KR101806461B1 - Lithium extraction unit - Google Patents

Abstract

The present invention relates to a lithium extraction device and, more specifically, to a lithium extraction device capable of having excellent pressure force for maintaining airtightness by being structurally stable and capable of extracting lithium from salt water in a short period of time while being less damaged or deformed due to the repeated lifting operation of an upper housing. The lithium extraction device according to the present invention comprises: a base unit; a closed chamber which is provided on the base unit and maintains airtightness; a salt water supply unit which is installed on the base unit and supplies salt water to the inside of the closed chamber; and a filtering unit which filters lithium from the salt water supplied to the inside of the closed chamber.

Description

[0001] Lithium extraction unit [0002]

More particularly, the present invention relates to a lithium extraction apparatus which is structurally stable and has excellent pressing force for maintaining airtightness, and which is capable of preventing lithium from leaking out of salt water in a short period of time The present invention relates to a lithium extraction apparatus capable of extracting lithium ions.

In general, lithium is widely used in various industries such as secondary batteries, glass, ceramics, alloys, lubricants, and pharmaceuticals. Lithium secondary batteries have recently attracted attention as a major power source for hybrid vehicles and electric vehicles. It is expected that the secondary battery will grow into a huge market that is 100 times larger than the conventional small battery market such as mobile phones and notebooks.

In addition, due to the global efforts to strengthen environmental regulations, the application fields of electronics, chemical, and energy as well as hybrid automobiles and electric vehicles have expanded to increase usage throughout the industry in the 21st century. Demand is expected to surge.

The lithium source includes minerals, brine or sea water. Among these minerals, spodumene, petalite and lepidolite, lithium is used as the lithium source. However, in order to extract lithium from minerals, it is necessary to perform processes such as flotation, high-temperature heating, pulverization, acid mixing, extraction, refining, concentration and precipitation, Energy consumption is expensive, and environmental pollution is severely caused by the use of acid in the process of extracting lithium.

In the case of recovering lithium from seawater, a technique of extracting lithium by adsorbing lithium selectively by injecting a recovering device containing an adsorbent into seawater is mainly performed, but the concentration of lithium contained in seawater is 0.7ppm, which is a problem in that the economical efficiency is low.

Due to these problems, lithium is mainly extracted from salt water. Salt water is produced from a natural salt lake, and salts such as lithium, Mg, Ca, B, Na and K are dissolved together.

The concentration of lithium contained in the brine is about 0.3 to 1.5 g / L, and lithium contained in the brine is extracted mainly in the form of lithium carbonate. The solubility of the lithium carbonate is about 13 g / L, The concentration of lithium carbonate in the brine is in the range of 1.59 to 7.95 g / L, which is lower than the solubility of lithium carbonate, so that the precipitated lithium carbonate is redissolved, so that the lithium recovery rate is very low .

Therefore, conventionally, in order to extract the salt-containing lithium into the form of lithium carbonate, the salt is pumped in a natural salt bath and evaporated in evaporation ponds of the open field. Then, the salt is spontaneously evaporated over a long period of time And then Mg, Ca, B, Na, K or the like is removed by precipitation of impurities and an amount of lithium carbonate solubility or more is precipitated to recover lithium.

However, such a conventional method takes a long time to evaporate and concentrate the salt water, resulting in a significant decrease in productivity. In the process of evaporating and concentrating the salt water, lithium precipitates in a salt form together with other impurities, There is a problem that usage is limited in the coming rainy season.

Korean Patent No. 10-1388548 Korean Patent No. 10-1361836

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a hermetically sealed chamber which is excellent in pressing force for maintaining airtightness, thereby preventing a packing portion located between upper and lower housings The purpose is to make it possible to do.

That is, the upper end portion of the upper housing is uniformly pressurized by a pressing member that operates in a link manner on both upper end portions of the upper housing of the hermetically closed chamber, so that the packing portion is not damaged by the pressure of the air to be injected, And to keep it.

Another object of the present invention is to uniformly distribute the salt water to the entire upper portion of the conveyor belt located inside the hermetically closed chamber so that the lithium contained in the salt water is uniformly distributed without being concentrated on one side.

Further, it is an object of the present invention to provide a conveyor belt having a rectangular box-shaped reinforcing frame, which can prevent the conveyor belt from sagging.

