CN205156654U - Stirring and feeding mechanism - Google Patents

Abstract

The utility model provides a stirring and feeding mechanism, the rabbling mechanism passes the bell from furnace chamber the inside and stretches to the outside, support the mounting panel above the bell outside on, the connection is in with the second pneumatic cylinder with transmission system in the furnace chamber outside be used for respectively between mounting panel and the rabbling mechanism providing rotatory and flexible power to the rabbling mechanism, feeding mechanism includes air compressor, charging stock tank, conveying pipe and supporting seat, the supporting seat is located the below of charging stock tank for support fixed charging stock tank, the both ends of charging stock tank respectively through the connector with air compressor with the conveying pipe links to each other, the end of conveying pipe communicates the central through hole of the graphite bell jar that is used for metal liquid agitator. Through the utility model discloses reasonable ingenious structural design can guarantee the stability of ingot casting quality to the experimental data of guaranteeing the later stage is stable, reliable.

Description

A kind of stirring and feed mechanism

Technical field

The utility model relates to metal smelt field, particularly relates to a kind of stirring for aluminium alloy smelting device and feed mechanism.

Background technology

When the common crucible electrical resistance furnace of use for laboratory carries out melting experiment to aluminium alloy, it is on-the-spot to be difficult to simulation suitability for industrialized production, and can run into many problems in experimentation:

One, common crucible electrical resistance furnace does not have agitating device, need stir or other mixers by artificial, is difficult to ensure that alloying element is evenly distributed in the melt, guarantees the quality of melt;

Two, common crucible electrical resistance furnace is not equipped with feeding device, when adding the light metal of density ratio aluminium liquid or powdery refining agent and sodium salt degeneration agent in aluminium liquid, manually need be pressed in aluminium liquid with special equipment, cause the material that adds dissolve insufficient, scaling loss is serious, affect solution quality, when especially adding sodium salt degeneration agent, the easy adhesive aggregation of sodium salt on bell jar, thus affects modification effect.

Therefore, for the problems referred to above, in order to ensure the quality of ingot casting, ensure the stable, reliable of later experiments data, need improve traditional smelting equipment and method, can be accurate, the stable experimental data of acquisition and lay the foundation.

Utility model content

In view of the shortcoming of above-mentioned prior art, the purpose of this utility model is deficiency in order to solve traditional experiment room smelting aluminium alloy and proposes a kind of stirring for aluminium alloy smelting device and feed mechanism.

To achieve these goals, the utility model provides a kind of stirring and feed mechanism, for aluminium alloy smelting device, wherein, comprising:

Rabbling mechanism, comprise a graphite blending head, one for rotating the transmission system of graphite blending head and one for being elevated the second hydraulic cylinder of graphite blending head, rabbling mechanism is installed on an installing plate; Described stirring-head is a graphite bell jar to lower open mouth, the pipe of a long handle shape is stretched out for rotating and the power that stretches from transmission system and the second hydraulic cylinder to the transmission of graphite bell jar from top disjunctor, described pipe has a central through hole to be communicated to the inner chamber of described graphite bell jar, for reinforced in graphite crucible; With

Feed mechanism, comprise air compressor, head tank, feed pipe and supporting seat, described supporting seat is positioned at the below of head tank for supporting fixing head tank, the two ends of described head tank are connected with described air compressor one end with described feed pipe respectively by connector, and the other end of feed pipe connects described central through hole.

Stirring as above and feed mechanism, wherein, the sidewall of described graphite bell jar has some through holes.

Stirring as above and feed mechanism, wherein, the roof of described graphite bell jar has some through holes.

Stirring as above and feed mechanism, wherein, the top of the end of described feed pipe and the central through hole of graphite bell jar communicates.

Stirring as above and feed mechanism, wherein, be provided with screen pack in described head tank.

Stirring as above and feed mechanism, wherein, it is the inert gas such as nitrogen or argon gas that described air compressor exports gas.

Stirring as above and feed mechanism, wherein, comprise temperature control mechanism further, described temperature control mechanism comprises built-in thermoelectric even summation external hot galvanic couple, described built-in thermoelectric is even to be connected with in stove through described resistance-type crucible for smelting stove, and described external hot galvanic couple is connected with molten metal by described graphite bell jar through hole.

