KR101462155B1 - Low equivalent serial resistance electric double layer capacitor - Google Patents

Abstract

The present invention relates to a low ESR electric double layer capacitor and a method of assembling the same, and the present invention relates to an electric double layer capacitor comprising: a winding element having a first exposed current collector and a second exposed collector; A metal housing in which the first exposed current collecting part is connected to the lower side and is connected to the first and second exposed current collecting parts, and a pair of first through holes are formed on the upper side; An insulating member disposed inside the metal housing so as to be positioned on the upper side of the second exposed current collecting part of the winding revolver; A first external terminal electrically connected to the first exposed current collector part of the winding revolvers and the metal housing by being inserted and joined to one of the pair of first through holes of the metal housing; And the second exposed current collecting portion of the winding canceller is electrically connected to the other of the pair of first through holes of the metal housing and is caulked to be insulated by the insulating member, And a second external terminal connected to the second terminal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a low ESR double layer capacitor

The present invention relates to a low ESR electric double layer capacitor and a method of assembling the same, and more particularly, to an ESR electric double layer capacitor and a method of assembling the ESR electric double layer capacitor, To an ESR electric double layer capacitor and an assembling method thereof.

Electric Double Layer Capacitor (EDLC) has a small effect on the lifetime even if charging / discharging is repeated by storing electrical energy by reversible physical adsorption phenomenon, and it can be used in smart phones, hybrid cars, And is being applied to the energy storage devices applied to power generation.

The electric double layer capacitor is composed of an outer case, a winding element, a terminal plate, and a gasket as disclosed in Korean Patent Registration No. 1142403 (Patent Document 1).

The outer case is formed with a beading portion, that is, a bent portion, which is recessed inwardly on the outer wall, and a winding canceler is disposed inside the outer case so as to be positioned below the beading portion, And an internal terminal located inside the case. The terminal plate is disposed at an upper portion of the beading portion and is connected to an external terminal connected to the internal terminal. The gasket is formed of an insulating material so as to be positioned at a lower portion of the beading portion so as to surround the upper portion of the take- Through holes are formed so as to be connected to the terminals.

The conventional electric double layer capacitor disclosed in Patent Document 1 has a terminal structure in one direction in which an external terminal connected to the winding element and the internal terminal is disposed on the upper part of the case, thereby connecting a plurality of electric double layer capacitors in series or in parallel The module to be constructed can be easily assembled.

Conventional electric double layer capacitors having a terminal structure in one direction that facilitates module configuration require a space for assembling internal terminals due to the use of internal terminals for connecting the winding elements to the external terminals. Since a separate space for the internal terminal is required, the conventional electric double layer capacitor has a problem in that the external case becomes larger than the size of the winding rewinder and the external shape of the electric double layer capacitor becomes larger than the whole capacity. There is a problem in that the reliability of the electrical characteristics of the electric double layer capacitor is lowered due to an increase in the equivalent serial resistance (ESR) due to the small area, and the assembling operation of the electric double layer capacitor is not easy by connecting the winding element and the external terminal to the internal terminal There is a problem.

Patent Document 1: Korean Patent No. 1142403 (Registered on Apr. 26, 2012)

SUMMARY OF THE INVENTION The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a low ESR electric power supply device which is assembled such that a first external terminal and a second external terminal are connected to a winding element housed in a metal housing using only cogging and laser welding, Layer capacitor and a method of assembling the same.

Another object of the present invention is to reduce the number of contacts connecting the first external terminal and the second external terminal to the winding canceller by connecting the first external terminal to the winding element using a metal housing and directly connecting the second external electrode to the winding element And to provide a low ESR electric double layer capacitor capable of improving the electrical characteristics by lowering the ESR and a method of assembling the same.

It is a further object of the present invention to provide a method of manufacturing a metal housing by connecting a first outer terminal to a winding element using a metal housing and directly connecting the second outer electrode to the winding element to set the size of the metal housing, And an ESR electric double layer capacitor capable of compacting an electric double layer capacitor and a method of assembling the same.

A low ESR electric double layer capacitor of the present invention includes: a winding element having a first exposed current collector and a second exposed collector; A metal housing in which the first exposed current collecting part is connected to the lower side so as to be connected thereto, and the pair of first through holes are formed on the upper side; An insulating member disposed inside the metal housing so as to be positioned above the second exposed current collector of the winding revolvers; A first external terminal electrically connected to the first exposed current collector part of the winding revolvers and the metal housing by being inserted and joined to one of the pair of first through holes of the metal housing; And a second exposed current collecting portion which is disposed below the insulating member and is electrically connected to the second exposed current collecting portion of the winding revolver and inserted into the other one of the pair of first through holes of the metal housing to be insulated by the insulating member And a second external terminal which is caulked.

