CN106521560B - A kind of liquid rare earth metal discharging device - Google Patents

Abstract

The invention discloses a kind of liquid rare earth metal discharging device, to solve the problems, such as that rare earth metal solution existing in the prior art flow velocity of coming out of the stove is difficult to control and rare earth metal is not easy to form.In this application, overflow pipe (3) is accessed from the lower section of the receiver (2) of electrolytic cell (1), on the one hand allows liquid rare earth metal to flow out by the way of gravity naturally, on the other hand can also assists coming out of the stove by the way of vacuum；And the application winds the first water-cooled induction coil (7) in overflow pipe (3) outer wall, to avoid condensing by way of heating, and, overflow pipe (3) can also be cooled down by way of power-off, in turn, the control effect of the flow velocity to the liquid rare earth metal in overflow pipe (3) is improved.

Description

A kind of liquid rare earth metal discharging device

Technical field

The present invention relates to rare earth molten-salt electrolysis technical field more particularly to a kind of liquid rare earth metal discharging devices.

Background technique

It is an important procedure in Rare Earth Electrolysis production process that liquid rare earth metal, which is come out of the stove,.Currently, domestic rare earth molten salt The mode of coming out of the stove of rare earth metal used by electrolysis field mainly has: manually come out of the stove mode, crucible tongs of titanium spoon are manually come out of the stove mode, rainbow Machinery is inhaled to come out of the stove three kinds of mode；However, mode of manually coming out of the stove there are radiations heat energies big, severe operational environment, large labor intensity；Though The right siphon mechanical mode of coming out of the stove can improve the defect manually come out of the stove, but for siphon mechanical comes out of the stove mode, due to In use process, suction pipe is easily blocked, is deformed, so cause flow velocity to be difficult to control, rare earth metal it is not easily molded, and be difficult to realize It is poured small ingot (for example, the ingot for being less than 4kg).

Summary of the invention

The embodiment of the invention provides a kind of liquid rare earth metal discharging devices, existing in the prior art dilute to solve Earth metal solution is come out of the stove, and flow velocity is uncontrollable and rare earth metal is not easy the problem of forming.

Technical solution of the present invention is as follows:

A kind of liquid rare earth metal discharging device, comprising: electrolytic cell (1), receiver (2), overflow pipe (3), casting room (4), surge tank (5) and vacuum pump (6)；Wherein,

The receiver (2) setting is connect described in one end connection of the overflow pipe (3) in the bottom of the electrolytic cell (1) It receives device (2), the other end connects the casting room (4)；The outer wall of the overflow pipe (3) is wound with for the overflow pipe (3) The first water-cooled induction coil (7) being heated or cooled；The casting room (4) is additionally provided with ingot mold (8) and dumpable electricity The crucible (9) of electrolyte solution connects ingot mold (8) described in one end face of the overflow pipe (3) of the casting room (4)； The casting room (4) is connect with the surge tank (5) by the first vacuum tube (10), is provided on first vacuum tube (10) First vacuum valve (11), the surge tank (5) are connect by the second vacuum tube (12) with vacuum pump (6), second vacuum tube (12) the second vacuum valve (13) are provided on.

Optionally, one end of the overflow pipe (3) connects the bottom of the receiver (2), and the receiver (2) has extremely A few step structure, in order to which liquid rare earth metal flows into the overflow pipe (3).

Optionally, the outer wall of the crucible (9) is wound with the second water-cooled induction coil (14), the second water cooling line of induction Circle (14) is for being heated or cooled the crucible (9).

It optionally, further include shaft (15) in the casting room (4), the crucible (9) can cooperate the shaft (15) one Rotation is played to topple over electrolyte solution.

Optionally, it is additionally provided with baffle means (16) in the casting room (4), the baffle means (16) are used for access institute It states the liquid rare earth metal of overflow pipe (3) outflow and is drained to the ingot mold (8).