When the upper housing and the lower housing of the hermetically closed chamber are separated from each other, the upper housing is lifted by a cylinder installed in the lower housing. Thus, the inner pressure of the hermetically closed chamber can be prevented from being transmitted to the lower housing. .

According to an aspect of the present invention, there is provided a lithium extraction apparatus comprising a base, a hermetic chamber provided in the base and kept airtight, and a brine provided in the base to supply brine to the inside of the hermetic chamber. And a filtering unit for filtering lithium from the brine supplied to the inside of the hermetically closed chamber.

Here, the base includes a base frame mounted on the ground, a case provided on the base frame and having a discharge port formed on one side thereof and a discharge pipe provided on the lower side thereof, and an upper frame provided on the upper portion of the case. .

The hermetically sealed chamber is provided with a lower housing provided at a lower inner side of a case of the base part, and an upper housing provided with an upper part of the lower housing to cover.

Here, the lower housing is formed with a space on the inner side to open the upper part, a discharge pipe on the lower part, and a plurality of support members on the outer side.

Furthermore, the upper housing may have a space formed therein to open the lower portion thereof, and a support frame may be provided at the outer portion thereof.

In addition, a packing unit provided to maintain airtightness of the hermetic chamber is provided.

Here, the packing part includes a lifting cylinder provided on an upper part of a supporting member provided in a lower housing of the hermetically closed chamber, and an elevating member coupled to the cylinder rod of the lifting cylinder, And a support member coupled to a lower portion of a support frame provided on an upper housing of the hermetic chamber. The support member has an upper packing at a lower portion thereof.

Further, a locking part for fixing the upper housing of the hermetically closed chamber when the hermetically sealed chamber is lifted or lowered is further provided.

The locking unit includes a locking cylinder coupled to the base frame of the base unit. The locking unit includes a coupling member coupled to the cylinder rod of the locking cylinder. The coupling unit is coupled to the support frame of the upper housing. And a locking member formed with a binding hole to be released.

In addition, the present invention is characterized in that the hermetically sealed chamber is provided with a pressurizing portion for pressing the upper portion of the upper housing to maintain airtightness.

Here, the pressing portion includes a pressing cylinder provided on an outer side of the upper housing and rotatably coupled to the upper portion of the mounting member, and a pressing cylinder is formed on the outer side of the upper housing of the sealing chamber in a " The pressing members are connected to each other by a connecting shaft, and the pressing member provided at one end of the pressing member is fixedly coupled to the cylinder rod of the pressing cylinder.

Further, the pressing member includes a guide pipe fixed to both side portions of the upper housing, and a pivot shaft which is located on the inner side so as to protrude from both sides of the guide pipe and to which the central portion of the pressing member is fixed to both ends, .

The brine supply unit is provided with a main supply pipe installed in an upper frame of the base part and is connected to the main supply pipe and has a water supply pipe in which a lower part is located inside the upper housing of the hermetically closed chamber and a discharge hole is formed in the lower side part, And a distribution pipe provided at an inner upper end of the housing, the pipe being formed in a tubular shape and having a through hole to which a water supply pipe is connected so that a discharge hole of the water supply pipe is positioned inside.

The filtering unit may include a pair of main rollers positioned at both sides of the hermetically closed chamber in the longitudinal direction thereof and a pair of guide rollers positioned outside the lower end of the lower housing of the hermetically closed chamber, And a belt operation motor connected to any one of the pair of main belt rollers is provided with a mesh-shaped conveyor belt connected to the upper and lower housings of the hermetically sealed chamber, .

In this case, both sides of the conveyor belt are protruded to the outside of the upper and lower housings, and a guide member for guiding the chain is provided on the base frame of the base part.

Further, a plurality of support rollers for supporting the conveyor belt of the filtering unit are provided on the inner side of the lower housing.

In addition, a water spray nozzle for spraying water onto the conveyor belt is further provided.

The conveyor belt may further include a plurality of reinforcing members formed in a rectangular shape.

Further, the present invention is characterized by further comprising a compaction unit which is installed in the hermetically closed chamber and complements the filtered lithium from the filtering unit.

Here, the compaction unit is provided on the upper housing of the hermetically closed chamber, and includes a compaction cylinder having a cylinder rod positioned inside, and a compaction member coupled to the cylinder rod of the compaction cylinder.

According to the present invention having the above-described structure, the pressing force for maintaining the airtightness of the hermetically closed chamber is excellent, so that the packing portion located between the upper and lower housings from the inner pressure of the hermetically closed chamber can be prevented from being damaged or broken.

