EP1419675B1 - Cold crucible with induction heating and heat pipe cooling - Google Patents

Cold crucible with induction heating and heat pipe cooling Download PDF

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Publication number
EP1419675B1
EP1419675B1 EP02796300A EP02796300A EP1419675B1 EP 1419675 B1 EP1419675 B1 EP 1419675B1 EP 02796300 A EP02796300 A EP 02796300A EP 02796300 A EP02796300 A EP 02796300A EP 1419675 B1 EP1419675 B1 EP 1419675B1
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EP
European Patent Office
Prior art keywords
crucible
cold crucible
heat pipes
cold
segments
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EP02796300A
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German (de)
French (fr)
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EP1419675A1 (en
Inventor
Claude Jegou
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Commissariat a lEnergie Atomique et aux Energies Alternatives CEA
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Commissariat a lEnergie Atomique CEA
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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/22Furnaces without an endless core
    • H05B6/24Crucible furnaces
    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05BELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
    • H05B6/00Heating by electric, magnetic or electromagnetic fields
    • H05B6/02Induction heating
    • H05B6/36Coil arrangements
    • H05B6/42Cooling of coils

Definitions

  • the invention lies in the field of fusion certain materials with high melting temperature, such as glass, refractory oxides, oxides metal and some metals, by means of a electromagnetic induction heating. She in particular, the cold crucibles to cooled sectors and direct spinning crucibles.
  • FIGS. 1, 2 and 3 Two examples of crucibles used are represented by FIGS. 1, 2 and 3.
  • Figure 1 represents a first type of sectorized crucible, used for these purposes. It is consisting mainly of sectors 1, a bottom 2, of an inductor 3 with several turns and a circuit of cooling 4. Sectors 1 are placed vertically, against each other, for to constitute the enclosure of the crucible.
  • the complete background 2 this enclosure. It is specified that this background 2 can be retractable or have one or more holes for the evacuation of the materials poured into the crucible.
  • the sectors 1 are kept against each other, thanks to a fixation by means of a wrapping 5.
  • the cooling circuit 4 is constituted by a arrival 4E and a departure 4S of liquid from cooling, which is, in most cases, the water.
  • the crucible thus formed is of a shape usually cylindrical, without it being imperative.
  • High intensity alternating current is of the order of a few thousand amps, at a frequency between a few tens of hertz and several megahertz.
  • the tension can reach several thousand volts.
  • the bottom of crucible 2 can to be cooled or not.
  • FIG. 2 shows in section a sector 1, as well as the circulation of water in a pipe 6 and 4E arrival and 4S exit. We aknowledge water circulates along the entire height of sector 1.
  • Figure 3 shows another kind of inductor 6, said to direct turn, consisting of a single and cylindrical spire constituting the enclosure directly containing the product to be heated.
  • the circuit 7 is here constituted by a spiral surrounding the inductor 6. To close the crucible and to avoid the drawbacks of electrical voltages between the two terminals 6A and 6B of the inductor 6, a cold finger 8 is placed between them.
  • the sectors are each made up of one heat pipe with electrically insulated walls constituting the crucible as well as their own ways of cooling.
  • each heat pipe preferably has an upper part exceeding the enclosure of the crucible constituted by the low parts from each sector, and deported to the outside. This allows the evacuation of heat by a circulation forced fluid against the upper part of the heat pipes, while allowing access from the top of the crucible.
  • the heat pipes of each sector can be extend under the enclosure to form the bottom.
  • the bottom can also be consisting of other heat pipes different from those constituting the enclosure of the crucible.
  • the inductor is a single turn and direct formed of a ferrule cooled by heatpipes.
  • cold fingers may consist of one (or more) heat pipe (s).
  • the ferrule of the direct coil can be constituted by the continuous assembly of heat pipes not electrically isolated.
  • the thick ferrule constituting the direct spire, can be machined for the realization in located heat pipes.
  • FIG. materials are always melted into a part similar to that of the crucible described in FIG. formed here of sectors 11 of which part 11B is similar to the plurality of sectors 1 of the crucible of Figure 1.
  • Each sector 11 consists of a heat pipe, preferably of cylindrical section, without this form is imperative. She might be cuboid.
  • the wall of the heat pipe must be copper or stainless steel, or any other product or metal likely to be suitable for the application considered.
  • the coolant contained in the heat pipe constituting a sector 11 may be water or any other suitable fluid, such as sodium, germanium, the money.
  • the upper part 11H of each sector 11, where the evacuation of the heat captured in the crucible, is surrounded by a device for forced circulation of a fluid, symbolized via a 14E entrance and a 14S exit, which runs alongside 11H high parts of sectors 11.
  • each sector is electrically rendered insulating in its lower part 11B where the sectors 11 adjacent ones are in contact with each other by a suitable coating.
  • a suitable coating For example, one thinks of a Plasma or process-sprayed alumina coating PVD.
  • the crucible as shown in Figure 4, has a bottom 12 which is, in this case, cooled by extension 11F of sectors 11, below their lower parts 11B.
  • bottom 2 might not be cooled and be open in the middle to allow the passage of long pieces or to evacuate the resolidified product.
  • Figure 7 shows, in bottom view, the same crucible of Figure 4, the bottom 12 being removed.
  • the low ends 11B of sectors 11 that extend from the periphery towards the center of the crucible.
  • these different low ends 11B of sectors 11 have lengths different, so as to entangle the others like a wooden floor with sticks and to carry out the complete recovery of the bottom.
  • the high parts 11H sectors 11 with inputs 14E and outputs 14S from coolant circulation.
  • Figure 8 shows another configuration of the lower ends 21B of the sectors 21 for constitute the cooling of the bottom of the crucible.
  • each low end 21B is moving towards the center of the crucible, these different lower ends 21B having different lengths to be able, not to entangle, but to cover, roughly speaking, the bottom of the crucible.
  • the bottom 22 can also be cooled by heat pipes 24, independent of sectors 21 by penetrating the bottom 22.
  • This arrangement is intended, inter alia, where additional inductor 29 is placed under the bottom 22 to provide additional heating of the crucible.
  • the independent heat pipes 24 have a high part 24H similar to the upper part 14H of the sectors represented on the crucible of Figure 4, that is to say, deviating from the center of the crucible, beyond the inductor 23.
  • FIG. 10A and 10B show the heat pipes which can be used under the substance of the crucible.
  • the independent heat pipes 21A of FIG. 10A extend on either side of a plane of symmetry of the crucible which has been shown cylindrical.
  • the heat pipes 21B each extend over the entire bottom surface and extend only one side of the crucible.
  • Figure 11 shows that the lower part crucible can be constituted by heat pipes 32 independent, positioned slightly inclined so as to cover the bottom of the crucible. They complete the sectors 31 placed between the inductor 33 and the crucible itself, the heat being evacuated through the cooling circuit the entrance has been referenced 34E and the exit 34S. This realization is particularly suitable for crucibles cold, sectorized parallelepipedic shape.
  • Figure 12 shows that heat pipes 32 of Figure 10 can be replaced by inclined independent heat pipes 42, the circuit cooling being adapted to this geometry, the 44E inputs and 44S outputs no longer found horizontal.
  • Figure 13 shows another variant of the crucible according to the invention. Indeed, she shows the superposition of several crucibles to form only one of a significant height, so a increased capacity. In view of the separated form of high parts 51H, sectors 51, the nesting of different crucibles one above the other is possible. It is noted that the lower crucible is equipped independent heat pipes 52, similar to heat pipes 32 of Figure 11. The different successive inductors 53 are equivalent to one much longer inductor that would be constituted in only one part.
  • the fixation of these different crucibles on each other can be performed by means of brazed pimples 57 on each lower end of a central part of the sector 51 and engaging in a fastener 56 attached to the lower end of the lower part 51B of sector 51 of the crucible which is just higher.
  • this crucible applies also to a crucible using an inductor constituted of a single turn, like that of Figure 3.
  • Figure 15 shows the realization of a direct spin crucible whose ferrule 58 is cooled using the heat pipes 59 attached to it, one or several heat pipe (s) 60 constituting the cold finger.
  • a variant embodiment consists in using a ferrule thick in the realization of the direct turn, a adequate machining for the in situ production of heat pipes or simply their insertion.