Optionally, the baffle means (16) specifically include: metallic channel (17), front apron (18), rear baffle (19) and Two side baffles (20), wherein front apron (18) setting is in the metallic channel (17) upper edge and close to the overflow pipe (3), rear baffle (19) setting is in the metallic channel (17) upper edge and far from the overflow pipe (3), and the front apron (18) Not higher than the rear baffle (19).

Optionally, the rear baffle (19) is gradually inclined outwardly from the bottom to top, and the side baffle (20) cooperates the front Plate (18) and the rear baffle (19) linking fitting.

Optionally, the metallic channel (17) contains at least one aperture under funnel-form (21), each descends aperture (21) corresponding A model in the ingot mold (8).

Optionally, the material of the overflow pipe (3) is molybdenum simple substance or tungsten simple substance or molybdenum and tungsten alloy；The overflow pipe (3) Aperture size is 25-32mm.

Optionally, the material of first water-cooled induction coil (7) and the second water-cooled induction coil (14) is copper；It is described The aperture size of first water-cooled induction coil (7) and the second water-cooled induction coil (14) is 5-10mm.

The present invention has the beneficial effect that:

Overflow pipe (3) is accessed from the lower section of the receiver (2) of electrolytic cell (1), is on the one hand used by scheme through the invention The mode of gravity allows liquid rare earth metal to flow out naturally, on the other hand can also assist coming out of the stove by the way of vacuum；And this Shen The first water-cooled induction coil (7) please are wound in overflow pipe (3) outer wall, to avoid condensing by way of heating, moreover, may be used also Overflow pipe (3) is cooled down in a manner of through power-off, in turn, is improved to the liquid rare earth metal in overflow pipe (3) The control effect of flow velocity.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of liquid rare earth metal discharging device provided by the embodiment of the present invention；

Fig. 2 is the side view that the present invention carries out that cutting is obtained to crucible (9)；

Fig. 3 is the structural schematic diagram of baffle means of the present invention (16).

Specific embodiment

Technical solution according to the present invention is described in detail below by specific embodiment, the present invention include but It is not limited to following embodiment.

As shown in Figure 1, for a kind of structural schematic diagram of liquid rare earth metal discharging device provided by the embodiment of the present invention, The device mainly includes: electrolytic cell (1), receiver (2), overflow pipe (3), casting room (4), surge tank (5) and vacuum pump (6).

Wherein, receiver (2) setting connects institute in the bottom of the electrolytic cell (1), one end of the overflow pipe (3) It states receiver (2), the other end connects the casting room (4).It specifically, can be by boring a through-hole in the bottom of receiver (2), so Overflow pipe (3) is embedded in electrolytic cell (1) afterwards, to draw the through hole for being connected to receiver (2), and keeps linking sealing.

And in view of needing to be embedded in overflow pipe (3) in electrolytic cell (1), then, it needs to select material resistant to high temperature, because This, the overflow pipe (3) in the application is preferably preferred with molybdenum simple substance or tungsten simple substance or molybdenum and tungsten alloy；The aperture of the overflow pipe (3) Having a size of 25-32mm.

The outer wall of the overflow pipe (3) is wound with the induction of the first water cooling for the overflow pipe (3) to be heated or cooled Coil (7).Wherein, overflow pipe (3) outer wall, internal coil diameter is arranged in the first water-cooled induction coil (7) by way of winding In be filled with circulating water, work as opening coil, i.e., to the first water-cooled induction coil (7) be powered when, start to heat coil, The heat of coil can guarantee the liquid rare earth metal flow speed stability in overflow pipe (3), without condensing；Upon closing, When powering off to the first water-cooled induction coil (7), coil stops heating, and the circulating water in coil begins to cool the overflow pipe (3), in turn, so that the liquid rare earth metal condensation in overflow pipe (3) is without flowing, thus, play the role of cut-off.By This when energized, is equivalent to opening valve it is found that the overflow pipe (3) being arranged in the present invention plays the role of valve switch, so that Liquid rare earth metal flows to casting room (4), when power is off, is equivalent to closing valve, so that liquid rare earth metal stops flowing, Play the role of cut-off.The design avoids necessity of additional setting valve, and ensure that the flow speed stability of liquid rare earth metal, Simplify structure design.