That is, the upper end portion of the upper housing is uniformly pressurized by a pressing member that operates in a link manner on both upper end portions of the upper housing of the hermetically closed chamber, so that the packing portion is not damaged by the pressure of the air to be injected, So that it can be maintained.

When the lithium contained in the brine is extracted, the brine is uniformly sprayed to the entire upper portion of the conveyor belt located inside the hermetically closed chamber.

Further, it is possible to prevent the sagging phenomenon of the conveyor belt by providing the reinforcing frame of the rectangular shape of the conveyor belt.

When the upper housing and the lower housing of the hermetically closed chamber are separated from each other, the upper housing is lifted by a cylinder installed in the lower housing, thereby preventing the inner pressure of the hermetically closed chamber from being transmitted to the lower housing have.

1 is a front view showing a lithium extraction apparatus according to the present invention.
2 is a plan view showing a lithium extraction apparatus according to the present invention.
3 is a side sectional view showing a lithium extraction apparatus according to the present invention.
4A and 4B show the hermetically sealed chamber of the present invention.
5 shows a packing part of the present invention.
Figure 6 shows the locking part of the invention.
7A to 7C are views showing the pressing portion of the present invention.
8 is a view showing the brine supply unit of the present invention.
9A to 9C show a filtering unit according to the present invention.
FIGS. 10A and 10B are diagrams showing the working relationship of the lithium extraction apparatus according to the present invention. FIG.

Hereinafter, a lithium extraction apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a front view showing a lithium extraction apparatus according to the present invention, FIG. 2 is a plan view showing a lithium extraction apparatus according to the present invention, FIG. 3 is a side sectional view showing a lithium extraction apparatus according to the present invention, FIG. 5 is a view showing a packing unit according to the present invention, FIG. 6 is a view showing a locking unit of the present invention, FIGS. 7A to 7C are views showing a pressing unit of the present invention, FIG. 8 is a view showing the brine supply unit of the present invention, and FIGS. 9A to 9C are views showing the filtering unit of the present invention.

1 to 9C, the lithium extraction apparatus 100 according to the present invention includes a base 110, a hermetic chamber 210 installed in the base 110 to maintain airtightness, A packing part 310 installed to maintain airtightness of the chamber 210; a brine supplying part 610 supplying brine to the inside of the hermetically closed chamber 210; a filtering part 300 for extracting lithium particles from the brine; (710).

Here, the base 110 includes a base frame 112 that is seated on the ground. The base frame 110 is provided with a space formed therein, a discharge port 122 formed on one side thereof, And a case 120 having a discharge pipe 124 at a lower side thereof.

Further, an upper frame 130, which is formed in an upper portion of the base frame 112 and has a pair of spaced apart at predetermined intervals, is coupled to the upper portion of the base frame 112 by means of bolt fastening means, Respectively.

The hermetically sealed chamber 210 is provided with a lower housing 212 fixed to the inside of the case 120 of the base 110 by using fixing means.

At this time, a space is formed in the lower housing 212 so as to open the upper part, a discharge pipe 214 is provided at one side of the lower housing 212 so as to protrude outside the case 120, and a plurality of supporting members 216 do.

Here, the upper housing 220 is provided with a space on the inner side thereof so that the lower portion of the lower housing 212 is covered and a lower portion thereof is opened, and a support frame 222 which is fixedly coupled to the outer side portion thereof by bolt fixing means .

The packing unit 310 is provided with a lifting cylinder 312 mounted on an upper portion of a supporting member 216 provided at the outer side of the lower housing 212 and fixed to the cylinder rod of the lifting cylinder 312 And a lower packing 316 is provided at an upper portion of the lifting member 314. The lower packing 316 is provided at the upper part of the lifting member 314.

At this time, the lower packing 316 is coupled and fixed to one side of the lifting member 314 to which the lower packing 316 is fixed by bolts or the like, and is formed in a shape of " And a cover member 318 covering the cover member 318 is provided.

A support member 320 is coupled to the lower portion of the support frame 222 provided at the outer side of the upper housing 220 so as to correspond to the lifting cylinder 312. Below the support member 320, An upper packing 322 is provided corresponding to the packing 316.

