CN211771604U - Rare earth metal electrolytic furnace - Google Patents

Abstract

The utility model discloses a rare earth metal electrolytic furnace, which comprises a body, a rotary bracket, a power supply, a motor, two anode rods, a cathode rod, a rare earth collecting box, a pull rope, a waste gas conduit and a waste gas collecting tank, wherein the rotary bracket is positioned above the body, the power supply is positioned on one side of the body, the motor is positioned far away from one side of the body, the two anode rods of the anode rod bracket are fixedly connected with the rotary bracket, the cathode rods with a plurality of U-shaped cathode rod brackets are fixedly connected with the output end of the motor and positioned between the two anode rods, the rare earth collecting box is positioned in the body, the waste gas collecting tank is connected with the electrolytic furnace through the waste gas conduit, the cathode rods are driven by the motor to rotate, the contact area between the cathode rods and an electrolyte is increased by combining the anode rod brackets, and the waste gas collecting tank is added to collect and treat waste gas generated in the electrolytic process, improve the electrolysis efficiency and reduce the environmental pollution.

Description

Rare earth metal electrolytic furnace

Technical Field

The utility model relates to an electrolytic furnace technical field especially relates to a rare earth metal electrolytic furnace.

Background

At present, most of light rare earth metals are prepared by a molten salt electrolysis method, the electrolysis of a rare earth oxide villaumite system is a main method for preparing the rare earth metals, a rare earth metal electrolytic furnace is main equipment for realizing the method, and the method for preparing the rare earth metals comprises two molten salt systems, one is a chloride system, and the other is a fluoride system; the method is mainly characterized in that chloride system molten salt electrolysis is mainly adopted in industry to prepare rare earth metal, a crystalline chlorinated rare earth dehydration material is used for electrolysis, rare earth ions in a rare earth-containing molten salt electrolyte obtain electrons at the cathode of an electrolytic cell to be reduced into metal, a rare earth electrolytic furnace is a main device adopted by a rare earth metal electrolysis method, and the electrolysis process is carried out under higher current density. However, the current electrolytic efficiency of the electrolytic furnace to the rare earth metal is low, and the waste generated by electrolysis is easy to cause environmental pollution.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rare earth metal electrolytic furnace improves electrolysis efficiency, reduces environmental pollution.

In order to achieve the above object, the present invention provides a rare earth metal electrolytic furnace, which comprises a body, a rotary bracket, a power supply, a motor, two anode rods, a cathode rod, a rare earth collecting box, a pull rope, a waste gas conduit and a waste gas collecting tank, wherein the rotary bracket is detachably connected with the body and is located above the body, the power supply is fixedly connected with the body and is located at one side of the body, the motor is fixedly connected with the rotary bracket and is connected with the power supply, is located at one side far away from the body, the two anode rods are fixedly connected with the rotary bracket and are located in the body, the anode rods are provided with anode rod supports, a plurality of the anode rod supports are located on the anode rods, the cathode rods are fixedly connected with the output end of the motor and are located between the two anode rods, the negative pole stick has a plurality of negative pole stick supports, and is a plurality of the negative pole stick support is located on the negative pole stick, just the negative pole stick support is the U type, the tombarthite collect the box with the connection can be dismantled to the body, and lie in the body, the tombarthite is collected the box and runing rest fixed connection, and lie in the tombarthite collect the box with between the runing rest, the exhaust gas pipe with runing rest fixed connection, and with the body switch-on, and lie in two the positive pole stick top, the exhaust gas pipe is light-tight pipeline, the exhaust gas collecting pit with exhaust gas pipe fixed connection, and lie in body one side.

The rare earth metal electrolytic furnace further comprises an insulating sheet, wherein the insulating sheet is fixedly connected with the rotating support and the body and is positioned at the joint of the body and the rotating support.

The body comprises an outer shell, a water control layer and a crucible, the crucible is fixedly connected with the outer shell and is positioned on one side of the outer shell, and the water control layer is fixedly connected with the outer shell and the crucible and is positioned between the outer shell and the crucible.