Description

Domaine de l'inventionField of the invention

L'invention ressortit du domaine de la fusion de certains matériaux à haute température de fusion, tels que le verre, les oxydes réfractaires, les oxydes métalliques ainsi que certains métaux, au moyen d'un chauffage par induction électromagnétique. Elle concerne, en particulier, les creusets froids à secteurs refroidis et les creusets à spire directe.The invention lies in the field of fusion certain materials with high melting temperature, such as glass, refractory oxides, oxides metal and some metals, by means of a electromagnetic induction heating. She in particular, the cold crucibles to cooled sectors and direct spinning crucibles.

Art antérieur et problème poséPrior art and problem

Parmi les procédés de fonte et de coulage des produits comme le verre, les oxydes réfractaires, les métaux ou même pour faire léviter ces produits, il est courant d'utiliser des creusets froids refroidis à l'eau, le chauffage s'effectuant par induction électromagnétique appliquée au matériau contenu dans le creuset. Deux exemples de creuset utilisés sont représentés par les figures 1, 2 et 3.Among the processes for casting and pouring products such as glass, refractory oxides, metals or even to levitate these products it is current to use cold crucibles cooled to water, heating by induction electromagnetic applied to the material contained in the crucible. Two examples of crucibles used are represented by FIGS. 1, 2 and 3.

