[1]Mutual citations and related applications
[2]This application claims the benefit of priority based on the date of 23 June 2017 Korea Patent Application No. 10-2017-0079777, and all information disclosed in the literature of the Korea patent application are included as part of the specification.
[3]Art
[4]The present invention relates to a laminated system comprising relates to a laminate system comprising a plasma generating device, and he secondary battery, particularly a secondary battery to form a plasma generating a patterned adhesive layer on the membrane surface and unit him.
BACKGROUND
[5]
In general, a secondary battery (secondary battery), unlike primary batteries that can not be charged refers to a cell capable of charging and discharging, such secondary batteries are widely used in high-tech electronic apparatus fields such as phones, notebook computers, and camcorders.
[6]
Wherein the secondary battery includes an electrode assembly of a can type secondary battery with the electrode assembly is classified as a pouch-shaped secondary battery incorporated in the pouch, the pouch type secondary battery includes an electrode assembly, electrolyte, and the electrolyte the electrode assembly incorporated in the metal can and a pouch for receiving the. And the electrode assembly is an anode and a cathode arranged across the membrane, each of said anode and cathode and the electrode tap is attached, wherein the electrode tab is coupled to each of the electrode leads.
[7]
On the other hand, the above-described secondary battery proceeds to the lamination process to enhance the adhesion of the stacked electrode assembly of an anode, a cathode separator.
[8]
However, the above-described secondary battery is excellent in adhesion of the positive electrode, separator and negative electrode by a lamination process castle, but increase, also the electrolyte chimryeok was significantly lowered. In particular mothamyeo the gas produced between an anode and a cathode and a separator or membrane is not smoothly discharged, the result was a difficulty in securing the electrode assembly having a uniform quality.
Detailed Description of the Invention
SUMMARY
[9]
An object of the present invention for solving the above problems is a lamination system including when the positive electrode, separator and an adhesive strength of the negative electrode, chimryeok box of an electrolytic solution, and a secondary battery that can increase the times the output of the gas plasma generator and him lamination process to provide.
[10]
In particular, the object of the present invention is to provide a laminating system that may include a secondary battery and a plasma generation device that he be applied in a variety of sizes membrane.
Problem solving means
[11]
Secondary battery, the plasma generating apparatus of the present invention according to the first embodiment for achieving the above object, a roller unit having a metal member embedded in the transport roller, and the feed roller for transporting the separator; And forming a patterned adhesive layer on the membrane surface by being provided in a main body formed to be spaced apart from the feed roller, a position spaced apart from each other in both end directions of the body generating a partial plasma between the metal member and the main body and it includes a plasma generation having a plurality of electrode strips, as the plurality of electrode members detachably coupled to the main body, depending on the size of the separation membrane, the number of the electrode member is joined to the main body can be adjusted to .
[12]
Said body, a fixing piece and comprising a support piece forming a plurality of coupling holes in the position of the fixed side fixed and spaced from each other in both end direction, the plurality of electrode members being spaced apart from the feed roller, the fixed electrode side supported on the side and may include a coupling protrusion to the electrode side detachably coupled to the coupling hole.
[13]
Said body, a fixing piece which is remote from the transport roller and the fixing piece fixed and comprises a support piece forming a coupling hole extending in both end directions, the plurality of electrode members, the electrode piece that is supported on the batten and, it may include a coupling protrusion to be movable in both end directions of the body of the electrode pieces the detachably coupled to the coupling hole, and at the same time within the coupling hole.
[14]
The plurality of electrode members may be provided or provided at equal intervals along the width direction of the separation membrane on the body or at different intervals.
[15]
The plurality of electrode members have a length, width and thickness can be provided equal to each other.
[16]
The plurality of electrode members may have any one or more of the length, width and thickness can be provided differently.
[17]
Moving parts to move the parts of the feed roller in a direction toward the plasma generating or moving in the opposite direction may be further included.