The casting room (4) is additionally provided with the crucible (9) of ingot mold (8) and dumpable electrolyte solution, connects institute State ingot mold (8) described in one end face of the overflow pipe (3) of casting room (4).Due to pour liquid rare earth metal it It is preceding to need that electrolyte solution is arranged on the surface of ingot mold (8), to guarantee to be poured the smooth stabilization in surface of obtained ingot. Liquid rare earth metal is allowed to flow into overflow pipe naturally in the way of gravity since the application is relied primarily on from the lower section of electrolytic cell (1) (3) in, it cannot achieve and existing siphon mode is used to obtain electrolyte solution from top to extract liquid rare earth metal in siphon The setting for carrying out electrolyte solution before is smeared, and therefore, the application, which is used, is arranged crucible (9) pouring in room (4), and by solid Electrolyte is put into crucible (9) and is heated, and before being come out of the stove, the electrolyte solution heated in crucible (9) is poured into In ingot mold (8).Moreover, one end face ingot mold (8) of overflow pipe (3), in order to which the liquid for flowing through overflow pipe (3) is dilute Earth metal can flow into ingot mold (8).

The casting room (4) is connect with the surge tank (5) by the first vacuum tube (10), first vacuum tube (10) On be provided with the first vacuum valve (11), the surge tank (5) is connect by the second vacuum tube (12) with vacuum pump (6), described the The second vacuum valve (13) are provided on two vacuum tubes (12).

In addition, the side wall of casting room (4) in the apparatus is additionally provided with the first vent valve (22), casting room (4) it is upper Side is additionally provided with peep hole (23) and room door (24).

By above scheme it is found that being different from the prior art, suction pipe used in siphon is exchanged with overflow pipe by the application It (3), is not to inject liquid rare earth metal the overflow pipe (3) in the solution of electrolytic cell (1) merely with vacuum mode by top It sucks out from the bottom to top, but overflow pipe (3) is accessed from the lower section of the receiver (2) of electrolytic cell (1), on the one hand use gravity Mode allow liquid rare earth metal to flow out naturally, on the other hand can also assist coming out of the stove by the way of vacuum；And in view of existing Suction pipe easily blocks and the problems such as flow velocity is unstable in technology, and the application winds the first water-cooled induction coil in overflow pipe (3) outer wall (7), to avoid condensing by way of heating, moreover, it is also possible to overflow pipe (3) is cooled down by way of power-off, In turn, the control effect of the flow velocity to the liquid rare earth metal in overflow pipe (3) is improved.

Optionally, one end of the overflow pipe (3) connects the bottom of the receiver (2), in this application, in order to Accelerate flow velocity of the liquid rare earth metal in receiver (2), the receiver (2) can be designed as to have at least one Step-edge Junction Structure, in order to which liquid rare earth metal flows into the overflow pipe (3).In fact, it can also be a ramp structure, or there is class Like the structure of slope trend.

Optionally, in this application, the outer wall of the crucible (9) in casting room (4) is wound with the second water-cooled induction coil (14), second water-cooled induction coil (14) is for being heated or cooled the crucible (9).Its effect and the first water cooling Equally, this will not be repeated here for induction coil (7).Specific heating temperature and heating time can be according to the solid to be heated electricity Solve the type selection of matter.

In addition, carrying out the side view that cutting obtains to crucible (9) for the application, thus figure is it is found that institute referring to shown in Fig. 2 Stating further includes shaft (15) in casting room (4), and the crucible (9) can cooperate the shaft (15) to be rotated together to topple over electrolyte Solution.Furthermore it is also possible to which the handle (27) for connecting shaft (15) one end comprising one makes in order to which staff is adjusted It obtains crucible (9) and rotates to suitable dump angle, electrolyte solution therein is poured onto ingot mold (8).