Refining agent of the present utility model and alterant utilize high pressure nitrogen to be blown in aluminium liquid by the graphite bell jar rotated, and powdery Na salt and refining agent etc. can be made to be dispersed in aluminium liquid; Graphite bell jar of the present utility model can Stirring liquation, and guarantee that in melt, Elemental redistribution is even, graphite bell jar also can change other devices into, as stirring, clamping block unit etc.; The utility model is reinforced and stir all use graphite instruments, avoids irony instrument to the pollution of melt; Place screen pack in feeding tank funnel of the present utility model, powder materials was scatter uniformly before entering aluminum melt.By using the stirring for aluminium alloy smelting device and the feed mechanism of the utility model design, the stability of ingot quality can be ensured, thus ensure that the experimental data in later stage is stable, reliable.

Accompanying drawing explanation

By detailed description done in conjunction with the following drawings, above-mentioned or otherwise advantage of the present utility model will become clearer and be easier to understand, and these accompanying drawings just schematically, do not form restriction of the present utility model, wherein:

Fig. 1 is the structural representation of stirring described in the utility model and feed mechanism embodiment.

Fig. 2 is the structural representation of the crucible holding frame of stirring described in the utility model and feed mechanism embodiment.

Fig. 3 is the structural representation of the head tank of stirring described in the utility model and feed mechanism embodiment.

Fig. 4 is the structural representation of the graphite bell jar of stirring described in the utility model and feed mechanism embodiment.

In accompanying drawing, each label declaration is as follows:

1: melting mechanism;

11: resistance-type crucible for smelting stove, 12: bell, 13: the first hydraulic cylinders, 14: graphite crucible, 15: aluminium liquid;

16: crucible holding frame;

161: the first drag hooks, 162: the second drag hooks, 163: the three drag hooks;

2: rabbling mechanism;

21: graphite bell jar, 22: motor, 23: the second hydraulic cylinders, 24: transmission system, 25: connector, 26: installing plate;

211: central through hole, 212: roof through hole, 213: lateral through aperture;

3: feed mechanism;

31: air compressor, 32: head tank, 33: feed pipe, 34: supporting seat;

321: valve, 322: powder-material, 323: screen cloth, 324: connector;

41: built-in thermoelectric idol, 42: external hot galvanic couple.

Detailed description of the invention

Detailed description of the invention of the present utility model is described in detail below in conjunction with accompanying drawing.

The embodiment recorded at this is specific detailed description of the invention of the present utility model, for illustration of design of the present utility model, is all explanatory and exemplary, should not be construed as the restriction to the utility model embodiment and the utility model scope.Except the embodiment recorded at this; those skilled in the art can also adopt other technical scheme apparent based on the content disclosed in the application's claims and description; these technical schemes comprise the technical scheme making any apparent substitutions and modifications adopted the embodiment recorded at this, all within protection domain of the present utility model.

The accompanying drawing of this description is schematic diagram, the shape of aid illustration design of the present utility model, each several part and correlation thereof.Note that the structure of each parts for the ease of clearly showing the utility model embodiment, not according to identical scale between each accompanying drawing, identical reference marker is for representing identical part.

Fig. 1 is the structural representation of a kind of stirring described in the utility model and feed mechanism embodiment.As shown in Figure 1, a kind of aluminium alloy smelting device, it comprises: melting mechanism 1, rabbling mechanism 2, feed mechanism 3 and temperature control mechanism.

As shown in Figure 1, described melting mechanism 1 comprises: resistance-type crucible for smelting stove 11, bell 12, first hydraulic cylinder 13, fill graphite crucible 14 and the crucible holding frame 16 of aluminium liquid 15.Described bell 12 is positioned at the top of resistance-type crucible for smelting stove 11, and resistance-type crucible for smelting stove 11 coordinates with bell 12 and forms enclosure space.First hydraulic cylinder 13 is positioned at the top of bell 12, is fixedly connected with bell 12.Utilize the flexible motion that can control bell 12 above-below direction of the first hydraulic cylinder 13.During the stretching out of the first hydraulic cylinder 13, bell 12 is closed; During the contraction of the first hydraulic cylinder 13, bell 12 is opened.Bell 12 upper surface has groove, and the installing plate of rabbling mechanism 2 is fixedly installed in groove.Graphite crucible 14 is placed on the inside center place of resistance-type crucible for smelting stove 11, is convenient to being heated evenly when heating.Containing aluminum fluid 15 in described graphite crucible 14, aluminium liquid 15 is formed by aluminium block melted by heat in graphite crucible 14, completes the fusion process of alloy afterwards in graphite crucible 14.

