DE1614684A1 - Supporting device or flow medium-permeable support plate for the reactor block of a nuclear reactor - Google Patents

Description

Patent attorney » * 1 C 1 / C D /

WpL.inß.a.Bcwttu. . T 614684

Dipl.-Ing. Lamprecht

310-13.09 »(13.0931) ie.1l.1f ·?

Stfe DES FORGES ET ATEIIERS DU CREUSOT, Paris (France)

Support device or fluid-permeable support plate for the reactor block of a nuclear reactor

The invention "relates to a heat exchanger between and Reactor block of a nuclear reactor arranged support device in the form of a support plate permeable to the cooling medium for the reactor block.

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The support device according to the invention is arranged above the base of a nuclear reactor so that it can rest on it

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support the reactor lockup with its vertical channels can. The support device also contains the biological shield, which indicates the activation of the heat exchanger by the hot tea that has flowed through the channels of the reactor block limited.

He erX ^ ndungsgeroäfle support device or support plate characterized in that it consists of a cell structure from stirring lemantem, which leads to the passages of the reactor

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blocks, which they οtut8en, are arranged coaxially and which are attached to their ends are connected to one another by means of two horizontally arranged, flat panels, which in turn are connected to their Ends tightly bound together over a circumferential jacket stand that the support device also contains at least two layers of old graph! t-BinsatskÖrpern or - "bricks", the are arranged in the tubular elements, where £ ie in the canals free the buttocks, which are covered by a layer sur «veins are angularly offset from one another and that each the tubular, su the active tubes of the reactor look coaxial elements in its lower part with a detector for hull breakage and in its upper part with a control element for the outflow of the oasis and provided with a buffer for falling Brena elements

Xm following ml dl · Invention Anfeaad eimlger Aasffiazaag ·· beisplele besohriebon; it s own

flg. 1 a Sohaltt by dl · Stut «device;

Flg. 2 a section along the line II-II of the flg. 1, la the dlell-shaped hexagonal structure of the Stttt - Provision is shown in the larger box; ^

flg. 3 a · part of the attits devicej

Yig. 4 a Soanitt lngs Ülai «IT-IT of the flg. 9» whereby la rergreeertem KaBatab 41 · Assembly details the sell structure recognizable alad;

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5 shows a top view with a partial section along the line VV of Hg. 4;

Fig. 6- in, section, a joint structure of a he>: agonal 2e "jlüteulct! Sr _t which runs coaxially to an active channel of the reel ^ torblocks;

Fig. 7 a sulsclien two! Layers of 6-raphite seals aageortiaete iVklenkvor direction «, all detail from Fig. 6?

:? ig. 8 and S sections along the lines VIII-VIII and IX-IS of the Ifig «7?

.Fig.10 a lower Ableakvorriehtung as a cutout Ed. 6;

FIG. 11 shows a section along the line XI-XI of Pig. 10?

. PXG ₀ IS urö 13 ätolicb two cuts as that of Fig 8 _t '"i tfi ^ Ausführacgsfor ien Oer ^{t (s} reflect rraphit2iegel in ^{Quei-section.!;}

ϊ'Λ ^ .Η a cut durefc. one sell structure that runs coaxially to the © iP3L-j Kaaal & m edge of the heater block

Pigr "^ 5-" awfei connected to one another, cylindrical koaiiiel au alsi active ι anal or to one Express; buckets of control rods of the reactor block run j

Trig * 16 an Ijclmitt along the line XVl = XVI of the Pig. 15;

Fig. 17 oie. Deflector of a su of an active channel "coaxial cell according to Pig.15;

fig.18 a view of a deflector according to Pig. 17; and

■? Ig »19 a graphite solid or " brick "of a? cylindrical cell.