The body further comprises an asbestos layer, the asbestos layer is fixedly connected with the outer shell and the water control layer and is located between the outer shell and the water control layer.

The rare earth metal electrolytic furnace further comprises a temperature monitor, wherein the temperature monitor is fixedly connected with the outer shell, connected with the power supply and positioned on one side of the power supply.

The rare earth metal electrolytic furnace further comprises a concentration detector, wherein the concentration detector is connected with the power supply, fixedly connected with the outer shell and positioned on one side far away from the power supply.

The rare earth metal electrolytic furnace further comprises an electrolyte inlet pipeline and an electrolyte outlet pipeline, wherein the electrolyte inlet pipeline and the electrolyte outlet pipeline are fixedly connected with the crucible and penetrate through the outer shell, the asbestos layer and the water control layer, and the water control layer is located far away from one side of the rotary support.

The rare earth metal electrolytic furnace further comprises a water inlet pipe and a water outlet pipe, wherein the water inlet pipe and the water outlet pipe are fixedly connected with the water control layer, penetrate through the outer shell and the asbestos layer and are located on two sides of the outer shell.

The utility model discloses a rare earth metal electrolytic furnace, rare earth metal electrolytic furnace includes body, runing rest, power, motor, two anode rods, cathode bar, tombarthite collection box, stay cord, waste gas pipe and waste gas collecting pit, the runing rest with the body can be dismantled and be connected, and lie in the body top, the power with body fixed connection, and lie in body one side, the motor with runing rest fixed connection, and with the power is connected, lie in and keep away from body one side, two anode rods with runing rest fixed connection, and lie in the body, the anode bar has anode bar support, a plurality of anode bar support lie in on the anode bar, the cathode bar with the output fixed connection of motor, and lie in between two anode bars, the cathode bar has a plurality of cathode bar support, the plurality of cathode bar supports are positioned on the cathode bars and are U-shaped, the rare earth collecting box is detachably connected with the body, and is positioned in the body, the rare earth collecting box is trapezoidal, the pull rope is fixedly connected with the rare earth collecting box and the rotating bracket, and is positioned between the rare earth collecting box and the rotating bracket, the waste gas conduit is fixedly connected with the rotating bracket and communicated with the body, and is positioned above the two anode rods, the waste gas guide pipe is a light-tight pipeline, the waste gas collecting tank is fixedly connected with the waste gas guide pipe, and is positioned at one side of the body, the cathode bar is driven by a motor to rotate, the contact between the cathode bar and the electrolyte is increased, and a waste gas collecting tank is added to collect and treat waste gas generated in the electrolysis process, so that the electrolysis efficiency is improved, and the environmental pollution is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a rare earth metal electrolytic furnace provided by the present invention.

1-body, 2-rotary bracket, 3-power supply, 4-motor, 5-anode bar, 6-cathode bar, 7-rare earth collecting box, 8-waste gas conduit, 9-waste gas collecting pool, 51-anode bar bracket, 61-cathode bar bracket, 10-insulating sheet, 11-outer shell, 12-asbestos layer, 13-water control layer, 14-crucible, 15-temperature monitor, 16-concentration detector, 17-electrolyte inlet pipeline, 18-electrolyte outlet pipeline, 19-water inlet pipe, 20-water outlet pipe and 21-pull rope.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1, the present invention provides a rare earth metal electrolytic furnace, which includes a main body 1, a rotary bracket 2, a power supply 3, a motor 4, two anode rods 5, a cathode rod 6, a rare earth collecting box 7, a pull rope 21, an exhaust gas duct 8 and an exhaust gas collecting tank 9, wherein the rotary bracket 2 is detachably connected to the main body 1 and is located above the main body 1, the power supply 3 is fixedly connected to the main body 1 and is located at one side of the main body 1, the motor 4 is fixedly connected to the rotary bracket 2 and is connected to the power supply 3 and is located at one side away from the main body 1, the two anode rods 5 are fixedly connected to the rotary bracket 2 and are located in the main body 1, the anode rod 5 has an anode rod support 51, a plurality of the anode rod supports 51 are located on the anode rod 5, the cathode rod 6 is fixedly connected to an output end of the motor 4, and be located two between the anode rod 5, cathode rod 6 has a plurality of cathode rod support 61, and is a plurality of cathode rod support 61 is located on the cathode rod 6, just cathode rod support 61 is the U type, rare earth collect the box 7 with body 1 can dismantle the connection, and is located in body 1, rare earth collect the box 7 and be trapezoidal, stay cord 21 with rare earth collect the box 7 with runing rest 2 fixed connection, and be located rare earth collect the box 7 with between runing rest 2, exhaust duct 8 with runing rest 2 fixed connection, and with body 1 switch-on, and be located two anode rod 5 top, exhaust duct 8 is light-tight pipeline, exhaust collecting tank 9 with exhaust duct 8 fixed connection, and be located body 1 one side.

