KR100784904B1 - Apparatus for extracting a process oil from synthetic resin sheet for cell seperator - Google Patents

Abstract

An apparatus for extracting a process oil from a synthetic resin sheet for battery separators is provided to obtain effects of a plurality of extraction tanks by using one extraction tank only and maximize the extraction efficiency by performing an apparatus setting operation for initiating the process in a very easy manner. An apparatus for extracting a process oil from a synthetic resin sheet for battery separators comprises: an extraction tank body(10) in which a solvent(13) for extracting the process oil is contained, and which has a sheet inflow part(11) installed at one side thereof, and a sheet outflow part(12) installed at the other side thereof; a cover(15) that covers an inner part of the extraction tank body; a plurality of compartments(140) which are formed by a plurality of partitions(14), in which a solvent is isolated and contained, and which are arranged in the transfer direction of a continuous sheet(100), wherein the plurality of partitions are formed on a bottom part of the extraction tank body and have a height corresponding to that of the cover or less; a plurality of upper rolls(191) which are arranged in an upper part within the extraction tank body and disposed to support upward a continuous sheet that flows in through the sheet inflow part and flows out through the sheet outflow part; and a plurality of lower rolls(192) for guiding the continuous sheet such that the continuous sheet passes through the compartments in a state that portions of the continuous sheet between the upper rolls are dipped into the solvent contained in the respective compartments.

Description

Process oil extraction device of synthetic resin sheet for battery separator {APPARATUS FOR EXTRACTING A PROCESS OIL FROM SYNTHETIC RESIN SHEET FOR CELL SEPERATOR}

1 is a cross-sectional view schematically showing a process oil extraction apparatus of a conventional resin sheet for a battery separator.

Figure 2 is a schematic cross-sectional view showing a part of the process oil extraction device of the synthetic resin for battery separator according to the present invention.

3 is a view of the side as shown in Figure 2 showing a state including a lift.

4 is a cross-sectional view showing a part of a process oil extraction apparatus of a synthetic resin for a battery separator according to the present invention.

※ Explanation of code about main part of drawing ※

10 Dispenser Body 11 Seat Entry

12 Sheet taking out part 13 Solvent

14 bulkhead 140 compartment

15 Cover 151 Support member

171 Solvent inlet 172 Solvent outlet

18 flow tube 191 upper roll

192 Lower Roll 20 Lifts

The present invention relates to a technical field for manufacturing a synthetic resin sheet for a battery separator, and more particularly to a process oil extraction device for extracting the process oil contained in the sheet while transferring the extruded synthetic resin in a continuous sheet state It is about.

The battery separator is a porous sheet used as a physical separation between the positive electrode and the negative electrode and an electronic insulating material. In general, a battery separator is formed into a continuous sheet by extrusion molding a mixture including silica, polyolefine, process oil, and the like, followed by extracting process oil from the continuous sheet using a solvent, and then drying the solvent of the continuous sheet and It is manufactured through a recovery process.

In particular, in order to extract the process oil, a method of extracting the process oil by dipping an extruded continuous sheet in an extraction tank containing a solvent is widely used.

For example, a conventional process oil extraction apparatus which has been commonly used is shown in FIG. 1. The conventional extractor extracts process oil by allowing the continuous sheet 1 to be immersed in the solvent 3 while passing the extruded continuous sheet 1 through the extraction tank 2 containing the solvent 3. The extraction tank 2 is kept airtight by the lid 4. However, in the conventional extraction apparatus, since the solvent 3 is accommodated in one extraction tank 2 at once, the extraction efficiency is inevitably deteriorated. That is, the solvent 3 in the extraction tank 2 has only one immersion effect because the whole has the same component state. Therefore, perfect extraction is difficult, and to overcome such disadvantages, the immersion state must be maintained for a relatively long time. This inevitably increases the process time.

In order to alleviate this drawback, a method of passing a plurality of extraction tanks has been applied, but this basically complicates the configuration of the apparatus. Moreover, devices with such a complex configuration have in common that the task of setting the continuous sheet for process initiation is very difficult.

The present invention has been made in view of the problems of the conventional apparatus as described above, the effect of having a plurality of extraction tank as a single extraction tank, and also for the battery separator for maximizing the efficiency by very easy setting for the start of the process The purpose is to provide a process oil extraction device of a synthetic resin.