Further, for convenience of the casting of later stage metallic solution, improve the security of operation, this melting mechanism is also furnished with crucible holding frame 16, coordinates graphite crucible 14 to use, is convenient to the clamping of graphite crucible 14.Crucible holding frame 16 is enclosed within the outer surface of graphite crucible 14, utilizes the hook structure on crucible holding frame 16, complete the placement of graphite crucible 14 and the casting cycle of liquation.

As shown in Figure 2, crucible holding frame 16 is turbination to the structure of described crucible holding frame 16, the equal opening in top and bottom.The top of crucible holding frame 16 has the first drag hook 161, second drag hook 162, and bottom has the 3rd drag hook 163.Certainly, the profile of described crucible holding frame is not limited thereto, and its profile can be consistent with graphite crucible profile or inconsistent, as long as can overlap with crucible outside, is convenient to the clamping of crucible.Top and the bottom margin position of crucible holding frame 16 can also arrange more hook structure, to carry out gripping to crucible holding frame from different perspectives, handled easily.

After fusion process terminates, the first drag hook 161, second drag hook 162 of crucible holding frame 16 can be utilized to be sling by graphite crucible 14.Graphite crucible 14 is moved to and waits position of casting, lift the 3rd drag hook 163 and make graphite crucible 14 run-off the straight.Metallic solution after tilting in graphite crucible 14 can flow out automatically, carries out the casting of molten metal.Utilize the structure of this crucible holding frame, improve the security reliability of casting cycle.

Described rabbling mechanism 2 comprises graphite bell jar 21, motor 22, second hydraulic cylinder 23, transmission system 24, connector 25 and installing plate 26 for stirring aluminium liquid.Described graphite bell jar 21 top is fixed with connector 25, and connector 25 is connected with motor 22 by transmission system 24.Graphite bell jar 21 is driven to rotate together when motor 22 rotates by transmission system 24, connector 25.As shown in Figure 1, connector 25, transmission system 24 and motor 22 are fixed on installing plate 26, and installing plate 26 is fixedly installed in the groove of bell 12 upper surface.The second hydraulic cylinder 23 is fixedly connected with above installing plate 26.Controlled the lifting action of installing plate 26 by the second hydraulic cylinder 23, thus drive graphite bell jar 21 to complete elevating movement.When metallic solution does not need to stir, the second hydraulic cylinder 23 drives installing plate 26 entirety to move upward, and graphite bell jar 21 rises with installing plate 26, departs from molten metal.When metallic solution needs to stir, graphite bell jar 21 moves down with the second hydraulic cylinder 23, and the end of graphite bell jar 21 stretches in molten metal, the rotation of recycling motor 22, by transmission system 24, connector 25, drive graphite bell jar 21 to rotate, stir metallic solution.

As shown in Figure 4, the below of graphite bell jar 21 is a graphite bell jar shape to lower open mouth, stretches out the pipe of a long handle shape for transmitting described rotation and flexible power from the top disjunctor of graphite bell jar shape; Described pipe has a central through hole 211 to be communicated to the inner chamber of graphite bell jar 21.Metal dust and refining agent can be put into by central through hole 211 in the aluminium liquid 15 of below.The roof of described graphite bell jar shape has some roof through holes 212, and the sidewall of described graphite bell jar shape has some lateral through aperture 213.Such structure can make alloying element dissolve more fully in graphite bell jar 21 rotary course.Described graphite bell jar 21 also can change graphite stirring rod into, or other forms, can realize the uniform stirring of metallic solution.

Described feed mechanism 3 comprises: air compressor 31, head tank 32, feed pipe 33 and supporting seat 34.The two ends of described head tank 32 are connected with feed pipe 33 with air compressor 31 respectively by connector 324.Air compressor 31 can produce a large amount of high pressure nitrogens, and the other end of feed pipe 33 is connected with the endoporus of graphite bell jar 21.The high pressure nitrogen that air compressor 31 produces is inner by head tank 32, takes away the metal dust needing to carry out melting.The high pressure nitrogen needing the metal dust carrying out melting to produce with air compressor 31 arrives graphite bell jar 21 endoporus through feed pipe 33, is finally all entered in the middle of aluminium liquid 15 by the endoporus of graphite bell jar 21.Due to generation high pressure nitrogen circulation graphite bell jar 21 endoporus that air compressor 31 continues, metal dust can not be bonded on graphite bell jar 21 inwall, metal ink powder is fully utilized, and improves the mixing quality of aluminium liquid 15.Supporting seat 34 is positioned at the bottom of head tank 32, plays supporting and location head tank 32.