In this embodiment, the rare earth metal electrolytic furnace comprises a body 1, a rotary bracket 2, a power source 3, a motor 4, two anode rods 5, a cathode rod 6, a rare earth collecting box 7, a pull rope 21, an exhaust gas duct 8 and an exhaust gas collecting tank 9, wherein the rotary bracket 2 is detachably connected with the body 1 and is positioned above the body 1, the rotary bracket 2 is made of iron or stainless steel, the rotary bracket 2 can completely seal the top of the body 1 to form a closed space, the power source 3 is fixedly connected with the body 1 and is positioned at one side of the body 1, the motor 4 is fixedly connected with the rotary bracket 2 and is connected with the power source 3 and is positioned at one side far from the body 1, the motor 4 is arranged above the rotary bracket 2, so as to avoid the influence of the exhaust gas and hot gas generated in the electrolytic process on the operation of the motor 4, the service life of the motor 4 is prolonged, two anode rods 5 are fixedly connected with the rotary bracket 2 and are positioned in the body 1, the two anode rods 5 are respectively placed at two sides close to the body 1, a carbon rod is generally adopted as the anode rod 5, the cost can be reduced, the anode rod 5 is provided with an anode rod bracket 51, the anode rod brackets 51 are positioned on the anode rods 5, the contact area between the anode rods 5 and electrolyte can be increased, the electrolytic efficiency is improved, the connection positions of the anode rod brackets 51 and the anode rods 5 are not fixed, the number of the anode rods 5 on one side or two sides can be determined according to the electrolytic requirement, the cathode rods 6 are fixedly connected with the output end of the motor 4 and are positioned between the two anode rods 5, the cathode rods 6 are provided with a plurality of cathode rod brackets 61, a plurality of the cathode bar supports 61 are located on the cathode bar 6, the cathode bar supports 61 are U-shaped, the cathode bar 6 is provided with a plurality of the cathode bar supports 61 and is in an inverted U-shape, so that the contact area between the cathode bar 6 and the electrolyte can be increased in the process of driving the cathode bar 6 to rotate by the motor 4, the electrolysis efficiency can be improved, the rotation of the cathode bar supports 61 can drive the electrolyte to rotate, the reduction of the electrolysis efficiency caused by the imbalance of the content of the electrolyte in different electrolysis periods can be further avoided, the rare earth collecting box 7 is detachably connected with the body 1 and is located in the body 1, the rare earth collecting box 7 is trapezoidal, when the electrolysis is stopped or the electrolysis is completed, when the electrolyte stops rotating, the rare earth metal generated in the electrolysis process can be caused by gravity, the rare earth collecting box 7 falls into the rare earth collecting box 7, the rare earth collecting box 7 is in a trapezoid shape with a long upper part and a short lower part, the electrolyzed rare earth can be completely collected, the rare earth can be conveniently deposited, the pull rope 21 is fixedly connected with the rare earth collecting box 7 and the rotating bracket 2 and is positioned between the rare earth collecting box 7 and the rotating bracket 2, the rare earth collecting box 7 is connected with the rotating bracket 2 through the pull rope 21, when the electrolysis is completed, the rotating bracket 2 is taken down, and meanwhile, the rare earth collecting box 7 is pulled upwards through pulling the pull rope 21, so that the rare earth metals obtained by electrolysis can be conveniently collected by workers, the time for collecting the rare earth metals is shortened, and the electrolysis efficiency is further improved; the waste gas guide pipe 8 with runing rest 2 fixed connection to be located two 5 tops of positive pole, waste gas collecting pit 9 with waste gas guide pipe 8 fixed connection, and with the switch-on of body 1, and be located body 1 one side positive pole 5 corresponds the top of runing rest 2, the corresponding air guide hole of seting up certain aperture size, and utilize waste gas guide pipe 8 connects the air guide hole, derive the waste gas that the electrolysis produced and the solid waste etc. that the waste gas brought the electrolytic furnace, reduce the pressure in the electrolytic furnace, guarantee the normal of instrument, and carry out the processing of waste gas through waste gas guide pipe 8 is with waste gas and solid waste leading-in the waste gas collecting pit 9 of special treatment, because the industry mainly adopts chloride system fused salt electrolysis to prepare rare earth metal, its waste gas is mainly chlorine, the waste gas conduit 8 is preferably a lightproof pipe to avoid the danger of explosion and the like, so that water and other liquids capable of dissolving chlorine can be placed in the waste gas collecting tank 9, meanwhile, solid wastes and the like in waste gas are absorbed, and the solution in which chlorine is dissolved can be applied to other industries, so that the utilization rate of industrial products is improved, and the environmental pollution is reduced.