Therefore, the inside of the hermetically closed chamber 210 is kept air-tight by the lower packing 316 and the upper packing 322, and the cylinder rod is drawn out by the operation of the lifting cylinder 312, And the upper packing 322 is lifted up to the upper side so that the upper housing 220 is lifted upward.

A pressing portion 410 is provided to press the upper portion of the upper housing 220 so that airtightness is maintained when the upper housing 220 is seated on the upper portion of the lower housing 318.

The pressing part 410 includes a mounting frame 412 installed on the outer side of the upper housing 220 and a pressing cylinder 414 is rotatably mounted on the mounting frame 412.

A plurality of pressing members 416 are formed on the outer side of the upper housing 220 in the shape of a letter A. The plurality of pressing members 416 are connected to one ends of the pressing members 416 by a connecting shaft 418 The urging member 416 provided at a position close to the pressurizing cylinder 414 among the plurality of the joining members 416 is engaged and fixed to the cylinder rod of the pressurizing cylinder 414. [

The plurality of pressing members 416 may be disposed on both sides of the upper housing 220 so as to correspond to the pressing members 416 disposed on both sides of the upper housing 220 in the width direction A guide pipe 420 is provided so as to penetrate the guide pipe 420 and a pivot shaft 422 which is coupled to the inside in such a manner as to protrude from both sides of the guide pipe 420. The pushing member 416 Is fixedly engaged with the central portion of the frame.

Therefore, when the cylinder rod of the pressurizing cylinder 414 is pulled out, the pressing member coupled to the cylinder rod rotates together with the rotary shaft 422, and at the same time, the plurality of pressing members 416 The pressing member 416 provided on the other side of the upper housing 220 rotates in the same manner by the rotating shaft 422 so that the pressing member 416 rotates in the same direction as the upper portion of the upper housing 220 .

The upper housing 220 is lifted up by the operation of the lifting cylinder 312 provided on the outer side of the lower housing 212. When the upper housing 220 is lifted up, (Not shown).

The locking part 510 is provided with a locking cylinder 512 which is fixedly coupled to the base frame 112 of the base part 110 by means of a bolt or the like fixing means and the locking cylinder 512 is connected to the upper housing 220 As shown in Fig.

At this time, a binding member 514 which is fixed to the cylinder rod of the locking cylinder 512 is provided.

The coupling member 524 is coupled and fixed to the side surface of the support frame 222 of the upper housing 220 by a bolt or the like fixing means so that the coupling member 514 can be coupled and disengaged by the operation of the locking cylinder 512. [ A locking member 520 is formed.

Therefore, if the locking cylinder 512 is operated while the upper housing 220 is lifted up by the operation of the lifting cylinder 312, the cylinder rod is pulled out and is coupled to the binding hole 522 of the locking member 520 The member 514 is engaged and the upper housing 220 is maintained in an upwardly raised state.

In contrast, when the cylinder rod of the locking cylinder 512 is inserted, the coupling member 514 can be separated from the coupling hole 522 to lower the upper housing 220.

The brine supply unit 610 is provided in the upper frame 130 of the base unit 110 and includes a main supply pipe 612 for transferring the brine supplied from the tank 640 in which the brine is stored.

At this time, the main supply pipe 612 is provided with an automatic valve 614 for controlling the supply of saline water by shutting off or opening the main supply pipe 612 under the control of a control means (not shown).

One side of the main pipe 612 is fixedly coupled to the main pipe 612. The other side of the main pipe 612 passes through the upper portion of the upper housing 220 and is positioned inside. And a water supply pipe 620 having a hole 622 formed therein.

Accordingly, the brine that is moved through the main supply pipe 612 is supplied to the water supply pipe 620, and the salt water supplied to the water supply pipe 620 is discharged through the discharge hole 622 formed in the side portion.

Further, a through hole 632 is formed at the inner upper end of the upper housing 220 and formed in a tubular shape and has a central portion through which the water supply pipe 620 passes, and a plurality of through holes (not shown) A pipe 630 is provided.

At this time, the discharge hole 622 of the water supply pipe 620 coupled to the through hole 632 of the distribution pipe 630 is coupled and fixed inside the distribution pipe 630.

Therefore, the brine discharged through the discharge hole 622 of the water supply pipe 620 flows through the distribution pipe 630 and is discharged to the lower portion through a through hole (not shown), so that the brine is not concentratedly supplied to any one place, And distributed.