A method of assembling a low ESR electric double layer capacitor according to the present invention comprises inserting an insulating O-ring and a washer sequentially into another one of a pair of first through holes formed in a metal cap so that the metal cap, the insulating member and the second external terminal are in close contact with each other Forming a cogging portion by pressing a ring-shaped member integrally formed with the second external connection terminal member of the second external terminal to press with a washer; A method of manufacturing a metal case, comprising: inserting a revolver in a metal case; inserting a metal cap having an insulating member and a second external terminal assembled therein into a metal case; The second joint groove portion formed on the electrode connection plate of the second external terminal and the second exposed current collector portion of the winding stopper are joined to each other by laser welding; Inserting a first external terminal into one of a pair of first through holes formed in a metal cap and joining the metal cap and the first external terminal to each other using laser welding; And joining the inner side of the first joint groove portion formed on the lower side of the metal case and the first exposed current collector portion of the winding revolver with each other using laser welding.

The low ESR electric double layer capacitor of the present invention and its assembling method are advantageous in that assembling work is facilitated by assembling the first external terminal and the second external terminal to be connected to the winding element housed in the metal housing using only cogging and laser welding, By connecting the first external terminal to the winding element using a metal housing and directly connecting the second external electrode to the winding element, the number of contacts connecting the first external terminal and the second external terminal to the winding revolver is reduced, The first external terminal is connected to the winding element by using the metal housing and the second external electrode is directly connected to the winding element so that the size of the metallic housing as the external case There is an advantage that the electric double layer capacitor can be configured compactly.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front sectional view showing the configuration of a low ESR electric double layer capacitor of the present invention,
2 is a partially exploded assembly cross-sectional view of the electric double layer capacitor shown in FIG. 1,
Fig. 3 is a perspective view of the book revolver shown in Fig. 1,
Fig. 4 is a rear view of the metal case shown in Fig. 1,
Figure 5 is a top view of the metal cap shown in Figure 2,
Fig. 6 is a plan view of the insulating member shown in Fig. 2,
7 is a plan view of the first external terminal shown in Fig. 2,
8 is a plan view of the second external terminal shown in Fig.

Hereinafter, embodiments of a low ESR electric double layer capacitor and a method of assembling the same according to the present invention will be described with reference to the accompanying drawings.

1 and 2, the low ESR electric double layer capacitor of the present invention includes a winding element 110, a metal housing 120, an insulating member 130, a first external terminal 140 and a second external terminal 150, .

The winding element 110 includes a first exposed current collector part 111a and a second exposed current collector part 112a and the metal housing 120 is connected to the first exposed current collector part 111a The winding element 110 is housed in such a manner that a pair of first through holes are formed on the upper side. The insulating member 130 is disposed inside the metal housing 120 so as to be positioned above the second exposed current collector portion 112a of the winding element 110. The first external terminal 140 contacts the metal housing 120, And is electrically connected to the first exposed collector part 111a of the winding element 110 and the metal housing 120 by being connected to one of the pair of first through holes of the winding element 110. [ The second external terminal 150 is disposed on the lower side of the insulating member 130 and is electrically connected to the second exposed current collector portion 112a of the winding element 110. The second external terminal 150 is electrically connected to the pair of metal housings 120 And is caulked so as to be insulated by the insulating member 130.

The low ESR electric double layer capacitor of the present invention having the above structure will be described in more detail with reference to the accompanying drawings.

1 and 3, the winding element 110 includes a first current collector plate 111, a second current collector plate 112, and a separation membrane 113, each of which is provided with a jelly roll jelly roll type.

The first current collector 111 includes a first exposed current collector 111a and an electrode active material layer 111b on both sides of the first exposed collector 111a. A region where the electrode active material layer 111b is not coated is set below the plate 111 and a known electrode active material such as known activated carbon is used as the electrode active material layer 111b. The second current collector plate 112 is provided on the upper side with the second exposed current collector part 112a so as to face the first exposed current collector part 111a and the electrode active material layer 112b is coated on both surfaces thereof, The exposed collector part 112a is set as an area where the electrode active material layer 112 is not applied on the upper side of the second current collector plate 112 and the electrode active material layer 112b is formed as a known electrode active material Is used. The separation membrane 113 is made of an ion permeable material and disposed between the first current collector plate 111 and the second current collector plate 112 so that ions are exchanged and the first current collector plate 111 and the second collector Thereby preventing the entire plate 112 from being physically brought into contact with each other.