It referring now still to shown in Fig. 1, is additionally provided with baffle means (16) in the casting room (4), the baffle means (16) are used The liquid rare earth metal of the overflow pipe described in access (3) outflow is simultaneously drained to the ingot mold (8).

Referring to shown in Fig. 3, the baffle means (16) are specifically included: metallic channel (17), front apron (18), rear baffle (19) And two side baffles (20), wherein front apron (18) setting is overflow in the metallic channel (17) upper edge and close to described Flow tube (3), rear baffle (19) setting is in the metallic channel (17) upper edge and far from the overflow pipe (3), and the front apron (18) rear baffle (19) are not higher than.Since the flow velocity of the liquid rare earth metal flowed out in the overflow pipe (3) is very fast, in order to keep away Exempt to sputter, settable such baffle means prevent liquid rare earth metal to be splashed to elsewhere with effective drainage liquid.

Preferably, one end of overflow pipe (3) in casting room (4) can be contacted with front apron (18), in this way, drainage can be promoted Effect.

Optionally, referring to shown in Fig. 3, the rear baffle (19) is gradually inclined outwardly from the bottom to top, the side baffle (20) The front apron (18) and the rear baffle (19) is cooperated to be connected fitting.In addition, the baffle means (16) can also include welding Fixation clamp (25) on the outside of side baffle (20), to realize the fixation to baffle means (16).

The metallic channel (17) contains at least one aperture under funnel-form (21), each descends aperture (21) corresponding described ingot casting A model in mold (8).In fact, the quantity in the lower aperture (21) in the metallic channel (17) can be set according to actual needs, Alternatively, the quantity of ingot mold (8) can be cooperated to be chosen.Under normal circumstances, it for improving production efficiency, can all be poured simultaneously Multiple models, in order to be formed simultaneously multiple ingots.

Optionally, the material of the overflow pipe (3) is molybdenum simple substance or tungsten simple substance or molybdenum and tungsten alloy；The overflow pipe (3) Aperture size is 25-32mm.

Optionally, the material of first water-cooled induction coil (7) and the second water-cooled induction coil (14) is copper；It is described The aperture size of first water-cooled induction coil (7) and the second water-cooled induction coil (14) is 5-10mm.Wherein, the first water cooling incudes Coil (7) and the second water-cooled induction coil (14) can be by connecting corresponding frequency converter to realize the conducting that is powered.

Optionally, crucible (9) can be corundum crucible in the application, i.e., its material can be aluminium oxide or tungsten or molybdenum or tungsten Molybdenum alloy.

It following is a brief introduction of the working principle of the liquid rare earth metal discharging device.

Firstly, placing 4~5kg solid electrolyte in crucible (9) before coming out of the stove, the corresponding second water cooling line of induction is opened The frequency converter of (14) is enclosed, regulation power melts solid electrolyte.

Later, close the first vent valve (22), the second vent valve (26), open vacuum pump (6), open surge tank (5) with The second vacuum valve (13) between vacuum pump (6), so that pressure is down to 0.08Mpa.

Then, the control switch of the first water cooling induction coil (7) on overflow pipe (3) is opened, while will be melted in crucible (9) Electrolyte solution make crucible (9) to tilt and inject in ingot mold (8) by way of rotational handle, close corresponding second The frequency converter of water-cooled induction coil (14).The first vacuum valve (11) between casting room (4) and surge tank (6) is opened, sight is passed through It examines hole (23) observation of liquid state rare earth metal to flow through baffle means (16) from overflow pipe (3), in injection ingot mold (8), works as liquid It when rare earth metal fills the 3/4 of ingot mold (8) volume, closes the first vacuum valve (11), opens the first vent valve (22).From And realize relatively stable ingot casting of coming out of the stove.