When the upper housing 220 is lifted up, the water supply pipe 620 is fixed and the dispensing pipe 630 is lifted up to the upper part of the upper housing 220. At this time, The distribution pipe 630 can be easily moved up and down according to the guide of the water supply pipe 620 connected to the through hole 632.

The filtering unit 710 includes a pair of main rollers 712 disposed at front and rear portions of the hermetically closed chamber 210 in the longitudinal direction and positioned at a boundary between the lower housing 212 and the upper housing 220, .

Here, a pair of guide rollers 714 are provided on the lower end of the hermetically closed chamber 210 so as to correspond to each other on the lower end where the pair of main rollers 712 are installed.

The conveyor belt 716 is connected to the main roller 712 and the guide roller 714 in an endless track so that the conveyor belt 716 is formed in a net shape so that the upper portion of the conveyor belt 716 is connected to the lower housing 212, And passes through the space between the housings 220.

At this time, the conveyor belt 716 is provided with a reinforcing member 718 which is formed in a rectangular shape and is fixedly coupled to the upper and lower portions of the conveyor belt 716.

The brine supplied from the brine supply unit 610 is sprayed on the upper part of the conveyor belt 716 and the lithium is filtered from the brine sprayed by the conveyor belt 716 to accumulate lithium on the upper part of the conveyor belt 716 do.

The conveyor belt 716 is made wider than the width of the hermetically closed chamber 210 so that the conveyor belt 716 protrudes from both sides between the lower housing 212 and the upper housing 220 and has a chain 720 at both ends thereof. The chain 720 is guided by a plurality of guide members 722 provided on the base frame 112.

That is, the guide member 722 is formed with a guide hole 724 in which the chain 720 is bound to the base frame 112, and is fixedly coupled to the base frame 112 by a bolt or the like fixing means. The support 726 is provided with a support 728 having a conveyor belt 716 at the same height as the axis of the chain 720. The support 726 is provided with a support 726, The conveyor belt 716 is fixed to the upper portion of the conveyor belt 728 by means of bolt fixation means.

Further, a belt operation motor 730 installed in the case 120 and connected to any one of the pair of main rollers 712 to transmit power is provided.

Accordingly, the conveyor belt 716 is operated by the operation of the belt operation motor 730 so that the lithium accumulated on the upper portion is discharged through the discharge port 122 of the case 120.

A plurality of support rollers 740 are provided inside the hermetically closed chamber 210 to prevent the conveyor belt 716 from sagging.

A plurality of water injection nozzles 750 installed inside the case 120 for discharging lithium by spraying water onto the conveyor belt 716 to remove foreign substances such as lithium remaining on the conveyor belt 716 do.

Therefore, the lithium accumulated on the conveyor belt 716 is discharged through the discharge port 122 formed in the case 120 by the operation of the conveyor bet 716, and the lithium or the like remaining on the conveyor belt 716 And is removed by the water to be sprayed through the water spray nozzle 750.

A compaction unit 810 is provided in the upper housing 220 of the hermetic chamber 210 to prevent cracking during the filtering of lithium accumulated on the conveyor belt 716.

Here, the compaction unit 810 is installed on the upper portion of the upper housing 220, and a compaction cylinder 812 is provided so that the cylinder rod is positioned inside the upper housing 220.

Further, a compaction member 814, which is fixedly coupled to the cylinder rod of the compaction cylinder 812 and is arranged on the upper portion of the conveyor belt 716 by pulling or inserting the cylinder rod, is provided.

Therefore, in order to prevent cracking of lithium accumulated in the process of removing moisture from the lithium filtered by the conveyor belt 716, the compaction cylinder 812 is periodically operated to remove lithium accumulated in the compaction member 814 It will be done.

The operation of the thus configured lithium extraction apparatus according to the present invention will be described below.

10A and 10B illustrate the operation of the lithium extraction apparatus according to the present invention.

The lithium extraction apparatus 100 according to the present invention firstly brings the lower housing 212 and the upper housing 220 of the hermetic chamber 210 into close contact with each other while the lower packing 316 and the upper packing 322 Are kept in close contact with each other so that the hermeticity of the hermetic chamber 210 is maintained.

The upper packing 322 is brought into close contact with the lower packing 316 by pressing the upper part of the upper housing 220 using the pressing member 416 of the pressing part 410, The airtightness of the air conditioner can be maintained.