[18]
The body may be provided with a non-metallic material. In particular, the main body may be provided with a ceramic.
[19]
The plurality of electrode members may be provided with a corona discharge electrode.
[20]
The plasma generating portion, as respectively provided on both sides of the separation membrane can be formed in a patterned adhesive layer on both surfaces of the membrane.
[21]
The plasma generating portion, and on both surfaces of the separator to form a patterned adhesive layer having a different adhesive strength.
[22]
Secondary battery, the lamination system is a plurality of feed rollers for feeding to be laminated to the electrode and the separator are alternately according to the first embodiment of the present invention; A first cutter for cutting said electrode; A plasma generation system for forming a patterned adhesive layer on a surface of the separator; A laminator for producing the base unit to the fusing heat of the electrode and the separator; And a second cutter for cutting of the elementary units of the same size, the plasma generating apparatus is able to form the separation membrane and the electrode is partially generate a plasma by a pattern on the surface of the membrane before heat-sealed Chemistry adhesive layer have.
Effects of the Invention
[23]
The present invention by way of example as described above has the effects as described below.
[24]
First: the secondary battery, but the plasma generating apparatus of the present invention comprises a plasma generation having a body and a plurality of electrode members, the plurality of electrode members has a characteristic that is detachably coupled to the main body. Thus, due to such features may be based on the size of the membrane easily adjust the number of the electrode member is coupled to the body, and as a result can be used interchangeably in a variety of sizes membrane, in particular of a patterned adhesive layer formed on the separator you can freely adjust the position.
[25]
Second: the body portion and the plasma generation of the present invention as a first embodiment comprises a support piece forming a coupling hole and a fixing piece, the electrode member has the characteristics as including the engaging projection piece and the electrode. Thus, due to such features can be easily coupled or removed, the electrode member to the main body, thereby increasing the convenience in use as a result. In particular, the coupling hole may be formed to be opening in a direction toward the engaging projections, thereby to increase the coupling projection and the coupling hole coupled ease and convenience.
[26]
Third: the body of the plasma generating portion of the present invention as the second embodiment has the feature that comprises a support piece with a coupling hole formed in long and a fixing piece, and the electrode member comprises an engaging projection piece and the electrode. Thus, due to features such as the electrode member it can be moved within the coupling hole as soon detachably coupled to coupling holes formed at the same time the hold, and as a result can more easily adjust the position of the electrode member according to the size of the separation membrane. In particular, it is possible to adjust the distance between the plurality of electrode members may be narrower or wider to control the width of a patterned adhesive layer formed on the membrane.
[27]
Fourth: a plurality of electrode members in the plasma generating portion of the present invention has a characteristic such as that provided with or having a different distance intervals. Because of these features it can be implemented in various adhesive patterns.
[28]
Fifth: the plurality of electrode members in the plasma generating portion of the present invention has a feature being the length, width and a thickness comprising the same to each other. Thus, due to such features, may form a patterned bonding layer of the same size on the surface of the separator, the entire surface of the resulting membrane may have a uniform adhesive layer.
[29]
Sixth: a plurality of electrode members in the plasma generator of the invention has the characteristic that the length, width and thickness to be provided differently. Due to this feature it is possible to form a wide range of sizes of the patterned adhesive layer to the surface of the membrane.
[30]
Seventh: In the plasma generating portion in the invention has a body characterized in being provided with a non-metallic ceramic material. In this and due to such characteristics to prevent the resistance occurs, and as a result it is possible to stably generate a plasma between the metal member and the main body.
[31]
Eighth: secondary battery, the plasma generating apparatus of the present invention has a feature that including a mobile which moves in a direction or in opposite directions facing the plasma generating portion transport roller. This can be easily adjusted due to the features such as the transfer roller and the plasma generation unit interval, so that it is possible to stably generate a plasma between the metal member and the main body.