Further, the rare earth metal electrolytic furnace still includes insulating piece 10, insulating piece 10 with runing rest 2 with body 1 fixed connection, and be located body 1 with runing rest 2 junction.

In this embodiment, rare earth metal electrolytic furnace still includes insulating piece 10, insulating piece 10 with runing rest 2 with body 1 fixed connection to be located body 1 with runing rest 2 junction adds insulating piece 10 can avoid circuit electric leakage on the runing rest 2 transmits to on the body 1, and then can avoid the staff to receive the condition of clicking.

Further, the body 1 comprises an outer shell 11, a water control layer 13 and a crucible 14, the crucible 14 is fixedly connected with the outer shell 11 and is located on one side of the outer shell 11, and the water control layer 13 is fixedly connected with the outer shell 11 and the crucible 14 and is located between the outer shell 11 and the crucible 14.

In the present embodiment, the body 1 includes an outer shell 11, a water control layer 13 and a crucible 14, the crucible 14 is fixedly connected to the outer shell 11 and is located on one side of the outer shell 11, the water control layer 13 is fixedly connected to the outer shell 11 and the crucible 14 and is located between the outer shell 11 and the crucible 14, the outer shell 11 is generally made of iron or stainless steel, and does not react with an electrolyte, the material of the crucible 14 does not affect the electrolysis process, and the crucible 14 has a certain insulation property, so as to ensure that the current is large and stable during the electrolysis process, and the electrolysis needs to be performed under a certain temperature condition, the temperature required for the electrolysis is ensured by adding the water control layer 13 between the outer shell 11 and the crucible 14, and the water control layer 13 is filled with water at the temperature required for the electrolysis, which is economical and environment-friendly, the environment is not polluted, and the method is easy to obtain, and the cost is reduced.

Further, the body 1 further comprises an asbestos layer 12, wherein the asbestos layer 12 is fixedly connected with the outer shell 11 and the water control layer 13 and is located between the outer shell 11 and the water control layer 13.

In this embodiment, body 1 still includes asbestos layer 12, asbestos layer 12 with shell body 11 with water accuse layer 13 fixed connection, and be located shell body 11 with between the water accuse layer 13 shell body 11 with increase between the water accuse layer 13 asbestos layer 12 can be used for alleviating the temperature on water accuse layer 13 passes through shell body 11 heat dissipation is gone out, the extension the heat preservation effect on water accuse layer 13 can avoid the staff to touch simultaneously when shell body 11, can not produce scald etc. because of the high temperature.

Further, the rare earth metal electrolytic furnace further comprises a temperature monitor 15, wherein the temperature monitor 15 is fixedly connected with the outer shell 11, connected with the power supply 3 and positioned at one side far away from the power supply 3.