La figure 1 représente un premier type de creuset sectorisé, utilisé à ces mêmes fins. Il est constitué principalement de secteurs 1, d'un fond 2, d'un inducteur 3 à plusieurs spires et d'un circuit de refroidissement 4. Les secteurs 1 sont placés verticalement, les uns contre les autres, pour constituer l'enceinte du creuset. Le fond 2 complète cette enceinte. On précise que ce fond 2 peut être escamotable ou comporter un ou plusieurs orifices pour l'évacuation des matériaux coulés dans le creuset. Les secteurs 1 sont maintenus les uns contre les autres, grâce à une fixation au moyen d'un banderolage 5. Le circuit de refroidissement 4 est constitué par une arrivée 4E et un départ 4S de liquide de refroidissement, qui est, dans la plupart des cas de l'eau.Figure 1 represents a first type of sectorized crucible, used for these purposes. It is consisting mainly of sectors 1, a bottom 2, of an inductor 3 with several turns and a circuit of cooling 4. Sectors 1 are placed vertically, against each other, for to constitute the enclosure of the crucible. The complete background 2 this enclosure. It is specified that this background 2 can be retractable or have one or more holes for the evacuation of the materials poured into the crucible. The sectors 1 are kept against each other, thanks to a fixation by means of a wrapping 5. The cooling circuit 4 is constituted by a arrival 4E and a departure 4S of liquid from cooling, which is, in most cases, the water.

Le creuset ainsi constitué est de forme usuellement cylindrique, sans que celle-ci soit impérative. Le courant alternatif de forte intensité est de l'ordre de quelques milliers d'ampères, à une fréquence comprise entre quelques dizaines de hertz et plusieurs mégahertz. La tension peut atteindre plusieurs milliers de volts. Le fond du creuset 2 peut être ou non refroidi.The crucible thus formed is of a shape usually cylindrical, without it being imperative. High intensity alternating current is of the order of a few thousand amps, at a frequency between a few tens of hertz and several megahertz. The tension can reach several thousand volts. The bottom of crucible 2 can to be cooled or not.

La figure 2 montre en coupe un secteur 1, ainsi que la circulation de l'eau dans une canalisation 6 et par une arrivée 4E et une sortie 4S. On constate que l'eau circule sur toute la hauteur du secteur 1.FIG. 2 shows in section a sector 1, as well as the circulation of water in a pipe 6 and 4E arrival and 4S exit. We aknowledge water circulates along the entire height of sector 1.

La figure 3 montre une autre sorte d'inducteur 6, dit à spire directe, constitué d'une spire unique et cylindrique constituant l'enceinte contenant directement le produit à chauffer. Le circuit de refroidissement 7 est constitué ici par une spirale entourant l'inducteur 6. Pour fermer le creuset et pour éviter les inconvénients liés aux tensions électriques régnant entre les deux bornes 6A et 6B de l'inducteur 6, un doigt froid 8 est placé entre celles-ci. Figure 3 shows another kind of inductor 6, said to direct turn, consisting of a single and cylindrical spire constituting the enclosure directly containing the product to be heated. The circuit 7 is here constituted by a spiral surrounding the inductor 6. To close the crucible and to avoid the drawbacks of electrical voltages between the two terminals 6A and 6B of the inductor 6, a cold finger 8 is placed between them.

Les principaux inconvénients inhérents à ces deux types de creusets froids sont les suivants :

  • l'utilisation d'un circuit de refroidissement dans lequel circule en grande quantité un fluide présente des risques d'explosion de vapeur en cas de fuite d'un secteur, chacun de ceux-ci étant alimenté de façon continue et à fort débit ;
  • le circuit de refroidissement 4, 7, est relativement complexe.
The main disadvantages inherent to these two types of cold crucibles are the following:
  • the use of a cooling circuit in which a large quantity of fluid circulates presents risks of steam explosion in the event of leakage from a sector, each of which is fed continuously and at a high flow rate;
  • the cooling circuit 4, 7 is relatively complex.

Enfin, on éprouve de grandes difficultés pour la maintenance en cas d'avarie d'un des éléments de cette installation.Finally, there are great difficulties in maintenance in the event of damage to one of the elements of this installation.

Résumé de l'inventionSummary of the invention

A cet effet, l'objet principal de l'invention est un creuset froid à chauffage par induction électromagnétique, destiné à la fusion du verre, d'oxydes réfractaire et de métaux. Il comprend principalement :

  • un fond ;
  • au moins un inducteur entourant l'enceinte ;
  • des secteurs juxtaposés ; et
  • des moyens de refroidissement.
For this purpose, the main object of the invention is a cold crucible with electromagnetic induction heating, intended for the melting of glass, refractory oxides and metals. It mainly includes:
  • a fund ;
  • at least one inductor surrounding the enclosure;
  • juxtaposed sectors; and
  • cooling means.

Selon la caractéristique principale de l'invention, les secteurs sont constitués chacun d'un caloduc à parois isolées électriquement constituant le creuset ainsi que leurs propres moyens de refroidissement. According to the main characteristic of the invention, the sectors are each made up of one heat pipe with electrically insulated walls constituting the crucible as well as their own ways of cooling.