[32]
Ninth: secondary battery, the lamination system of the present invention has the features as including a plasma generator to form a patterned adhesive layer. Because of these features it can be produced an electrode assembly having a uniform quality.
Brief Description of the Drawings
[33]
Figure 1 is a cross-sectional view showing the basic unit of the first embodiment of the present invention.
[34]
Figure 2 is a cross-sectional view showing the electrode assembly according to a first embodiment of the present invention.
[35]
Figure 3 is a view showing a lamination system according to a first embodiment of the present invention.
[36]
Figure 4 is a diagram showing a plasma generating apparatus according to a first embodiment of the present invention.
[37]
Figure 5 is a perspective view showing the plasma generating portion according to the first embodiment of the present invention.
[38]
Figure 6 is the plasma generating portion according to a plan view showing a first embodiment of the present invention.
[39]
Figure 7 is a view showing a separation membrane is a patterned adhesive layer according to the first embodiment of the present invention is formed.
[40]
Figure 8 is a plasma generation section perspective view according to a second embodiment of the present invention.
Best Mode for Carrying Out the Invention
[41]
With reference to the accompanying drawings the invention will now be described an embodiment of the invention in detail, so can be easily implemented by those of ordinary skill in the art belong. However, the invention is not to be implemented in many different forms and limited to the embodiments set forth herein. And the part not related to the description in order to clearly describe the present invention in the figures was in nature and not restrictive. Like reference numerals designate like elements throughout the specification.
[42]
[A first embodiment of the present invention;
[43]
Basic structural units
[44]
Basic unit according to the first embodiment of the present invention are disposed in the electrode and the separator are alternately. The electrodes and the separator may be arranged by the same number, or may be disposed from each other by a different number. For example, base unit 10, as shown in Figure 1 comprises two electrodes 11, 13 and the two separators 12, 14 can be formed are sequentially stacked. The two electrodes may be an anode and a cathode, the anode and the cathode face each other, it can be seen through the membrane. Accordingly, the primary unit 10 has a laminated structure of an anode, a separator, a negative electrode and a separator.
[45]
The electrode assembly structure
[46]
The electrode assembly according to a first embodiment of the present invention can be formed by lamination according to the basic unit for repeatedly laminated or basic units of two or more with one kind of a specified sequence.
[47]
For example, as shown in Figure 2, the electrode assembly 1 may be formed by laminating a plurality of basic units 10 having the same layered structure in the vertical direction. That is, the electrode according to the first embodiment of the present invention, assembly 1 comprises a four anode is the first electrode 11, a separator 12, the cathode of the second electrode 13 and the separator 14 are sequentially disposed in a the base unit (10) having a layer structure may have a structure that is repeatedly stacked.
[48]
On the other hand, the base unit 10 is prepared by a lamination system, wherein the primary unit 10 may increase the adhesive strength, the electrolyte should chimryeok, and a gas output times by the lamination system 20.
[49]
Lamination system
[50]
As shown in FIG first embodiment lamination system 20 according to the present invention 3, the electrodes 11, 13 and the separator 12 (14) a plurality of feed rollers for feeding to stack alternately 100, a first cutter 200, and the electrode 11 by heat-sealing (13) and said membrane (12) (14) laminator for producing a basic unit of the sheet for cutting the electrode 11 (13) 300, and a second cutter (400) for producing a basic unit (10) is cut into a predetermined size to the base unit sheet.
[51]
A second electrode supply roller 130 for supplying the first electrode feed rollers 110, the cathode of the second electrode 13 to the plurality of feed rollers 100 is supplied to the anode of a first electrode 11, one and the separator comprises a first separator feed roller 120, and the other of the separator the second separator supply roller 140 for supplying (14) for supplying (12).
[52]
The first cutter 200 has a first cutter member 210 and the second cutter member 220 for cutting the other electrode 13 with a predetermined size is cut to a predetermined one of the electrodes 11, the size It includes.