In this embodiment, the rare earth metal electrolytic furnace further comprises a temperature monitor 15, for example, a temperature monitor 15 of model BD4523-TS, the temperature monitor 15 is fixedly connected to the outer shell 11 and connected to the power supply 3 at a side away from the power supply 3, and the temperature monitor 15 is fixed on the outer shell 11, and specifically monitors the temperature of the water in the facility water control layer 13 to ensure that the temperature of the water control layer 13 is always the temperature required for electrolysis.

Further, the rare earth metal electrolytic furnace further comprises a concentration detector 16, wherein the concentration detector 16 is connected with the power supply 3, fixedly connected with the outer shell 11 and positioned on one side far away from the power supply 3.

In the present embodiment, the rare earth metal electrolytic furnace further comprises a concentration detector 16, for example, a concentration detector 16 of MOR2000 type, wherein the concentration detector 16 is connected to the power supply 3, is fixedly connected to the outer shell 11, and is located at a side far from the power supply 3, the concentration detector 16 is used for detecting the concentration value in the electrolyte in the facility crucible 14, and when the concentration value is detected to be too low, the electrolysis can be stopped in time, the electrolyte can be replaced, and the electrolysis efficiency can be ensured.

Further, the rare earth metal electrolytic furnace further comprises an electrolyte inlet pipeline 17 and an electrolyte outlet pipeline 18, wherein the electrolyte inlet pipeline 17 and the electrolyte outlet pipeline 18 are fixedly connected with the crucible 14 and penetrate through the outer shell 11, the asbestos layer 12 and the water control layer 13 and are located on one side of the rotating support 2.

In this embodiment, the rare earth metal electrolytic furnace further includes an electrolyte inlet pipeline 17 and an electrolyte outlet pipeline 18, the electrolyte inlet pipeline 17 and the electrolyte outlet pipeline 18 are fixedly connected to the crucible 14, penetrate through the outer shell 11, the asbestos layer 12 and the water control layer 13, and are located on one side far away from the rotating bracket 2, when the electrolyte needs to be replaced, the existing electrolyte in the crucible 14 is released by the electrolyte outlet pipeline 18 below the rare earth collecting box 7, but before the electrolyte is released, the rare earth collecting box 7 needs to be taken out, and after the electrolyte is released, the electrolyte with the set concentration and the set amount is refilled from the electrolyte inlet pipeline 17 according to the electrolysis requirement.

Further, the rare earth metal electrolytic furnace further comprises a water inlet pipe 19 and a water outlet pipe 20, wherein the water inlet pipe 19 and the water outlet pipe 20 are fixedly connected with the water control layer 13, penetrate through the outer shell 11 and the asbestos layer 12 and are positioned on two sides of the outer shell 11.

In this embodiment, rare earth metal electrolytic furnace still includes inlet tube 19 and outlet pipe 20, inlet tube 19 with outlet pipe 20 with water accuse layer 13 fixed connection, and run through shell body 11 with asbestos layer 12, and be located shell body 11 both sides, the electrolytic furnace utilizes water accuse layer 13 carries out temperature control, mainly utilizes and distributes 1 both sides of body inlet tube 19 with outlet pipe 20 carries out the temperature control that flows, can guarantee the temperature of any place in the water accuse layer 13 is the same, and the temperature is invariable.