La technologie « caloduc », connue de l'homme du métier, est exposée notamment dans les « Techniques de l'Ingénieur », Article B9545, vol. BE6.Heat pipe technology, known to man of the trade, is exposed in particular in the "Techniques of the Engineer ", Article B9545, vol. BE6.

Dans une réalisation préférentielle, chaque caloduc a, de préférence, une partie haute dépassant l'enceinte du creuset constituée par les parties basses de chaque secteur, et déportée vers l'extérieur. Ceci permet l'évacuation de la chaleur par une circulation forcée de fluide contre la partie haute des caloducs, tout en permettant l'accès par la partie supérieure du creuset.In a preferred embodiment, each heat pipe preferably has an upper part exceeding the enclosure of the crucible constituted by the low parts from each sector, and deported to the outside. This allows the evacuation of heat by a circulation forced fluid against the upper part of the heat pipes, while allowing access from the top of the crucible.

Les caloducs de chaque secteur peuvent se prolonger sous l'enceinte pour constituer le fond. Dans une autre réalisation, le fond peut également être constitué d'autres caloducs différents de ceux constituant l'enceinte du creuset.The heat pipes of each sector can be extend under the enclosure to form the bottom. In another achievement, the bottom can also be consisting of other heat pipes different from those constituting the enclosure of the crucible.

Dans le but de fixer les parties hautes des caloducs constituant chaque secteur, on peut utiliser une virole de fixation électriquement isolante entourant l'ensemble des parties hautes.In order to fix the upper parts of heat pipes constituting each sector, it is possible to use an electrically insulating fixing ferrule surrounding all the upper parts.

Dans le but de bien solidariser les caloducs, notamment dans leur partie basse, ceux-ci sont entourés d'un banderolage.With the aim of solidariser the heat pipes, especially in their lower part, these are surrounded a wrapping.

Ils peuvent également être fixés entre eux au moyen de colliers autobloquants.They can also be attached to each other at by means of self-locking collars.

Selon l'invention, on prévoit également d'utiliser un inducteur supplémentaire placé sous le fond du creuset.According to the invention, provision is also made to use an additional inductor placed under the bottom of the crucible.

Enfin, on envisage également d'utiliser plusieurs étages de caloducs superposés, constituant ainsi une enceinte longue et haute, l'inducteur pouvant être constitué par la superposition des inducteurs respectifs de chaque étage.Finally, it is also envisaged to use several layers of supercooled heat pipes constituting thus a long and high enclosure, the inductor being able be constituted by the superposition of inductors respective of each floor.

Dans une deuxième réalisation préférentielle de l'invention, l'inducteur est une spire unique et directe constituée d'une virole refroidie par des caloducs.In a second preferred embodiment of the invention, the inductor is a single turn and direct formed of a ferrule cooled by heatpipes.

Dans ces deux réalisations, le doigts froid (ou les doigts) peut être constitué d'un (ou plusieurs) caloduc(s).In these two achievements, cold fingers (or fingers) may consist of one (or more) heat pipe (s).

De même, la virole de la spire directe peut être constituée par l'assemblage continu de caloducs non électriquement isolés.Similarly, the ferrule of the direct coil can be constituted by the continuous assembly of heat pipes not electrically isolated.

Enfin, la virole épaisse, constitutive de la spire directe, peut être usinée pour la réalisation in situ des caloducs.Finally, the thick ferrule, constituting the direct spire, can be machined for the realization in located heat pipes.

Liste des figuresList of Figures

L'invention et ses différentes caractéristiques techniques seront mieux comprises à la lecture de la description suivante de plusieurs réalisations de l'invention ; elle est accompagnée de plusieurs figures représentant respectivement :