[53]
The laminator 300 is bonded by heating in a state of pressing the electrodes 11, 13 and the separator 12 (14).
[54]
The second cutter 400 cuts the membrane 12, 14 between the electrodes 11, 13 that mutually correspond to produce a basic unit (10).
[55]
In the lamination system 20 according to the first embodiment of the present invention has the same configuration, the production of the electrodes 11, 13 and the separator 12, primary unit 10 to be 14 are alternately stacked in and can, by laminating a plurality of the basic units 10 can be made an electrode assembly (1).
[56]
On the other hand, the lamination system 20 according to the first embodiment of the present invention includes a plasma generating device 500 to improve the adhesion, and the electrolyte must chimryeok gas times the output of the basic unit (10).
[57]
The plasma generation device according to a first embodiment of the present invention
[58]
As in the plasma generating apparatus 500 according to the first embodiment of the present invention is shown in Figures 4 and 7, the adhesive strength, the electrolyte also the electrodes 11, 13 to increase chimryeok and gas discharge seongryeok and the membrane 12, 14 prior to adhering the can to form the membrane 12, the surface pattern on the 14 screen adhesive layer (12a).
[59]
For example, as in the plasma-generating device 500 is shown in Figure 4, the first separator feed roller 120 and the laminator 300, the first separator 12, and the second separator feed roller between ( 140) and being provided each with a second separation membrane 14 between the laminator 300, and a roller portion 510 and the plasma generation unit 520.
[60]
The roller 510 is a metal member embedded in the transport roller 511, and the transfer roller 511, which supports the one side of the separator 12 (14), transferring the membrane (12) (14) and a 512. the
[61]
Here, the separator is described in a unified reference numerals to the beginning in order to explain more clearly described, but by the reference numeral 12 and 14 to separator 12.
[62]
As in the plasma generating portion 520 is shown in Figures 4 and 7, and between the main body 521 is formed apart from the feed roller 511, the metallic member 512 and the main body 521 to thereby generate a plasma in part comprises a plurality of electrode members 522 of forming an adhesive layer (12a) patterned on a surface of the membrane (12).
[63]
The plasma generating apparatus 500 according to this first embodiment of the present invention has the same configuration as the plurality of electrode members 522 of the metal member 512 and the plasma generation unit 520 installed in the roller 510 the in by the interaction generates a partial plasma in between the body 521 and the plasma generation unit 520, a pattern on the surface of the membrane 12, which is conveyed by the conveying rollers 511 accordingly Chemistry adhesive ( 12a) a can be formed.
[64]
Wherein the main body (521, depending on the size of the plasma generating unit 520 according to the first embodiment of the present invention, as the plurality of electrode members 522 is detachably coupled to the main body 521, the separator 12 ) it is the number of the electrode member 522 control that is coupled to, and thus may be used interchangeably in the separation membrane 12 having a variety of sizes.
[65]
For example, a plurality of which, detachably coupled to the main body 521 and the body 521, as shown in the first embodiment the plasma generator 520 is 5 and 6 according to the example of the invention It includes an electrode member (522).
[66]
The body 521 is designed to secure the plurality of electrode members 522, the conveyance roller fixing piece (521a) being spaced from (511) formed longitudinally in the both end directions of the feed roller 511 and the as provided in the fixing piece (521a), the rear (right side as seen from the fixed convenience 4) comprises a support piece (521b) for fixing the fixing pieces (521a).
[67]
The supporting piece (521b) is in either end keyed to said fixing piece is formed with the same length and (521a), increase a fixing force of the fixing piece (521a), the side engaging removably a plurality of electrode members 522 a plurality of coupling holes (521b-1) at a position spaced apart from each other is formed. On the other hand, the coupling hole (521b-1) may have a, the support piece is also "U" shaped to be open in a lateral direction of (521b) as shown in Figure 5, whereby the electrode member (522, depending ) and also to the removal in a lateral direction of the coupling hole (521b-1), it can be enhanced as a result ease.