The metal housing 120 is composed of a metal case 121 and a metal cap 122 as shown in FIGS.

1 and 4, the metal case 121 accommodates the winding element 110 so that the first exposed current collector part 111a of the winding element 110 is connected to the lower side to be electrically connected, do. The metal case 121 has a cylindrical shape such as a can with an opened upper side and a first joint groove 121a at the lower side. The first joint groove 121a is formed such that the lower side is exposed to the outside and the upper side is electrically connected to the first exposed current collector 111a of the wind element 110 by laser welding. The first joining groove 121a is formed in a toroidal shape or a plurality of circular shapes on the lower side of the metal case 121. The thickness T1 of the first joining groove 121a is 0.3 to 1.0 mm, The first exposed current collector 111a and the lower portion of the metal case 121 are melted and adhered to each other uniformly by a laser beam to improve ESR characteristics.

The metal cap 122 is joined to the upper side of the metal case 122 by laser welding so as to cover the upper side of the metal case 121 as shown in Figs. 1 and 2, and is electrically connected to a pair of first through holes 122a Are spaced apart from each other, and a disk-like shape is used as shown in Fig. The metal cap 122 has a stepped portion 122c formed on the outer circumference of the metal case 121 so as to be supported on the upper side of the metal case 121 so that the rim is joined to the upper side of the metal case 121 by laser welding, And a pair of first through holes 122a are formed to be spaced apart from each other. The pair of first through holes 122a are each formed with a step 122b on the inner circumferential surface so that the first external terminal 140 and the insulating member 130 are received and supported.

The insulating member 130 is composed of an insulating plate 131, an insulating hollow member 132, and an insulating O-ring 133 as shown in FIGS. 1, 2, and 6.

The insulating plate 131 is disposed between the metal housing 120 and the second external terminal 150 so as to insulate the first and second external terminals 150 and 150 from each other and to correspond to one of the pair of first through holes 122a of the metal housing 120 6, the insulating plate is formed in an elliptical shape, and the length of the insulating plate is smaller than the diameter of the metal case 121 of the metal housing 120, so that the metal case 121, As shown in FIG. The insulating hollow member 132 is formed on the insulating plate 131 so as to be spaced apart from the second through hole 131a and inserted into the other one of the pair of first through holes 122a of the metal housing 120, 120) Task 2 Insulates the external terminal 150. The O-ring 133 is inserted into and supported by the other one of the pair of first through holes 122a of the metal housing 120 so as to be positioned on the upper side of the insulating hollow member 132, The metal housing 120 is sealed with the insulating hollow member 132 by the pressure of the insulating hollow member 132.

The first external terminal 140 is composed of a terminal step member 141 and a first external connection terminal member 142 as shown in Figs. 1, 2 and 7.

The terminal step member 141 is joined to the metal housing 120 by laser welding while being supported by the stepped portion 122b formed in one of the pair of first through holes 122a of the metal housing 120 And the first external connection terminal member 142 is formed integrally on the terminal step member 141 and has a thread groove 142a to be fastened to an external terminal (not shown) .

The second external terminal 150 includes an electrode connection plate 151, a second external connection terminal member 152, a washer 153 and a cogging unit 154 as shown in FIGS. 1, 2 and 8.

The electrode connecting plate 151 is disposed below the insulating member 130 to be insulated from the metal housing 120 by the insulating member 130 and is electrically connected to the second exposed current collector portion 112a of the wind- They are welded and electrically connected. 8, the length of the electrode connecting plate 151 is formed to be smaller than the diameter of the metal cap 122 of the metal housing 120 so that the electrode connecting plate 151 is electrically contacted with the metal case 121 . The electrode connection plate 151 is integrally formed on the lower side with an alignment guide member 151b which is inserted and aligned in the bobbin 114 of the winding element 110, And a second joint groove 151a is formed at a position corresponding to the second through hole 131a.

The second joint groove portion 151a is formed to expose the direction toward the insulating member 130 and is electrically connected to the second exposed current collector portion 112a of the winding element 110 by laser welding, 8, the second joint groove 151a is formed to have a thickness T2 of 0.3 to 1.0 mm, and the second exposure current collector part 112a and the second exposure current collector part 112b are formed by laser welding, And the second external terminals 150 are melted and adhered to each other by the laser at the time of bonding, thereby improving the ESR characteristics.