  • figure 1, déjà décrite, un creuset froid selon l'art antérieur ;
  • figure 2, déjà décrite, en coupe, un secteur du creuset froid décrit à la figure 1 ;
  • figure 3, déjà décrite, une deuxième réalisation de l'inducteur d'un creuset selon l'art antérieur ;
  • figure 4, un premier creuset selon l'invention ;
  • figure 5, un collier autobloquant pouvant être utilisé sur le creuset selon l'invention ;
  • figure 6, un détail du collier autobloquant de la figure 5 ;
  • figure 7, une vue du dessous du creuset décrit à la figure 4 ;
  • figure 8, en vue de dessous, une autre réalisation du fond du creuset ;
  • figure 9, en vue frontale, une deuxième réalisation d'un creuset selon l'invention ;
  • figure 10A et 10B, d'autres réalisations possibles du fond du creuset de la figure 9 ;
  • figure 11, une troisième réalisation du creuset selon l'invention ;
  • figure 12, un détail d'une variante de la troisième réalisation décrite à la figure 11 ;
  • figure 13, une autre réalisation possible du creuset selon l'invention ;
  • figure 14, un exemple de fixation des creusets les uns sur les autres ; et
  • figure 15, une réalisation du creuset à spire directe refroidie par caloducs et à doigt froid constitué d'un ou plusieurs caloducs.
The invention and its various technical features will be better understood on reading the following description of several embodiments of the invention; it is accompanied by several figures representing respectively:
  • Figure 1, already described, a cold crucible according to the prior art;
  • Figure 2, already described in section, a sector of the cold crucible described in Figure 1;
  • FIG. 3, already described, a second embodiment of the inductor of a crucible according to the prior art;
  • FIG. 4, a first crucible according to the invention;
  • Figure 5, a self-locking collar that can be used on the crucible according to the invention;
  • Figure 6, a detail of the self-locking collar of Figure 5;
  • Figure 7, a bottom view of the crucible described in Figure 4;
  • Figure 8, in view from below, another embodiment of the bottom of the crucible;
  • Figure 9, in front view, a second embodiment of a crucible according to the invention;
  • FIGS. 10A and 10B, other possible embodiments of the bottom of the crucible of FIG. 9;
  • FIG. 11, a third embodiment of the crucible according to the invention;
  • Figure 12, a detail of a variant of the third embodiment described in Figure 11;
  • Figure 13, another possible embodiment of the crucible according to the invention;
  • Figure 14, an example of fixing the crucibles on each other; and
  • FIG. 15, an embodiment of the cold-pipe cooled direct-coil crucible consisting of one or more heat pipes.

Description détaillée de plusieurs réalisations de l'inventionDetailed description of several achievements of the invention

Une première réalisation possible du creuset selon l'invention est représentée à la figure 4. Les matériaux y sont toujours fondus dans une partie analogue à celle du creuset décrit à la figure 1 et formée ici de secteurs 11 dont la partie 11B s'apparente à la pluralité de secteurs 1 du creuset de la figure 1.A first possible realization of the crucible according to the invention is shown in FIG. materials are always melted into a part similar to that of the crucible described in FIG. formed here of sectors 11 of which part 11B is similar to the plurality of sectors 1 of the crucible of Figure 1.

La différence majeure réside dans le fait que ces secteurs 11 ont une partie haute 11H, prolongeant par le haut les parties basses 11B et s'écartant par rapport au centre du creuset. De la sorte, leur partie haute 11H ne gêne pas la mise en place des éléments complémentaires à l'installation, tels que les systèmes de remplissage, d'isolation thermique et l'inducteur principal 3. En effet, celui-ci est analogue à celui utilisé sur le creuset de l'art antérieur, représenté à la figure 1.The major difference is that these sectors 11 have a high portion 11H, extending from above the lower parts 11B and deviating by report in the center of the crucible. In this way, their part high 11H does not interfere with the placement of elements complementary to the installation, such as filling, thermal insulation and inductor 3. In fact, it is analogous to that used on the crucible of the prior art, represented in FIG. Figure 1.

Chaque secteur 11 est constitué d'un caloduc, de préférence de section cylindrique, sans que cette forme soit impérative. Elle pourrait être parallélépipédique. La paroi du caloduc doit être en cuivre ou en acier inoxydable, ou tout autre produit ou métal susceptible de convenir à l'application envisagée. Le fluide caloporteur contenu dans le caloduc constituant un secteur 11 peut être de l'eau ou tout autre fluide adéquat, tel que le sodium, le germanium, l'argent. La partie haute 11H de chaque secteur 11, par où s'effectue l'évacuation de la chaleur captée dans le creuset, est entourée d'un dispositif de circulation forcée d'un fluide, symbolisé par une entrée 14E et une sortie 14S, qui côtoie les parties hautes 11H des secteurs 11. On profite d'ailleurs, sans que cela soit une unique solution, que le dispositif de circulation forcée soit présent autour des parties hautes 11H pour assurer la fixation de celles-ci au moyen d'une virole 16 perforée, isolante électriquement et fabriquée en matériau composite. La paroi de chaque secteur est rendue électriquement isolante dans sa partie basse 11B où les secteurs 11 adjacents sont en contact les uns avec les autres par un revêtement adapté. On pense, par exemple, à un revêtement d'alumine projeté par plasma ou par procédé PVD. Concernant la fixation des secteurs 11 dans la partie basse 11B, on utilise, dans cette réalisation, un même banderolage que celui utilisé dans le creuset, précédemment décrit à la figure 1. En référence à la figure 5, ce banderolage peut être remplacé par un collier autobloquant 15, réalisé en matériau composite, isolant électriquement. La fermeture d'un tel collier autobloquant 15 est illustrée par la figure 6 où les deux extrémités 15A et 15B s'encliquètent l'une dans l'autre, au moyen de crochets 15C.Each sector 11 consists of a heat pipe, preferably of cylindrical section, without this form is imperative. She might be cuboid. The wall of the heat pipe must be copper or stainless steel, or any other product or metal likely to be suitable for the application considered. The coolant contained in the heat pipe constituting a sector 11 may be water or any other suitable fluid, such as sodium, germanium, the money. The upper part 11H of each sector 11, where the evacuation of the heat captured in the crucible, is surrounded by a device for forced circulation of a fluid, symbolized via a 14E entrance and a 14S exit, which runs alongside 11H high parts of sectors 11. We take advantage besides, without this being a unique solution, that the forced circulation device is present around 11H high parts to ensure the fixation of these by means of a ferrule 16 perforated, insulating electrically and made of composite material. The wall of each sector is electrically rendered insulating in its lower part 11B where the sectors 11 adjacent ones are in contact with each other by a suitable coating. For example, one thinks of a Plasma or process-sprayed alumina coating PVD. Regarding the fixing of sectors 11 in the lower part 11B, in this embodiment, the same wrapping as the one used in the crucible, previously described in Figure 1. With reference to the FIG. 5, this wrapping can be replaced by a self-locking collar 15, made of composite material, electrically insulating. Closing such a necklace self-locking device 15 is illustrated in FIG. two ends 15A and 15B snap one into the other, by means of hooks 15C.