[68]
On the other hand, the side of the outlet of the coupling hole (521b-1) with the "U" shaped may be formed groups obstacle to prevent separation of the electrode member 522, so that inadvertently the electrode member 522 the accident is separated from said engaging hole (521b-1) can be prevented in advance.
[69]
The plurality of electrode members 522 is a fixing piece (521a) supporting the electrode pieces (522a), and the engaging projection of the electrode pieces (522a) is detachably coupled to the plurality of coupling holes (521b-1) above which is a It includes (522b).
[70]
In the plasma generating portion according to the first embodiment 520 of the same configuration is supported by the engaging projection combining (522a) the hole (521b-1) for the electrode pieces (522a), the engagement piece 521 when coupled to as you can be separated from the fixing pieces 521 above the electrode pieces (522a) is fixed, releasing the engaging protrusion (522a) from the engagement hole (521b-1). That is, it is possible to detachably coupled to the plurality of electrode members 522 to the body 521.
[71]
In more detail, by bonding the electrode member 522 is formed an engaging projection (522a), a plurality of coupling holes (521b-1) formed in the main body 521 corresponding to the surface of the membrane 12. Membrane 12 may implement a plasma generating unit 520 corresponding to the size, and thus can be used for the plasma generating device, regardless of the size of the separation membrane 12, it is possible to increase compatibility.
[72]
In addition to combining a plurality of coupling holes (521b-1), the electrode member 522, some only the engaging projection (522a) is formed in formed in the main body 521 corresponding to the surface of the membrane (12) by new to the surface membrane (12) It may easily implement the adhesive layer (12a) with the form of a pattern.
[73]
Therefore, the plasma generation unit 520 according to the first embodiment, the different sizes by easily removable a plurality of electrode members 522 through the coupling hole (521b-1) and the engaging projection (522b) on the main body 521 in the separation membrane (12) with it can be used interchangeably.
[74]
On the other hand, the engaging projection (522b) may have any one form of the coupling hole (521b-1) can easily be only a cylindrical shape, rectangular shape, oval shape to bond to.
[75]
The fixing piece (521a) is as the support piece (521b) back to the electrode member 522 toward the inserts and the support groove (521a-1) to stably support the electrode member 522 is formed, the support groove (521a-1) is formed to pass through in either direction end portion of the fixing piece (521a). That is, the electrode pieces (522a) while being supported while inserted into the support groove (521a-1) of the fixing piece (521a) can be stably fixed.
[76]
On the other hand, the main body 521 may be provided with a non-metallic material, whereby the metal member 512, and it is possible to prevent the resistance generated between the electrode member 522, so that the metal member 512 and the main body (521 ) may be the plasma is generated stably between.
[77]
On the other hand, the main body 521 may be provided as of a non-metallic material of ceramic, the ceramic can increase the efficiency of use because of a non-metallic inorganic material obtained through the heat treatment process, has a heat-resistant, high-strength, corrosion resistance, in particular light.
[78]
On the other hand, the plasma between the metal member 512 and the main body 521, the electrode pieces (522a) of the plurality of electrode members 522 may be a corona discharge electrode (corona discharge), with the corona discharge electrode It can be generated in a stable manner.
[79]
On the other hand, the plurality of electrode members 522 may be provided with a width direction of the separator 12, etc. provided, or a different distance intervals depending on the main body 521, whereby the separators 12 and along a portion of the electrode 11 can be implemented so that the whole of a uniform adhesive force, the separation membrane 12 and the electrode 11 has strong adhesive force and the other may weaken the adhesive strength achieved.
[80]
On the other hand, the plurality of electrode members 522 are the length, width and thickness, or equally provided or length, at least one of width and thickness can be provided differently from each other, so that different on the surface of the membrane (12) it is possible to form the adhesive layer (12a) with an adhesive strength of the pattern.