The structural representation of head tank 32 as shown in Figure 3.As shown in figures 1 and 3, head tank 32 comprises: valve 321, powder-material 322, screen cloth 323 and connector 324.Described head tank 32 is connected with air compressor 31 respectively at feed pipe 33 by the connector 324 at two ends.Described screen cloth 323 has filtration, the alloying element of bulk can be filtered out, and only allows powder-material to enter into head tank 32 inner chamber by screen cloth 323.Ensure that the quality of metal dust, make the dissolving of metallic element more abundant.

As shown in Figure 1, described feed pipe 33 end connects the interior bone of described graphite bell jar 21.When smelting apparatus needs feeding, air compressor 31 is started working.Valve 321 on opened filter tank 32, powder-material 322 starts automatically to drop in head tank 32.The size of being opened by by-pass valve control 321 controls the inlet of powder-material 322.Powder-material 322 enters into head tank 32 inner chamber by screen cloth 323, and the high pressure nitrogen produced with air compressor 31 enters into feed pipe 33.Finally all enter into aluminium liquid 15 by graphite bell jar 21 interior bone.The gas that described air compressor 31 produces can be nitrogen, also can be argon gas or other inert gases.

Described temperature control mechanism comprises: built-in thermoelectric even 41 and external hot galvanic couple 42.Described built-in thermoelectric even 41 is connected with in stove through resistance-type crucible for smelting stove 11, is responsible for the temperature in measuring resistance formula crucible for smelting stove 11; Described external hot galvanic couple 42 is connected with aluminium liquid 15 by the through hole of graphite bell jar 21 inside, and primary responsibility measures the temperature of aluminium liquid 15 in described graphite crucible 14.The element that this temperature control mechanism uses not only is confined to thermocouple, also can adopt the temperature element of other modes.

Introduce the method for operating using above-mentioned stirring and feed mechanism below.

The first step: be positioned over by aluminium ingot in resistance-type crucible for smelting stove, heats this resistance-type crucible for smelting stove, makes aluminium ingot fusing wherein.

First, the first hydraulic cylinder 13 is utilized to be opened by the bell 12 above resistance-type crucible for smelting stove 11, graphite crucible 14 is put into crucible holding frame 16, again deployed aluminium ingot is put into graphite crucible 14, utilize the first drag hook 161, second drag hook 162 of crucible holding frame 16 afterwards, crucible holding frame 16 sling and puts into resistance-type crucible for smelting stove 11, fixing relevant position, making graphite crucible 14 be in the center of resistance-type crucible for smelting stove.Utilize the first hydraulic cylinder 13 to close bell 12, make to form enclosure space between resistance-type crucible for smelting stove 11 and bell 12.Utilize and set relevant temperature through resistance-type crucible for smelting stove with the built-in thermoelectric be connected in stove even 41, heat in resistance-type crucible for smelting stove 11 stove, make aluminium block carry out heating and melting.Aluminium block after fusing forms aluminium liquid 15 in graphite crucible 14, so that the later stage carries out the dissolving of alloying element.Do not need to stir aluminium block in fusion process, therefore, the second hydraulic cylinder 23 is utilized to drive installing plate 26 upwards to lift, graphite bell jar 21 is fixing on a mounting board, graphite bell jar 21 upwards lifts with installing plate 26, make it depart from melt, it highly ensures on the aluminium liquid liquid level after being positioned at fusing..

Second step: utilize external thermocouple measurement temperature of aluminum liquid, and regulate temperature of aluminum liquid, makes its temperature being stabilized in needs carries out melting.