Le creuset, comme le montre la figure 4, possède un fond 12 qui est, dans ce cas, refroidi par le prolongement 11F des secteurs 11, en dessous de leurs parties basses 11B.The crucible, as shown in Figure 4, has a bottom 12 which is, in this case, cooled by extension 11F of sectors 11, below their lower parts 11B.

On note que le fond 2 pourrait ne pas être refroidi et être ouvert en son milieu pour permettre le passage de pièces de grandes longueurs ou pour évacuer le produit resolidifié.It is noted that bottom 2 might not be cooled and be open in the middle to allow the passage of long pieces or to evacuate the resolidified product.

La figure 7 montre, en vue de dessous, le même creuset de la figure 4, le fond 12 étant enlevé. On y distingue donc les extrémités basses 11B des secteurs 11 qui s'étendent à partir de la périphérie vers le centre du creuset. Dans le but de couvrir toute la surface du fond du creuset, ces différentes extrémités basses 11B des secteurs 11 ont des longueurs différentes, de manière à s'enchevêtrer les unes dans les autres comme un parquet à bâtons rompus et d'effectuer le recouvrement complet du fond. D'autre part, on distingue également les parties hautes 11H des secteurs 11 avec les entrées 14E et sorties 14S de circulation de liquide de refroidissement.Figure 7 shows, in bottom view, the same crucible of Figure 4, the bottom 12 being removed. We thus distinguish the low ends 11B of sectors 11 that extend from the periphery towards the center of the crucible. In order to cover all the surface of the bottom of the crucible, these different low ends 11B of sectors 11 have lengths different, so as to entangle the others like a wooden floor with sticks and to carry out the complete recovery of the bottom. Else on the other hand, the high parts 11H sectors 11 with inputs 14E and outputs 14S from coolant circulation.

La figure 8 montre une autre configuration des extrémités basses 21B des secteurs 21 pour constituer le refroidissement du fond du creuset. Dans celui-ci, on s'aperçoit que chaque extrémité basse 21B s'oriente vers le centre du creuset, ces différentes extrémités basses 21B ayant des longueurs différentes pour pouvoir, non pas s'enchevêtrer, mais recouvrir, grosso modo, le fond du creuset.Figure 8 shows another configuration of the lower ends 21B of the sectors 21 for constitute the cooling of the bottom of the crucible. In this one, we see that each low end 21B is moving towards the center of the crucible, these different lower ends 21B having different lengths to be able, not to entangle, but to cover, roughly speaking, the bottom of the crucible.

Comme le montre la figure 9, le fond 22 peut être également refroidi par des caloducs 24, indépendants des secteurs 21 en pénétrant dans le fond 22. Cet aménagement est prévu, entre autre, lorsqu'un inducteur supplémentaire 29 est placé sous le fond 22 pour assurer un chauffage complémentaire du creuset. Les caloducs indépendants 24 ont une partie haute 24H analogue à la partie haute 14H des secteurs représentés sur le creuset de la figure 4, c'est-à-dire s'écartant du centre du creuset, au-delà de l'inducteur 23.As shown in FIG. 9, the bottom 22 can also be cooled by heat pipes 24, independent of sectors 21 by penetrating the bottom 22. This arrangement is intended, inter alia, where additional inductor 29 is placed under the bottom 22 to provide additional heating of the crucible. The independent heat pipes 24 have a high part 24H similar to the upper part 14H of the sectors represented on the crucible of Figure 4, that is to say, deviating from the center of the crucible, beyond the inductor 23.

Les figures 10A et 10B montrent les caloducs indépendants qui peuvent être utilisés sous le fond du creuset. Les caloducs indépendants 21A de 1a figure 10A s'étendent de part et d'autre d'un plan de symétrie du creuset qui a été représenté cylindrique. Dans le cas de la figure 10B, les caloducs 21B s'étendent chacun sur toute la surface du fond et ne s'étendent que d'un côté du creuset.Figures 10A and 10B show the heat pipes which can be used under the substance of the crucible. The independent heat pipes 21A of FIG. 10A extend on either side of a plane of symmetry of the crucible which has been shown cylindrical. In the case of FIG. 10B, the heat pipes 21B each extend over the entire bottom surface and extend only one side of the crucible.