[81]
Meanwhile, the damaged electrode side during the destruction of the electrode pieces (522a) and the engaging projection (522b) is separate and can be formed, so that the electrode pieces (522a) or the engaging projection (522b) in the electrode member 522 ( man 522a) or the engaging projection (522b) can be reused to replace.
[82]
For example, the electrode piece (522a) has a coupling groove (522a-1) is formed by coupling one end of the engaging projection (522b) to the coupling groove (522a-1) to produce an electrode member (522) . Then, when one end of the engaging projection (522b) engaging grooves removed from (522a-1) it is possible to easily remove the engaging projection (522b) and the electrode pieces (522a).
[83]
In particular, the electrode pieces (522a) and the engaging projection (522b) are selectively coupled to the different sizes and the electrode pieces (522a) having a shape in accordance with the separated on the engaging projection (522b) can be prepared the electrode member 522 and, thereby implementing separation membrane 12 different forms and the patterned adhesive layer (12a) of the surface area.
[84]
On the other hand, the said plasma generator according to the first embodiment device 500 according to the present invention the mobile unit (530 to move to move in a direction toward the transfer roller 511, the plasma generator 520 or in the opposite direction ) may further include a can, the mobile unit 530 is formed from a hydraulic or pneumatic cylinder.
[85]
That is, the mobile unit 530 is more reliably control the distance between by moving the plasma generating portion 520, so that the plasma generating the plasma generation unit 520 and the transfer roller 511. The
[86]
On the other hand, the plasma generating apparatus 500 according to the first embodiment of the present invention may form the adhesive layer (12a) with a patterned adhesive on both sides of the separation membrane 12, whereby the separator 12 along it is possible to increase the stable adhesive strength and the electrolyte impregnation, and the gas discharge ability of the electrode to be adhered to both sides.
[87]
In addition, the plasma generating apparatus 500 according to the first embodiment of the present invention is to form an adhesive layer having a different adhesive strength on both surfaces of the separator 12, thereby being bonded to said membrane (12) on both sides the electrodes can be adjusted to each other have different adhesion. Of course, it may be adjusted to have the same adhesive force as needed.
[88]
Accordingly, the first lamination system 20 in accordance with an embodiment of the present invention is a patterned adhesive layer such as that shown in Figure 7 by the inclusion of the plasma generating apparatus 500 to obtain a separation membrane.
[89]
Or less, in the following description of an embodiment of the present invention using the same reference numerals in the configuration having the same configuration and function as those of the above-described embodiment, the configuration, and duplicate description is omitted.
[90]
[Second embodiment of the invention;
[91]
The width of the plasma generating device (500 ') is, as shown in Figure 8, comprising: a plasma generation unit 520, the plasma generator 520 is a separator 12 according to the second embodiment of the present invention a plurality of electrode members forming a main body 521, and a metallic member 512 and thereby partially to generate plasma between the main unit 521, a separator 12, an adhesive layer (12a) patterned on the surface which is provided in a direction (522 ) a.
[92]
The body 521 is supporting piece (521b) forming a fixing piece (521a) and the fixing piece (521a) is fixed and longitudinally in both ends direction engaging hole (521b-3) away from the transport roller 511, It includes.
[93]
The plurality of electrode members 522 is the coupling at the same time as the supporting electrode pieces (522a), and coupling the electrode pieces (522a) detachably to the coupling hole (521b-3) that the fixing piece (521a) in the hole (521b-3) includes an engaging projection (522b) that moves in both end directions of the body 521.
[94]
In the present invention has the same configuration the plasma generation according to the second embodiment device 500 is the engaging projection (522b) is said engaging hole detachably coupled to (521b-3), and at the same time the engaging hole (521b-3 ) it can be moved in the both end directions of the body 521, and therefore can accommodate the size of the separation membrane (12) to control the plurality of electrode members 522 coupled to the coupling hole (521b-3) and can be used so that the resulting compatibility membrane 12 of different sizes.
