimited by the envelope (10). This base ensures the positioning of the motor base (2) fixed by its flange (12)  a set of 3 articulated arms (6, 8, 8) making it possible to access all the zones of the water container and more particularly of the tube plate (9)  3 pairs of articulated joints (3-4-5) assembled in 3 stages ensuring the maneuvering of the arms (6-7-8) 2: This manipulator according to claim 1 is characterized by comprising an end arm (S> which can be folded into the hollow structure of the secondary arm (7) This outer structure (7) can be folded into the hollow structure of the main arm (6) These ancasable structures are made of composite materials 3) This remote manipulator according to the preceding claims comprises the arms (6-7-8) concentric and centered according to the l 'axis VV .The axes of articulation are centered on the axis VV in the axis of the structure of the main arm 4: This manipulator according to the preceding claims is characterized by the positioning in distance on the tube plate according to the definition of two fixed parallel planes (20-40) with a variable hinge plane (30) for defining the distance by projection of the three arms of the robot according to 3, angular sites (A) (B) (C) The axis of the positioning of the end 8 .WW'om arm finds concentric to the tube axis screw on the plate  tubular The heading orientation is achieved by the rotation of the motor base (2) S: This manipulator according to the premerstend claims mounted in a water box allows the presentation of the arms (7) and (8) in the orientation axis of the hole man and allows to have the end arm 8 out of nuclear irriadiation 6: Remote manipulator according to the preceding claim characterized by the fact that this set is motorized by  watertight sealed torque joints for versatile use in air and water This concentric mounting to the drive bell (7) allows the pressurization of the outer cavity (10) and the articulation by the diaphragms (11) 7: Télémentpulateur seion the preceding revendication comprise joints couples 3-4-5 which mant constituted by the assembly of 3 functional plates  A plate whose structure (1) allows the mounting of a tachometric generator (3) concentric with a torque motor (2). 8: Remote manipulator according to the preceding claims (8.7) comprises in the couples joints -a reducing plate (6) with position resolver fi  this resolver is directly mutwainê by the drive bell (7) and is concentric with the articulation axis 9: Remote manipulator according to the preceding claims (6.7.8) comprises in the article - a braking end plate which comprises a structure (12) freezing on the drive plate (1) .This structure allows the attachment of the static element of the arena (13). The coupling of electromagnetic braking is achieved by fixing a niagnetic flywheel (16) which receives the magnetic braking disk (16). this flywheel is twisted 20 by screw to the primary rotor (14 This concentric coupling provides a protection-das component against the nuclear irradiation at a value of 50 rad / hour. Telemanipulator according to the pre-existing claims characterized by the arm of Autrèmite (8) which comprises a first set motorized torque (1) ensuring the rotation of C to 360 and a second torque motor (4) which awsure the rotation of the end plate 0 to 360 (2) allowing the work of all tubular plates whatever the rectangular drilling, crunched , trianqulaire the design of this endplate with high definition (5) réamlution parmet the ancastrabilité of a shape analysis element (6) and a sensing element (7) absolute positioning in space and in the reference axis of the target point in WW