La figure 11 montre que la partie inférieure du creuset peut être constituée par des caloducs indépendants 32, positionnés de façon un peu inclinée de manière à venir couvrir le fond du creuset. Ils complètent ainsi les secteurs 31 placés entre l'inducteur 33 et le creuset lui-même, la chaleur étant évacuée grâce au circuit de refroidissement dont l'entrée a été référencée 34E et la sortie 34S. Cette réalisation convient particulièrement bien aux creusets froids, sectorisés de forme parallélépipédique.Figure 11 shows that the lower part crucible can be constituted by heat pipes 32 independent, positioned slightly inclined so as to cover the bottom of the crucible. They complete the sectors 31 placed between the inductor 33 and the crucible itself, the heat being evacuated through the cooling circuit the entrance has been referenced 34E and the exit 34S. This realization is particularly suitable for crucibles cold, sectorized parallelepipedic shape.

La figure 12 montre que les caloducs indépendants 32 de la figure 10 peuvent être remplacés par des caloducs indépendants inclinés 42, le circuit de refroidissement étant adapté à cette géométrie, les entrées 44E et sorties 44S ne se trouvant plus horizontales.Figure 12 shows that heat pipes 32 of Figure 10 can be replaced by inclined independent heat pipes 42, the circuit cooling being adapted to this geometry, the 44E inputs and 44S outputs no longer found horizontal.

La figure 13 montre une autre variante du creuset selon l'invention. En effet, elle montre la superposition de plusieurs creusets pour n'en former qu'un seul d'une hauteur importante, donc d'une capacité accrue. Compte tenu de la forme écartée des parties hautes 51H, des secteurs 51, l'emboítement des différents creusets les uns au-dessus des autres est possible. On note que le creuset inférieur est équipé de caloducs indépendants 52, analogues aux caloducs indépendants 32 de la figure 11. Les différents inducteurs successifs 53 sont équivalents à un inducteur beaucoup plus long qui serait constitué en une seule partie.Figure 13 shows another variant of the crucible according to the invention. Indeed, she shows the superposition of several crucibles to form only one of a significant height, so a increased capacity. In view of the separated form of high parts 51H, sectors 51, the nesting of different crucibles one above the other is possible. It is noted that the lower crucible is equipped independent heat pipes 52, similar to heat pipes 32 of Figure 11. The different successive inductors 53 are equivalent to one much longer inductor that would be constituted in only one part.

Comme le montre la figure 14, la fixation de ces différents creusets les uns sur les autres peut être réalisée au moyen de picots brasés 57 sur chaque extrémité inférieure d'une partie centrale de secteur 51 et s'engageant dans une pièce de fixation 56 fixée à l'extrémité inférieure de la partie basse 51B du secteur 51 du creuset qui lui est juste supérieur.As shown in Figure 14, the fixation of these different crucibles on each other can be performed by means of brazed pimples 57 on each lower end of a central part of the sector 51 and engaging in a fastener 56 attached to the lower end of the lower part 51B of sector 51 of the crucible which is just higher.

La conception de ce creuset s'applique également à un creuset utilisant un inducteur constitué d'une spire unique, comme celui de la figure 3.The design of this crucible applies also to a crucible using an inductor constituted of a single turn, like that of Figure 3.

La figure 15 montre la réalisation d'un creuset à spire directe dont la virole 58 est refroidie à l'aide des caloducs 59 qui lui sont fixés, un ou plusieurs caloduc(s) 60 constituant le doigt froid. Une variante de réalisation consiste à utiliser une virole épaisse dans la réalisation de la spire directe, un usinage adéquat permettant la réalisation in situ des caloducs ou simplement leur insertion.Figure 15 shows the realization of a direct spin crucible whose ferrule 58 is cooled using the heat pipes 59 attached to it, one or several heat pipe (s) 60 constituting the cold finger. A variant embodiment consists in using a ferrule thick in the realization of the direct turn, a adequate machining for the in situ production of heat pipes or simply their insertion.