[95]
On the other hand, the engaging projection (522b) has the other end the engagement hole (521b-3) which has a nut can be combined after passing through the, so that to increase the holding force of the plurality of electrode members 522 are coupled to the mainframe 521 can.
[96]
The scope of the invention is represented by the claims below rather than the description above, it is possible to various embodiments derived from the meaning and scope of the appended claims and their equivalents concept.

Claims

[Claim 1]Transport rollers for transporting the separation membrane, and a roller unit having a metal member embedded in the transport roller; And forming a patterned adhesive layer on the membrane surface by being provided in a main body formed to be spaced apart from the feed roller, a position spaced apart from each other in both end directions of the body generating a partial plasma between the metal member and the main body includes a plurality of electrode members plasma generating portion having said plurality of electrode members is as detachably coupled to the main body, a secondary battery according to the size of the separation membrane where the number of the electrode member is joined to the main body control that The plasma generation device.
[Claim 2]
The method according to claim 1, wherein the main body, a fixing piece which is remote from the conveying roller and comprising a support piece forming a plurality of coupling holes in the position of the fixed side fixed and spaced from each other in both end direction, the plurality of electrodes member, a secondary battery plasma generation device including an electrode section which is supported by the fixing piece and the engaging projection of the electrode pieces detachably coupled to the coupling hole.
[Claim 3]
The method according to claim 1, wherein the main body, a fixing piece which is remote from the transport roller and the fixing piece fixed and comprises a support piece forming a coupling hole extending in both end directions, the plurality of electrode members, the fixing pieces supporting secondary cell plasma generating apparatus including an engaging projection that is movable in a direction opposite ends of said body in said coupling hole at the same time as the electrode pieces and joining the electrode piece removably coupled to the holes on.
[Claim 4]
The method according to claim 1, wherein the plurality of electrode members is a secondary battery that is provided with the plasma generating device in the width direction or the like or having a different spacing intervals along the membrane over the body.
[Claim 5]
The method according to claim 1, secondary battery, the plasma generating apparatus of said plurality of electrode strips are provided with a length, a width and a thickness equal to each other.
[Claim 6]
The method according to claim 1, a secondary battery plasma generation device in which the plurality of electrode members is long, this includes any one or more of different width and thickness.
[Claim 7]
The method according to claim 1, secondary battery, the plasma generating device further comprises a movement to move the feed rollers the plasma generating portion in a direction toward or moved in the opposite direction.
[Claim 8]
The method according to claim 1, wherein the body is a secondary battery that is provided with the plasma generating apparatus of a non-metallic material.
[Claim 9]
The method according to claim 1, wherein the body is a secondary battery plasma generator provided with a ceramic.
[Claim 10]
The method according to claim 1, a secondary battery plasma generation device in which the plurality of electrode members comprises a corona discharge electrode.
[Claim 11]
The method according to claim 1, wherein the plasma generator comprises, as respectively provided on both sides of the secondary battery separator plasma generator to form a patterned adhesive layer on both surfaces of the membrane.
[Claim 12]
The method according to claim 10, wherein the plasma generator comprises, a secondary battery plasma generator to form a patterned adhesive layer having a different adhesive strength on both surfaces of the membrane.
[Claim 13]
A plurality of feed rollers to feed the electrode and the separator is to be laminated alternately; A first cutter for cutting said electrode; Claim is provided by any one of the claims from 1 to claim 12, the plasma generating device to form a patterned adhesive layer on a surface of the separator; A laminator for producing the base unit to the fusing heat of the electrode and the separator; And a second cutter for cutting of the elementary units of the same size, the plasma generating device is secondary to form the membrane and the electrode is partially generate a plasma by a pattern on the surface of the membrane before heat-sealed Chemistry adhesive layer cell lamination system.