As a result, with this solution, the backwardness technology manually come out of the stove can be not only eliminated, labor intensity is reduced, Reduce injury of the radiations heat energy to human body, can also improve siphoning installation suction pipe is easily blocked, is deformed, flow velocity is unstable, metal not The problems such as easily molded, pushes the automatic technology development and extensive industrialized development of re metal electrolyzing industry

Although the preferred embodiment of the application has been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications can be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the application range.

Obviously, those skilled in the art can carry out various modification and variations without departing from the essence of the application to the application Mind and range.In this way, if these modifications and variations of the application belong to the range of the claim of this application and its equivalent technologies Within, then the application is also intended to include these modifications and variations.

Claims (10)

1. a kind of liquid rare earth metal discharging device characterized by comprising electrolytic cell (1), receiver (2), overflow pipe (3), Casting room (4), surge tank (5) and vacuum pump (6)；Wherein,

Receiver (2) setting connects the receiver in the bottom of the electrolytic cell (1), one end of the overflow pipe (3) (2), the other end connects the casting room (4)；The outer wall of the overflow pipe (3) is wound with for heating to the overflow pipe (3) Or cooling the first water-cooled induction coil (7)；The casting room (4) is additionally provided with ingot mold (8) and dumpable electrolyte The crucible (9) of solution connects ingot mold (8) described in one end face of the overflow pipe (3) of the casting room (4)；It is described Casting room (4) is connect with the surge tank (5) by the first vacuum tube (10), is provided with first on first vacuum tube (10) Vacuum valve (11), the surge tank (5) are connect by the second vacuum tube (12) with vacuum pump (6), second vacuum tube (12) On be provided with the second vacuum valve (13).

2. device as described in claim 1, which is characterized in that one end of the overflow pipe (3) connects the receiver (2) Bottom, the receiver (2) have at least one step structure, in order to which liquid rare earth metal flows into the overflow pipe (3).

3. device as described in claim 1, which is characterized in that the outer wall of the crucible (9) is wound with the second water cooling line of induction It encloses (14), second water-cooled induction coil (14) is for being heated or cooled the crucible (9).

4. device as described in claim 1, which is characterized in that further include shaft (15), the crucible in the casting room (4) (9) shaft (15) can be cooperated to be rotated together to topple over electrolyte solution.

5. device as described in claim 1, which is characterized in that be additionally provided with baffle means (16), institute in the casting room (4) Baffle means (16) are stated for the liquid rare earth metal of the outflow of overflow pipe (3) described in access and are drained to the ingot mold (8).

6. device as claimed in claim 5, which is characterized in that the baffle means (16) specifically include: metallic channel (17), preceding Baffle (18), rear baffle (19) and two side baffles (20), wherein the front apron (18) is arranged in the metallic channel (17) Upper edge and close to the overflow pipe (3), rear baffle (19) setting is in the metallic channel (17) upper edge and far from the overflow It manages (3), and the front apron (18) is not higher than the rear baffle (19).

7. device as claimed in claim 6, which is characterized in that the rear baffle (19) is gradually inclined outwardly from the bottom to top, institute It states side baffle (20) and cooperates the front apron (18) and the rear baffle (19) linking fitting.

8. device as claimed in claim 6, which is characterized in that the metallic channel (17) contains at least one aperture under funnel-form (21), a model in aperture (21) corresponding described ingot mold (8) is each descended.

9. such as the described in any item devices of claim 1-8, which is characterized in that the material of the overflow pipe (3) be molybdenum simple substance or Tungsten simple substance or molybdenum and tungsten alloy；The aperture size of the overflow pipe (3) is 25-32mm.

10. device as claimed in claim 3, which is characterized in that first water-cooled induction coil (7) and the induction of the second water cooling The material of coil (14) is copper；The aperture size of first water-cooled induction coil (7) and the second water-cooled induction coil (14) For 5-10mm.