The utility model relates to a rare earth metal electrolytic furnace, which comprises a body 1, a rotary bracket 2, a power supply 3, a motor 4, two anode rods 5, a cathode rod 6, a rare earth collecting box 7, a pull rope 21, a waste gas conduit 8 and a waste gas collecting tank 9, wherein the rotary bracket 2 is detachably connected with the body 1 and is positioned above the body 1, the power supply 3 is fixedly connected with the body 1 and is positioned at one side of the body 1, the motor 4 is fixedly connected with the rotary bracket 2 and is connected with the power supply 3 and is positioned at one side far away from the body 1, two anode rods 5 are fixedly connected with the rotary bracket 2 and are positioned in the body 1, the anode rod 5 is provided with an anode rod bracket 51, a plurality of anode rod brackets 51 are positioned on the anode rod 5, the cathode rod 6 is fixedly connected with the output end of the motor 4, and is located between two anode rods 5, the cathode rod 6 has a plurality of cathode rod supports 61, a plurality of cathode rod supports 61 are located on the cathode rod 6, and the cathode rod supports 61 are U-shaped, the rare earth collecting box 7 is detachably connected with the body 1 and is located in the body 1, the rare earth collecting box 7 is trapezoidal, the pull rope 21 is fixedly connected with the rare earth collecting box 7 and the rotary bracket 2 and is located between the rare earth collecting box 7 and the rotary bracket 2, the exhaust gas duct 8 is fixedly connected with the rotary bracket 2 and is communicated with the body 1 and is located above the two anode rods 5, the exhaust gas collecting tank 9 is fixedly connected with the exhaust gas duct 8 and is located on one side of the body 1, and the cathode rod 6 and the cathode rod supports 61 are driven to rotate by the motor 4, and combines the anode bar bracket 51, increases the contact between the contact and the electrolyte, reduces the time for collecting rare earth by using the pull rope 21, and increases the waste gas guide pipe 8 and the waste gas collecting tank 9 to collect and treat the waste gas generated in the electrolytic process, thereby improving the electrolytic efficiency and reducing the environmental pollution.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (8)

1. The rare earth metal electrolytic furnace is characterized by comprising a body, a rotary support, a power supply, a motor, two anode rods, a cathode rod, a rare earth collecting box, a pull rope, a waste gas guide pipe and a waste gas collecting tank, wherein the rotary support is detachably connected with the body and is positioned above the body, the power supply is fixedly connected with the body and is positioned on one side of the body, the motor is fixedly connected with the rotary support and is connected with the power supply and is positioned on one side far away from the body, the two anode rods are fixedly connected with the rotary support and are positioned in the body, the anode rod is provided with an anode rod support, the anode rod supports are positioned on the anode rods, the cathode rod is fixedly connected with the output end of the motor and is positioned between the two anode rods, and the cathode rod is provided with a plurality of cathode rod supports, it is a plurality of the negative pole stick support is located on the negative pole stick, just the negative pole stick support is the U type, the tombarthite collect the box with the connection can be dismantled to the body, and be located in the body, the tombarthite is collected the box and is trapezoidal, the stay cord with the tombarthite collect the box with runing rest fixed connection, and be located the tombarthite collect the box with between the runing rest, the exhaust gas pipe with runing rest fixed connection, and with the body switch-on, and be located two the positive pole stick top, the exhaust gas pipe is light tight pipeline, the waste gas collecting pit with exhaust gas pipe fixed connection, and be located body one side.

2. The rare earth metal electrolytic furnace of claim 1 further comprising an insulating sheet fixedly attached to the rotary bracket and the body at the junction of the body and the rotary bracket.

3. The rare earth metal electrolytic furnace of claim 1, wherein the body includes an outer shell, a water control layer and a crucible, the crucible is fixedly connected to the outer shell and located at one side of the outer shell, and the water control layer is fixedly connected to the outer shell and the crucible and located between the outer shell and the crucible.

4. The rare earth metal electrolytic furnace of claim 3, wherein the body further comprises an asbestos layer fixedly attached to and between the outer shell and the water control layer.

5. The rare earth metal electrolytic furnace of claim 4, further comprising a temperature monitor fixedly attached to the outer shell and to the power source on a side remote from the power source.

6. The rare earth metal electrolytic furnace of claim 4 further comprising a concentration detector connected to the power source and fixedly connected to the outer case and located on a side away from the power source.

7. The rare earth metal electrolytic furnace of claim 4, further comprising an electrolyte inlet conduit and an electrolyte outlet conduit, wherein the electrolyte inlet conduit and the electrolyte outlet conduit are fixedly connected to the crucible, penetrate through the outer shell, the asbestos layer and the water control layer, and are located on a side away from the rotating bracket.

8. The rare earth metal electrolytic furnace of claim 4, further comprising a water inlet pipe and a water outlet pipe, wherein the water inlet pipe and the water outlet pipe are fixedly connected with the water control layer, penetrate through the outer shell and the asbestos layer, and are located on two sides of the outer shell.

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