Claims (13)

  1. Cold crucible with electromagnetic induction heating, intended for the fusion of glass, refractory oxides and metals, and principally comprising:
    a base (2, 22);
    at least one inductor (3, 33, 53);
    segments (11, 21, 31, 51) juxtaposed and constituting a crucible chamber; and
    cooling means.
    characterised in that the segments (11, 21, 31, 51) are constituted of heat pipes with electrically insulated walls, themselves constituting the cooling means.
  2. Cold crucible according to claim 1, characterised in that the heat pipes have an upper part (11H, 31H, 51H) extending beyond the crucible chamber, constituted by the lower parts (11B, 31B, 51B,) of each segment and being offset to allow evacuation of heat by forced circulation of fluid against the upper part (11H, 31H, 51H) of the segments.
  3. Cold crucible according to claim 1, characterised in that the sectors (11F) are prolonged under the crucible chamber to constitute the base or to cool the base (12).
  4. Cold crucible according to claim 1, characterised in that the crucible base is constituted of independent heat pipes (24) independent from those (11, 31, 51) constituting the crucible chamber.
  5. Cold crucible according to claim 2, characterised in that it comprises a hoop (16) for fixation of the upper parts (11H) of segments (11, 21), electrically insulating and surrounding these upper parts as a whole (11H).
  6. Cold crucible according to claim 1, characterised in that the segments (11, 21, 51) are held together by strapping (5) in the lower part (11B) of the segments.
  7. Cold crucible according to claim 1, characterised in that the segments are held together by self-locking collars (15).
  8. Cold crucible according to claim 1, characterised in that it comprises a complementary inductor (29) to heat the crucible by being placed under the base (22).
  9. Cold crucible according to claim 2, characterised in that it comprises several stages of superposed segments (51), thus constituting a long and high crucible chamber and with an inductor constituted of the inductors (53) of each of the stages superposed in this way.
  10. Cold crucible according to claim 1, characterised in that the inductor is a single and direct coil constituted of a hoop (58) cooled by heat pipes (59).
  11. Cold crucible according to either one of claims 1 or 10, characterised in that the cold finger (or fingers) are constituted of one (or several) heat pipes(s) (60).
  12. Cold crucible according to either one of claims 1 or 10, characterised in that the hoop (58) of the direct coil is constituted by continuous assembly of non-electrically insulated heat pipes.
  13. Cold crucible according to either one of claims 1 or 10, characterised in that the thick hoop, constituent of the direct coil, is machined for production of heat pipes in situ.
EP02796300A 2001-08-23 2002-08-21 Cold crucible with induction heating and heat pipe cooling Expired - Lifetime EP1419675B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
FR0111044 2001-08-23
FR0111044A FR2828981B1 (en) 2001-08-23 2001-08-23 INDUCTION HEATING CRUCIBLE AND COOLING
PCT/FR2002/002914 WO2003019984A1 (en) 2001-08-23 2002-08-21 Cold crucible with induction heating and heat pipe cooling

Publications (2)

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EP1419675A1 EP1419675A1 (en) 2004-05-19
EP1419675B1 true EP1419675B1 (en) 2005-01-05

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EP (1) EP1419675B1 (en)
JP (1) JP4610893B2 (en)
DE (1) DE60202534T2 (en)
FR (1) FR2828981B1 (en)
WO (1) WO2003019984A1 (en)

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WO2014174489A1 (en) 2013-04-26 2014-10-30 Commissariat A L'energie Atomique Et Aux Energies Alternatives Electromagnetic induction furnace and use of the furnace for melting a mixture of metal(s) and oxide(s), said mixture representing a corium

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US7986742B2 (en) 2002-10-25 2011-07-26 Qualcomm Incorporated Pilots for MIMO communication system
US8169944B2 (en) 2002-10-25 2012-05-01 Qualcomm Incorporated Random access for wireless multiple-access communication systems
US8320301B2 (en) 2002-10-25 2012-11-27 Qualcomm Incorporated MIMO WLAN system
US20040081131A1 (en) 2002-10-25 2004-04-29 Walton Jay Rod OFDM communication system with multiple OFDM symbol sizes
US7002900B2 (en) 2002-10-25 2006-02-21 Qualcomm Incorporated Transmit diversity processing for a multi-antenna communication system
US7324429B2 (en) 2002-10-25 2008-01-29 Qualcomm, Incorporated Multi-mode terminal in a wireless MIMO system
US8134976B2 (en) 2002-10-25 2012-03-13 Qualcomm Incorporated Channel calibration for a time division duplexed communication system
US9473269B2 (en) 2003-12-01 2016-10-18 Qualcomm Incorporated Method and apparatus for providing an efficient control channel structure in a wireless communication system
US7466749B2 (en) 2005-05-12 2008-12-16 Qualcomm Incorporated Rate selection with margin sharing
US8358714B2 (en) 2005-06-16 2013-01-22 Qualcomm Incorporated Coding and modulation for multiple data streams in a communication system
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WO2014174489A1 (en) 2013-04-26 2014-10-30 Commissariat A L'energie Atomique Et Aux Energies Alternatives Electromagnetic induction furnace and use of the furnace for melting a mixture of metal(s) and oxide(s), said mixture representing a corium

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WO2003019984A1 (en) 2003-03-06
DE60202534D1 (en) 2005-02-10
FR2828981B1 (en) 2004-05-21
FR2828981A1 (en) 2003-02-28
DE60202534T2 (en) 2005-12-29
JP2005502018A (en) 2005-01-20
EP1419675A1 (en) 2004-05-19
JP4610893B2 (en) 2011-01-12

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