BATH ORIGINAL 00982 7/0486

BIe support device A shown in section in FIG is arranged between the reactor block B and the heat exchanger C *

The support device consists essentially of a Tielsahl of kexagonal, interconnected tubes 1 (Fig. 2), each of which runs coaxially to a column of the reactor block "Simtlieke tubes 1 arranged between two flat disks or panels Z , which in turn Kittels a""Ie" the subsequent comprehensive maatels 5 are connected to reinforcements 4 ·

The tubes 1 bind welded together at their ends, After the senders of the graphite bricks have been placed in the tubes as described below, they will become one Bottom piece 1a (Fig.4) welded, in which a circular opening 11? is planned (J? ig, 5). The discs 2 consist of Bands 2a with parallel edges, the width of which is several corresponds to parallel rows of stirrers 1 (Pig. 3). These tapes side circular openings 2b, the diameter of which is larger int than the opening 1b, so that the bands 2a on the floor etifeken 1a is attached by means of annular weld seams 2c can. So it is possible to have several or rows of stirring 1 in the workshop fju assemble groups, their dimensions allow the transport.

SAD OSiQJNA

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161468t

Between the bands 2a there is a distance mii; the width 1 is provided (3? igo4) _s so that the adjacent tubes of two agitator groups (© .oberer rope of fig, 5) are connected in place by means of the weld 1c, then a tongue 2d with the same opening 2b is inserted into the space £ inserted and on the one hand along the seam 2e "welded to the bend to the respective ears 1 and on the other hand along the weld seam 2f to the sides of the bands 2a (see, lower part of FIG. 5)"

Ia Pig, 6 is the structure of a coaxial su an active Cell-shaped elements arranged in the column of the reactor shell the support device shown.

The guide piece 5 centered in it is arranged above the upper disk 2. A column of the reactor block is supported on it. This Pühruagontück 5 has a Jfitfeel "opening 6 in which a nozzle 7 is centered" which contains a shock absorber (not shown) buffer. This buffer takes effect if a fuel assembly breaks. The nozzle 7 has openings 7a by means of which the amount of hot (Janes exuding) can be determined. Inside the tube 1 there are "" two "layers" 8a and 8b with bricks for the biological shield "below the lower panel or disk 2 is finally provided with a test tube 9 ₉ which is connected in a known manner for the detection of shell fractures

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The layers with the bricks 8a and 8b can each consist of three bricks with the same, hexagonalera cross-section (Fig. 8), whereby the two "layers ¹¹ are rotated against each other by 60 ° and three channels 11 with a tubular cross-section for the gas flowing past arise «

Above the sealing layer 8a are three deflection plates for the entry of the grass into each of the adjacent channels 11 provided (Fig. 6). Between the two brick layers 8 ″ and 8 b there is a deflector 12, the channels 11 of the upper layer connects to the channels 11 of the lower layer.

For this purpose, the deflector consists of six identical Metalleleiaeaten with hexagonal em cross section. In Flg. ? it is shown how three of these elements 12a form a support for the bricks 8a in the plane a. You three elements 12b of the deflection device 12 are supported on the bricks 8b in the plane b, the upper elements 12a from the lower Elements 12b are trimmed in the plane c.

Each of the six elements forms an inclined plane 12c. The angular displacement of the elements 12b with respect to the elements 12a inside the tube 1 results in three inclined channels with the dimensions d (see Fig. 7) and e (see Fig. 9), whereby openings are created that essentially correspond to the vertical I. · Nil s are equal.
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The UQter © Seäicht 8b rests on the metal support 13 (Fig. 10) _p which is supported on post 14. In the support 13 eicd openings a 13 ^ provided for the gas. These openings are shown in dashed lines in Pig. 11.

At the lower end of the tube 1 is a deflector 15 (Fig. 10 and 11.), which consists of three parts. That distractor directs the G & a to: «? Central opening 1b. This hat opening has hexagonal cross-section? it is generally the control unit 1a of the tube 1 appropriate. The deflector 15 is welded to the tube 1.

In Fig. 14 one of the saddle-shaped elements of the supporting device is shown shown, which is coaxial to a Saul-? of the reactor block extends.

Above the upper supporting plate 2 a Abschlußsti'ck 16 is angeordi? I3T _t centered in the disc 2 and a column of the reactor block supported on it.