The apparatus of the present invention for achieving the above object is a device for transferring a synthetic resin for battery separator in a continuous sheet state and extracting the process oil: a solvent for the process oil extraction is accommodated, the seat inlet is installed on one side An extraction tank body having a sheet withdrawing portion at the other side; A cover covering the interior of the brew body; A plurality of compartments formed by a plurality of partitions having a height below the cover height in the bottom portion of the extraction tank body, comprising: a plurality of compartments each separately containing the solvent and arranged in the conveying direction of the continuous sheet; A plurality of upper rolls arranged in an upper portion of the extraction tank body and arranged to support a continuous sheet drawn into the sheet inlet and drawn out to the sheet extractor in an upward direction; And a plurality of lower rolls guiding the continuous sheet portion between the upper rolls to immerse and pass through the solvent in each compartment.

Such a configuration can provide the effect of having a plurality of extraction tanks by a relatively simple configuration by having a plurality of compartments in one extraction tank.

Preferably, the plurality of lower rolls is elevable by the elevating portion, and each of the lower rolls is lowered between the upper rolls on the sheet supported by the plurality of upper rolls to immerse the continuous sheet of the portion in the solvent of each compartment.

This configuration allows the setting to be completed with a simple operation of passing the continuous sheet over the upper rolls at the beginning of the extraction process and lowering the lower roll between the upper rolls.

Preferably, each of the plurality of lower rolls is supported on the lid by a respective bar-shaped support member fixed to the lid, and is allowed to be raised and lowered simultaneously with the lid by the lifting portion.

This arrangement likewise makes the setting work for process initiation very simple.

In addition, the solvent inlet is preferably installed on the sheet pull-out side of the body; And a solvent discharge part installed at the sheet inlet side of the body, the solvent is sequentially introduced through the solvent inlet part and sequentially filled from the compartment adjacent to the sheet outlet part to the compartment adjacent to the sheet inlet part, and discharged through the solvent discharge part.

Here, preferably further, a flow pipe is connected from the top of each compartment to the bottom of the next compartment such that the solvent flows into the next compartment after filling the volume of each compartment.

Such a configuration allows the solvent in each compartment to have a difference sequentially from the withdrawal side, which gives the effect of passing through several extraction tanks, thereby enabling perfect extraction.

In addition, a transparent window is further formed on at least one of the sidewalls of the extraction tank body and the upper surface of the cover.

This configuration makes it easy to see the progress of the operator's interior and further eliminates any process disturbances that may occur in advance.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a schematic cross-sectional view showing a preferred embodiment of the process oil extraction device of the synthetic resin for battery separator according to the present invention. FIG. 3 is a side view of FIG. 2 and shows a state including a lift unit. 4 is a cross-sectional view showing a part of a process oil extraction device for a synthetic resin for a battery separator of the present invention.

A preferred embodiment according to the present invention is a device for transferring a process oil while transferring a synthetic resin for a battery separator in a continuous sheet 100. Synthetic resin for a battery separator applied to the present invention is generally produced by the continuous sheet 100 by extrusion molding a mixture containing silica, polyolefin-based, process oil and the like. However, even if it contains other components, the synthetic resin continuous sheet for all battery separators to extract the process oil may be applicable.

Referring to the drawings, the apparatus of the present invention includes an extraction tank body 10 is provided with a sheet inlet portion 11 is installed on one side and a sheet takeout portion 12 on the other side. A thin slit 11 is formed in the sheet inlet portion 11 and the sheet takeout portion 12 to maintain the airtightness in the extraction tank body 10 as much as possible, through which the continuous sheet 100 is drawn in or drawn out. The cover 15 is disposed on the top of the extraction tank body 10 to cover the inside of the extraction tank body 10 to be hermetically sealed. For sealing, a structure for forming a water support 161 containing water around the body 10 and forming a protrusion 162 at a portion of the cover 15 corresponding thereto may be used. When the cover 15 is covered, the protrusion 162 is submerged in the water of the drip tray 161 to maintain airtightness.

 A solvent 13 for extracting process oil is contained in the brew body 10. Specifically, the solvent 13 is mutually isolated from the plurality of compartments 140 formed by the plurality of partitions 14. The partition 14 is preferably installed to have a height equal to or less than the height of the lid 15 at the bottom of the extraction vessel body 10. As can be seen in the figure, the continuous sheet 100 is conveyed through the space between the lid 15 and the partition 14. In addition, the partitions 140 are arranged in the conveying direction of the continuous sheet 100 by the partitions 14.