Therefore, the upper housing 220 is maintained in a tightly adhered state without falling or torsion from the lower housing 212 due to the pressure generated inside the hermetically closed chamber 210.

An upper section of the conveyor belt 716 is positioned between the lower housing 212 and the upper housing 220 of the hermetically closed chamber 210.

In this state, when the brine is supplied to the inside of the hermetically closed chamber 210 through the brine supply unit 610, the brine is filtered through the salt water in the process of passing the belt 716 through the conveyor, The brine having passed through the belt 716 is discharged to the outside through the discharge pipe 214 of the lower housing 212.

At this time, filtering is performed through the conveyor belt 716 by the weight of the brine flowing into the inside of the hermetically closed chamber 210, and additional air pressure is applied to the hermetically closed chamber 210 to further increase the filtering effect The filtering is performed by the pressing force.

Air supply means (not shown) is provided at a position of the brine supply portion 610 to which the brine is supplied in order to apply the air pressure to the inside of the hermetic chamber 210.

Meanwhile, it is preferable that the air pressure is sufficiently applied to the upper portion of the conveyor belt 716 so that the filtered lithium can be easily discharged, thereby maximally removing moisture from the lithium.

When the lifting cylinder 312 is operated in a state where lithium is extracted from the brine introduced into the hermetically closed chamber 210, the lifting member 314 rises while the cylinder rod is drawn out. At this time, the upper housing 220 The upper packing 322 and the upper housing 200 provided at the upper portion of the upper housing 200 simultaneously rise upward.

When the locking cylinder 414 is operated while the upper housing 220 is raised upward, the cylinder rod is drawn out and the binding member 416 is engaged with the binding hole 522 of the locking member 520, Thereby fixing the housing 220 in an upwardly raised state.

The lower packing 316 is returned to its original position by inserting the cylinder rod of the lifting cylinder 312 while the upper housing 220 lifted up by the locking portion 510 is fixed.

When the conveyor belt 716 is moved at a predetermined pitch in this state, the dried lithium on the conveyor belt 716 is removed from the conveyor belt 716 during the movement of the conveyor belt 716, And the conveyor belt 716 on the new side is positioned inside the hermetically closed chamber 210.

At this time, the portion of the conveyor belt 716 from which the lithium is removed is retained by the water sprayed through the water injection nozzle 750 provided inside the case 120 in the process of rotating the conveyor belt 716 in an endless track Lithium and the like are removed, and the sprayed water is discharged to the outside through the discharge pipe 124 of the case 120.

Accordingly, the conveyor belt 716 repeatedly changes the position of filtering by orbital motion, thereby repeating filtering and regeneration by the method as described above.

By extracting lithium contained in the brine by such a method, the time for extracting lithium can be shortened, and a large amount of lithium can be extracted in a short time.

Meanwhile, although the lithium extraction apparatus 100 according to the present invention is described as an example of filtering lithium from brine, the present invention is not limited thereto, and the rolling or grinding oil containing iron may be filtered.

Although the preferred embodiments of the lithium extraction apparatus according to the present invention have been described above, the present invention is not limited thereto, and various modifications may be made within the scope of the claims, the detailed description of the invention, and the accompanying drawings. And this is also within the scope of the present invention.

100: lithium extraction device 110: base part
112: base frame 120: case
122, 214: discharge port 124: discharge pipe
130: upper frame 210: sealing chamber
212: Lower housing 216: Support member
220; Upper housing 222: support frame
310: packing part 312: lifting cylinder
314: lifting member 316: lower packing
318: cover member 320: supporting member
322: Upper packing 410:
412: installation frame 414: pressure cylinder
416: pressing member 418: connecting shaft
420: guide tube 422:
510: locking part 512: locking cylinder
514: binding member 520: locking member
522: binding hole 610: brine supply part
612: Main supply pipe 614: Automatic valve
620: Water pipe 622: Exhaust hole
630: Distribution pipe 632: Through hole
710:
712: Main roller 714: Guide roller
716: Conveyor belt 718: Reinforcing member
720: chain 722: guide member
724: Guide ball 726: Connector
728: Grid 730: Belt-actuated motor
740: Supporting roller 750: Water injection nozzle
810: Compaction unit 812: Compaction cylinder
814: Compaction member

Claims (20)