When resistance-type crucible for smelting stove 11 heats after a period of time, aluminium block is melted fully and is formed aluminium liquid.Now, the temperature measuring aluminium liquid is needed, so that later stage alloying element is dissolved more fully.External hot galvanic couple 42 is inserted into the aluminium liquid degree of depth 2/3 place by the through hole of graphite bell jar 21 inside, measures temperature of aluminum liquid (as shown in Figure 1).The temperature of aluminum liquid measured and standard value are contrasted, regulates the temperature of aluminium liquid to make it reach standard value, and keep temperature stabilization, so that the dissolving of later stage alloy element is more abundant.The present invention utilizes built-in and external thermocouple, can determine burner hearth and the melt temperature of smelting furnace, for stable smelting technology, ensures that ingot quality lays the first stone.

Certainly, the external hot galvanic couple mode inserted in aluminium liquid is not only limited in by the inside of graphite bell jar 21, also can be inserted in aluminium liquid by other positions of bell 12, as long as can meet the temperature measuring aluminium liquid.

3rd step: joined by alloying element in aluminium liquid, utilizes rabbling mechanism to stir, and alloying element is fully dissolved.

When aluminium liquid 15 temperature reaches standard value, start to add Powdered alloying element.First, utilize the second hydraulic cylinder 23 to be inserted in aluminium liquid 15 by graphite bell jar 21, disc-shaped structure is submerged in aluminium liquid 15 completely.Open air compressor 31, air compressor 31 is started working, produce a large amount of high pressure nitrogens, the high pressure nitrogen produced enters in head tank 32 bore passages by pipeline, one end of head tank 32 is connected with air compressor 31 by connector 324, and the other end is connected with feed pipe 33 by connector 324, and feed pipe 33 is connected with the endoporus of graphite bell jar 21, high pressure nitrogen is by head tank 32, and feed pipe 33 enters into the endoporus of graphite bell jar 21.Powder-material 322 is contained in the top of head tank 32, the top funneling of head tank, opens the valve 321 of head tank 32, by the inlet amount of the regulable control powder-material of valve.After valve 321 is opened, powder-material 322 falls naturally with Action of Gravity Field.The infundibulate headstage ground of head tank 32 is provided with screen cloth 323, and powder-material 322 enters in feeding channel after the filtration of screen cloth 323, is filtered by the alloying element of bulk after filtration, only leaves pulverous alloying element.

Powder-material 322 in admission passage enters into the inside of graphite bell jar 21 (when alloying element is for time block with nitrogen by feed pipe 33, open bell 12, bulk alloy element is put in aluminium liquid, and utilize moving up and down of graphite bell jar to be crushed to Powdered by block element, then stir).Graphite bell jar 21 is connected with motor 22 by connector 25 and transmission system 24.After motor 22 starts, graphite bell jar 21 rotate with motor 22 and start rotate, powder-material 322 is blown in aluminium liquid 15 by the nitrogen that air compressor 31 produces by the endoporus of the graphite bell jar 21 rotated, thus make that powder-material 322 is dispersed in aluminium liquid 15 to be opened, avoid being bonded to block, decrease powder-material simultaneously and be bonded on graphite bell jar inwall.

After reinforced end, valve-off 321, closes air compressor 31, no longer produces nitrogen, now complete feeding process, lift graphite bell jar 21.Utilize the second hydraulic cylinder 23 again to rise graphite bell jar 21, depart from metallic solution, and be incubated the corresponding time, alloying element is dissolved.Fall graphite bell jar 21 after insulation terminates again to stir melt, guarantee that alloying element is evenly distributed in aluminium liquid 15.By the setting of screen cloth 323, prevent the powder-material being gathered into block from entering in aluminium liquid, powder-material 322 is scatter uniformly before entering aluminium liquid 15.

The utility model is reinforced and stir all use graphite instruments, avoid the pollution of irony instrument to melt, graphite bell jar is connected with motor by transmission system, liquation can be stirred by automatic rotation, avoid the defect that artificial stirring is uneven, graphite bell jar also can change special graphite agitator into, and aluminium alloy Melt Stirring can be made even, reduce segregation, improve ingot quality.Meanwhile, graphite bell jar can drive with the second hydraulic cylinder and be installed into the movement that plate carries out above-below direction, when not needing the stirring carrying out aluminium liquid, graphite bell jar can be lifted, departing from aluminium liquid.

4th step: refining agent and sodium salt are joined in aluminium liquid, utilizes rabbling mechanism to stir, and refining agent and sodium salt are fully dissolved.