Layers of bricks 17a, _9, 17c and 17d, which are separated from one another by metal spacers 18, are arranged inside the tubular element 1. The layer on the lower bricks 17d is supported on the metallic separating piece 19, which in turn is supported by posts 20. The bricks can have the same hexagonal cross-section as the bricks of the layers 8a, 8b of the cells which are coaxial with the active pillars of the reactor block. . ,,

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Instead of "bricks" or insert bodies with regular * hexagonaiera cross-section can also be used brick old different «) cross-section. The bricks are calibrated in the buses Insert angles formed by the hexagonal tubes 1; For example, there are cylindrical bricks (Flg.12) or bricks with an irregular, hexagonal cross-section (Fig. 13), each of which creates channels 11 with a suitable cross section in the cells coaxial with the active columns.

In dea pig. 15 to 19 a support device is shown, the cell structure of which is formed by means of cylindrical stirring.

Fig. 15 shows two cells of cylindrical tubes 21, each to an active column and to a column old one Control rod of the reactor block run coaxially. The tubes are by means of a double roller bead or socket fixed in each of the panels or discs 2 of the support device.

In each of the tubes 21 are three layers of bricks 22 arranged, each of the bricks formed billet-shaped and provided with three helical circumferential channels is, the cross-section of which in an enlarged scale from Fig. 19 apparent 1st. Between two stacked bricks is a metallic plate 23 with openings 23a of the same cross-section as the cross-section of the helical channels 22a intended. The lower bricks are supported by metallic ones

BATH ORIGINAL

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Plates 24 rait openings 24a, which in turn are based on documents stored siad.

The helical channels 22a "form along the level of the Bricks half a turn, and two bricks arranged one above the other are offset from one another by an angle of 60 °, so that the channels run through steadily, so to speak. These angular positions ßind secured by dowel pins 28 with bearing plates 23 and 24 are rigidly connected.

Every cell that eu a? active column of the reactor block runs coaxially, contains ains above the top tile Deflection device 26 for the in the helical channels 22 » incoming gas. This deflector consists of one cylindrical central element 26a on which three profiles 26b, each in the form of a Daehs, are attached. Secure the dowel pins 28 the correct angular position of the deflector.

In each of the cells, which are coaxial with the columns su Kontrolletäben, and the buffer are provided for the rods of cylinders ^27%, the bricks of the upper layer 22 provided with a metal plate 23; the spaces between the stirring 21 are filled with a granulate consisting of graphite.

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Claims (1)

- 10 - * · Patent claims 1 «Between the heat exchanger and the reactor block of a Scnreaktors arranged support device for the reactor block, characterized in that the support device (A) consists of a cell structure consists of tubular elements (1) placed coaxially with the passages of the reactor block which they support and which are connected to one another at their ends by means of two horizontally arranged, flat panels or discs (2) o which in turn are connected to one another at their ends by means of a circumferential jacket (3), so that the supporting device furthermore contains at least two layers (8) of graphite bricks, which are arranged in the tubular elements are, whereby they leave channels (11) free for the gas flowing past, which are angularly against each other from one layer to the other are offset or inclined and that each of the tubular elements coaxial with the active channels of the reactor block in its lower part is connected to a hull rupture detector and its upper part is connected to a regulating element for the flow of gas and a buffer for the fuel element is provided. 2. Support device according to claim 1, characterized in that » that the tubular elements of the cell structure consist of tubes nlt consist of regular, hexagonal cross-section, the tubes are connected to one another at their flat outer surfaces that in BfMJ 009827/0486 16H684 each tubular E-softest each layer of the tile from three seals same cross-sections is that three vertically © Ee.Häle for Gee arise passage and that between SWEi Übereisender aageor & üeten layers, a / ^ steering apparatus (12) of _r is the compound of channels »Wipe the two bearings securely« 5. Support device after. Claim 1, characterized in that the tubular elements of the cell structure consist of cylindrical tubes, that the spaces (29) between these tubes are filled with a granulate of graphite, and that in each tubular element each layer of bricks is made from lump-shaped bricks (21). exists, which form echraub-shaped channels (22a) for the coolant _v, in particular gas. 4. StütätfOrrichttmg according to claim 1, characterized in that the both ebeoer, certificate for securing the tubes 'shaped elements sus a plurality of bands (2a) consist Te ^ _1' each having a plurality of parallel rows of tubular elements connects isiteinander. BATH ORIGINAL 009827/0 ^ 86