In the lithium extraction apparatus,
A base portion,
A hermetically sealed chamber provided in the base and kept air-
A brine supply unit installed in the base unit for supplying brine to the inside of the hermetically closed chamber,
A filtering unit for filtering lithium from the brine supplied to the inside of the hermetically closed chamber,
And a compaction unit installed in the hermetically closed chamber for condensing the filtered lithium from the filtering unit. The method according to claim 1,
Wherein the base portion is provided with a base frame that is seated on the ground,
A case having a discharge port provided on one side thereof and a discharge pipe provided on the lower side thereof,
And an upper frame provided on an upper portion of the case. The method according to claim 1,
The hermetically sealed chamber is provided with a lower housing installed at the lower inner side of the case of the base portion,
And an upper housing provided with an upper portion of the lower housing to be covered. The method of claim 3,
Wherein the lower housing has a space formed on an inner side thereof to open the upper portion thereof, a discharge tube is provided on a lower portion thereof, and a plurality of support members are provided on the outer side thereof. The method of claim 3,
Wherein the upper housing has a space formed on an inner side thereof to open the lower portion thereof and a support frame on the outer side thereof. The method according to claim 1,
And a packing unit installed to maintain airtightness of the hermetic chamber. The method according to claim 6,
The packing part is provided with a lifting cylinder provided on an upper part of a supporting member provided in a lower housing of the hermetically closed chamber and includes a lifting member fixedly coupled to a cylinder rod of the lifting cylinder, And,
And a support member coupled and fixed to a lower portion of a support frame provided in an upper housing of the hermetic chamber, wherein an upper packing is provided at a lower portion of the support member. The method according to claim 1,
Further comprising a locking portion for fixing the upper housing of the hermetically closed chamber when the hermetically sealed chamber is lifted or lowered. 9. The method of claim 8,
Wherein the locking portion is provided with a locking cylinder which is engaged with and fixed to the base frame of the base portion,
And a coupling member coupled to the cylinder rod of the locking cylinder,
And a locking member coupled to the support frame of the upper housing and having a coupling hole for coupling and disengaging the coupling member. The method according to claim 1,
And a pressurizing unit that pressurizes the upper housing of the hermetically closed chamber to maintain airtightness. 11. The method of claim 10,
Wherein the pressing portion is provided with an attachment member provided on an outer side of the upper housing,
And a pressure cylinder rotatably coupled to the upper portion of the mounting member,
A plurality of pressing members formed in an "a" shape on the outer side of the upper housing of the hermetically closed chamber, the pressing members being connected to each other by a connecting shaft, and the pressing member provided at one end of the hermetically- The lithium extraction device being characterized in that: 12. The method of claim 11,
The pressing member includes a guide tube fixed to both side portions of the upper housing. The pressing member is located inside the guide tube so as to protrude from both sides of the guide tube. Lt; / RTI > The method according to claim 1,
Wherein the brine supply unit includes a main supply pipe installed in an upper frame of the base,
A water supply pipe coupled to the main supply pipe and having a lower portion located inside the upper housing of the hermetically closed chamber and a discharge hole formed on the lower side portion thereof,
And a distribution pipe provided at an inner upper end of the upper housing and formed in a tubular shape and having a through hole to which a water supply pipe is connected so that a discharge hole of the water supply pipe is located inside. The method according to claim 1,
Wherein the filtering unit is provided with a pair of main rollers located on both sides in the longitudinal direction of the hermetically closed chamber,
A pair of guide rollers positioned outside the lower end of the lower housing of the hermetically closed chamber,
Shaped conveyor belt connected to the main roller and the guide roller and having an upper portion passing between upper and lower housings of the hermetically closed chamber,
And a belt operation motor connected to any one of the pair of main belt rollers. 15. The method of claim 14,
Wherein both sides of the conveyor belt are protruded to the outside of the upper and lower housings,
And a guide member for guiding the chain is provided on the base frame of the base portion. 15. The method of claim 14,
And a plurality of support rollers for supporting the conveyor belt of the filtering unit are provided on the inner side of the lower housing. 15. The method of claim 14,
And a water spray nozzle for spraying water onto the conveyor belt. 15. The method of claim 14,
Wherein the conveyor belt further comprises a plurality of reinforcing members formed in a square shape. delete The method according to claim 1,
Wherein the compaction unit is provided on an upper housing of the hermetically closed chamber and includes a compaction cylinder having a cylinder rod positioned inside,
And a compaction member coupled to the cylinder rod of the compaction cylinder.

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