Add refining agent.External hot galvanic couple 42 is utilized to measure the temperature of aluminium liquid 15, when the temperature of aluminium liquid 15 is reduced to cast temperature, air compressor 31, head tank 32 etc. is utilized to send in aluminium liquid 15 by refining agent by the graphite bell jar 21 rotated, and being incubated the corresponding time, operating process is with to add powder-material in aluminium liquid consistent.

Carrying out with sodium salt the alloy that goes bad for needing, sodium salt degeneration agent need be added.The Adding Way of sodium salt degeneration agent is consistent with the Adding Way of powder-material, is incubated the corresponding time after adding sodium salt degeneration agent.

5th step: utilize crucible holding frame to take out graphite crucible, carry out the casting of molten metal.

After reaching temperature retention time, the first hydraulic cylinder 13 is utilized to open bell 12, after Slag treatment is taken off to aluminium liquid, the first drag hook 161, second drag hook 162 of crucible holding frame 16 is utilized to be sling by graphite crucible 14, graphite crucible 14 is moved to and waits position of casting, lifting the 3rd drag hook 163 makes graphite crucible tilt, and carries out the casting of molten metal.Utilize the structure of this crucible holding frame, improve the security reliability of casting cycle.

The utility model utilizes built-in and external thermocouple, can determine burner hearth and the melt temperature of smelting furnace, for stable smelting technology, ensures that ingot quality lays the foundation; Graphite bell jar of the present utility model can realize the movement of above-below direction by hydraulic cylinder, more than liquid level can be elevated to when not using, simultaneously, graphite bell jar is connected with motor by transmission system, can realize automatic rotation and stir liquation, avoids and manually stirs the uneven defect of the stirring that brings, graphite bell jar also can change special graphite agitator into, aluminium alloy Melt Stirring can be made even, reduce segregation, improve ingot quality; The utility model feeds in raw material and mixing plant all uses graphite bell jar, avoids the pollution of irony instrument to melt; Place screen pack in head tank funnel of the present utility model, can prevent the powder materials being gathered into block from entering in aluminum melt, powder materials is scatter uniformly before entering aluminum melt.A kind of stirring that the utility model proposes and feed mechanism can ensure the stability of ingot quality, thus lay the foundation for obtaining stable, reliable experimental data.

Each technical characteristic of above-mentioned disclosure is not limited to that disclosed with combination that is other features, other combinations that those skilled in the art also can carry out between each technical characteristic according to the object of utility model, is as the criterion with the object realizing the utility model.

Claims (7)

1. stir and a feed mechanism, for aluminium alloy smelting device, it is characterized in that, comprising:

Rabbling mechanism, comprise a graphite blending head, one for rotating the transmission system of graphite blending head and one for being elevated the second hydraulic cylinder of graphite blending head, rabbling mechanism is installed on an installing plate; Described stirring-head is a graphite bell jar to lower open mouth, the pipe of a long handle shape is stretched out for rotating and the power that stretches from transmission system and the second hydraulic cylinder to the transmission of graphite bell jar from top disjunctor, described pipe has a central through hole to be communicated to the inner chamber of described graphite bell jar, for reinforced in graphite crucible; With

Feed mechanism, comprise air compressor, head tank, feed pipe and supporting seat, described supporting seat is positioned at the below of head tank for supporting fixing head tank, the two ends of described head tank are connected with described air compressor one end with described feed pipe respectively by connector, and the other end of feed pipe connects described central through hole.

2. stirring according to claim 1 and feed mechanism, is characterized in that, the sidewall of described graphite bell jar has some through holes.

3. stirring according to claim 1 and 2 and feed mechanism, is characterized in that, the roof of described graphite bell jar has some through holes.

4. stirring according to claim 1 and 2 and feed mechanism, is characterized in that, the top of the end of described feed pipe and the central through hole of graphite bell jar communicates.

5. stirring according to claim 1 and feed mechanism, is characterized in that, is provided with screen pack in described head tank.

6. stirring according to claim 1 and feed mechanism, is characterized in that, it is the inert gas such as nitrogen or argon gas that described air compressor exports gas.

7. stirring according to claim 1 and feed mechanism, it is characterized in that, comprise temperature control mechanism further, described temperature control mechanism comprises built-in thermoelectric even summation external hot galvanic couple, described built-in thermoelectric is even to be connected with in stove through described resistance-type crucible for smelting stove, and described external hot galvanic couple is connected with molten metal by described graphite bell jar through hole.