In general, the solvent 13 may be a hydrocarbon-based flammable solvent such as solvent, but other chlorine-based solvents may be used. In order to supply the solvent 13 into the body 10, a solvent inlet 171 is installed on the sheet take-out part 12 side of the body 10.

In addition, a solvent discharge part 172 is installed at the sheet inlet part 11 side of the body 10 to discharge the solvent 13. Preferably, the solvent inlet 171 is installed in the lower portion of the body 10 so that the solvent 13 is supplied from below. In addition, the solvent discharge portion 172 is preferably installed on the upper portion of the extraction tank body 10 to be discharged from the upper portion of the solvent (13).

The solvent 13 introduced through the solvent inlet 171 fills from the compartment 140 adjacent to the sheet lead-out unit 12, and then fills the compartments 140 sequentially connected to each other, and finally, the sheet inlet 11. And to the adjacent compartment 140. To this end, preferably from the top of each compartment 140 to the bottom of the next compartment 140, so that the solvent 13 fills a quantity of each compartment 140 and then flows into the next compartment 140. And a flow pipe 18 to be provided.

In this embodiment, the flow pipe 18 is installed on the outer wall of the extraction tank body 10 and communicated with the compartments 140 through the outer wall. However, there is no restriction in the installation position of the flow pipe 18, and as long as it is a structure which fills the next compartment 140 after filling the quantity of each compartment 140 as mentioned above, it is all possible.

Alternatively, the partition 14 may be sequentially lowered from the sheet lead portion 12 so that the solvent 13 may be overflowed.

A plurality of upper rolls 191 are arranged and arranged on an upper portion of the extraction tank body 10. The continuous sheet 100 drawn into the sheet inserting portion 11 and drawn out to the sheet drawing portion 12 is supported from below to up. Although some or all of these upper rolls 191 may be rolls driven by themselves by power, the continuous sheet 100 is conveyed by an external winding roll (not shown) and the upper roll 191 is guided and It may also play the role of support. In practice, the continuous sheet 100 drawn out to the sheet take-out part 12 is subsequently sent to a stripper which is a solvent removing device. To this end, the seat inlet 11 is generally installed in a hermetic duct form to connect the two devices.

In addition, the sheet portion between the upper rolls 191 includes a plurality of lower rolls 192 that are immersed in and guided through the solvent 13 in each compartment 140. If the upper rolls 191 support the continuous sheet 100 upwards, these lower rolls 192 support the continuous sheet 100 between the upper rolls 191 downward.

In addition, the lower rolls 192 are preferably installed to be liftable by the lifting unit 20 as shown in FIG. 3.

More preferably, each of the lower rolls 192 is supported on the lid 15 through a respective bar-shaped support member 151 fixed to the lid 15, and is covered by the lifting portion 20. And ascend at the same time. Accordingly, as the lower rolls 192 descend between the upper rolls 191, the continuous sheet 100 of the portion is immersed in the solvent 13 of each compartment 140.

Also, as shown in FIG. 4, a plurality of upper rolls 191 are installed in the horizontal area of each compartment 140, and a plurality of lower rolls 192 descending between the upper rolls 192 are also provided. It is good to install so that the continuous sheet 100 is immersed one or more times in each compartment 140. This is because it has the effect of increasing the immersion time by that much.

Lift 20 is omitted in FIG. 2 for ease of understanding and is shown in FIG. 3. Referring to FIG. 3, the lifting unit 20 is, for example, a frame 21 installed around the extraction tank body 10, two or more vertical guide rods 22 installed on the frame 21, and a guide rod ( 22 may be implemented as a combination of the sliding member 23 which is moved up and down and connected to the cover 15 and the driving unit 24 which moves the sliding member 23 up and down. However, the lifting unit 20 is not limited to the above-described example, and includes all configurations capable of lifting up and down the lid 15 and the support member fixed to the lid and the lower roll 192. Also, for clarity, FIG. 3 shows the extraction tank body 10 in cross section.

In addition, although not shown, in a preferred embodiment of the present invention, the transparent window may be installed on at least one of the outer walls of the extraction tank body 10 and the upper surface of the cover 15. The transparent window may be installed on all or part of the side wall and the cover. Through this transparent window, the worker's internal progress will be easily understood, and if a problem occurs, the corrective action will be promptly taken.

The process oil extraction apparatus of the synthetic resin sheet for battery separator of the present invention is operated as follows. First, to start the process, the extruded synthetic resin continuous sheet 100 is set while the lid 15 and the lower rolls 192 supported thereon are raised. Setting is almost complete with a simple operation of drawing the continuous sheet 100 into the sheet inlet 11, passing it over the upper roll 191, and withdrawing to the sheet takeout 12.

Subsequently, the lid 15 and the lower roll 192 supported thereon are lowered so that the portion of the continuous sheet 100 between the upper rolls 191 descends along the lower roll 192. The cover 15 is placed in place to hermetically seal the inside of the brew body 10.

In this way, the solvent 13 is introduced through the solvent inlet 171 in the state in which the interior of the extraction tank body 10 is hermetically sealed. The introduced solvent 13 sequentially fills the next compartments 140 sequentially from the solvent inlet 171 and the adjacent compartment 140.

Subsequently, the continuous sheet 100 is transferred through the transfer means in the state of being immersed in the solvent 13, and the process oil of the continuous sheet 100 is extracted by the substitution by the solvent 13. At this time, the solvent 13 continues to flow, and in particular, since the conveyance direction of the continuous sheet 100 and the flow direction of the solvent 13 are generally opposite directions, the effect of substitution extraction of the process oil by the solvent becomes higher. The continuous sheet 100 drawn out to the sheet taking-out part 13 is drawn into a continuous solvent stripper through a hermetic duct (not shown) as described above.

The process oil extraction device of the synthetic resin continuous sheet for battery separator of the present invention has the advantage that the effect of a plurality of extraction tanks as one extraction tank. Furthermore, the process oil extracting apparatus of the present invention can be said to have a very high industrial applicability in that the above-described effects can be obtained with a relatively simple configuration. In addition, the structure of the hydrolyzate extracting apparatus of the present invention has a configuration in which setting work for process start is very easy. This configuration also does not require complex work when dismantling for maintenance or resetting after repair.

Claims (7)

A device for extracting process oil while transferring a synthetic resin for a battery separator in a continuous sheet state: An extraction tank body in which the solvent for extracting the process oil is accommodated, a sheet inlet is installed at one side, and a sheet outlet is installed at the other side; A cover covering an interior of the extraction tank body; A plurality of compartments formed by a plurality of partitions having a height less than or equal to a cover height at a bottom portion of the extracting tank body, each of which comprises a plurality of compartments separately containing the solvent and arranged in the conveying direction of the continuous sheet; A plurality of upper rolls arranged in an upper portion of the extraction tank body and arranged to support a continuous sheet drawn into the sheet inlet and drawn out to the sheet extractor in an upward direction; And A continuous sheet portion between the upper rolls includes a plurality of lower rolls that are immersed in and guided through the solvent in each compartment, the plurality of lower rolls being elevable by an elevating portion, each of the lower rolls being multiple A process oil extraction device for a synthetic resin sheet for a battery separator, characterized in that it is configured to descend between the upper rolls on a sheet supported by two upper rolls to immerse a sheet of the portion in the compartment solvent. delete The method of claim 1, Each of the plurality of lower rolls is supported by each bar-shaped support member fixed to the cover, and the process oil extraction of the synthetic resin sheet for a battery separator, which is lifted and simultaneously with the cover by the lifting unit. Device. The method according to claim 1 or 3, A solvent inlet part installed at the sheet outlet part side of the body; And Including a solvent discharge portion installed on the sheet inlet side of the body, The solvent is introduced through the inlet portion is sequentially filled from the compartment adjacent to the outlet portion to the compartment adjacent to the sheet inlet portion, the process oil extraction device of the synthetic resin sheet for a battery separator, characterized in that discharged through the solvent discharge portion. The method of claim 4, wherein And a flow pipe connected from the top of each compartment to the bottom of the next compartment so that the solvent flows into the next compartment after filling the quantity of each compartment. The method of claim 1, Process oil extraction apparatus of a synthetic resin sheet for a battery separator, the transparent window is further formed on at least one of at least one of the side walls of the extraction tank body and the top surface of the cover. The method of claim 1, The cover is a process oil extraction device of a resin sheet for a battery separator, characterized in that the edge of the cover is locked to the channel formed on the top of the extraction tank body to seal the inside of the extraction tank body.

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