The second external connection terminal member 152 is integrally formed with the electrode connection plate 151 so as to be spaced apart from the second joint groove 151a and inserted to penetrate the hollow member 132 of the insulating member 130, And the washer 153 is inserted into the second external connection terminal member 152 and is positioned on the upper side of the insulating o-ring 133 of the insulating member 130 And a rigid metal material is used. The cogging part 154 is integrally formed on the outside of the second external connection terminal member 152 and caulked toward the washer 153 to be connected to the metal housing 120 ) Is sealed. 2, the cogging portion 154 is separated from the outer peripheral surface of the second external connection terminal member 152, and the ring-shaped member 154a integrally formed on the lower side of the second external connection terminal member 152 is inserted into the washer 153 In a direction in which it is pressed by a press.

A method of assembling the low-ESR electric double-layer capacitor of the present invention having the above-described structure will now be described.

The method of assembling the low ESR electric double layer capacitor of the present invention first assembles the metal cap 122, the insulating member 130 and the second external terminal 150 of the metal housing 120 using a pressing cogging process. The insulative hollow member 132 of the insulating member 130 is inserted into the other one of the pair of first through holes 122a formed in the metal cap 122 of the metal housing 120, The insulating member 130 and the second external terminal 150 of the metal housing 120 so that the second external connection terminal member 152 of the second external terminal 150 is inserted into the first external connection terminal member 132 do.

When the metal cap 122, the insulating member 130 and the second external terminal 150 of the metal housing 120 are assembled, the metal cap 122, the insulating member 130, and the second external terminal 150 The insulating O-ring 133 and the washer 153 are sequentially inserted into the other one of the pair of first through holes 122a formed in the metal cap 122 so as to be in close contact with each other, The ring-shaped member 154a formed integrally with the external connection terminal member 152 is pressed by a press so as to be joined to the washer 153 to form the cogging portion 154. [ That is, by pressing the ring-shaped member 154a shown in FIG. 2 in a direction toward the washer 153 by pressing it to form the cogging section 154, the metal cap 122, the insulating member 130, The assembly is completed so that the second external terminals 150 are firmly held in tight contact with each other and the other one of the pair of first through holes 122a formed in the metal cap 122 is sealed.

After the assembly of the metal cap 122, the insulating member 130 and the second external terminal 150 is completed, the winding element 110 is received in the metal case 121 and then the insulating member 130 and the second external terminal 150 The metal cap 122 and the metal case 121 are joined to each other by laser welding to electrically connect the metal cap 122 with the electrical signal.

When the metal cap 122 is bonded to the metal case 121, the second joint groove 151a formed on the electrode connection plate 151 of the second external terminal 150 and the second joint groove 151a formed on the second exposed current collector And the upper portion of the metal case 121 is sealed by the metal cap 122. The metal shell 122 is made of metal.

When the second joint groove part 151a and the second exposed current collector part 112a of the winding element 110 are joined to each other, one of the pair of first through holes 122a formed in the metal cap 122 is connected to the first external The metal cap 122 and the first external terminal 140 are connected to each other to be electrically connected by laser welding after the terminal 140 is inserted and a pair of first So that one of the through holes 122a is sealed so that the upper side of the metal case 121 is sealed.

When the metal cap 122 and the first external terminal 140 are joined to each other, the metal cap 122 and the first external terminal 140 are exposed to the inside of the first joining recess 121a formed on the lower side of the metal case 121 and the lower side of the wind- And the exposed current collectors 111a are electrically connected to each other by laser welding. When the lower side of the metal case 121 and the first exposed current collector part 111a are joined to each other by laser welding, the metal case 121 is inserted into the metal case 121 through the electrolyte solution inlet After the electrolyte is injected, the electrolyte inlet is closed with a filling port cover (not shown) and then sealed by laser welding to complete the assembly of the low ESR electric double layer capacitor of the present invention.

When the low ESR electric double layer capacitor of the present invention is assembled, the first external terminal 140 and the second external terminal 150 have polarities different from each other, so that the insulating material is entirely applied or applied to the outer circumferential surface of the metal case 121 And is electrically connected to an external conductor (not shown) to prevent the first external terminal 140 and the second external terminal 150 from being electrically connected to each other.

As described above, the low ESR electric double layer capacitor of the present invention and its assembling method are assembled so that the first external terminal and the second external terminal are connected to the winding element housed in the metal housing using only cogging and laser welding, By connecting the first external terminal to the winding element using a metal housing and directly connecting the second external electrode to the winding element, the number of contacts connecting the first external terminal and the second external terminal to the winding revolver is reduced, The size of the metal housing which is the external case is set so as to match the size of the bookholder by connecting the first external terminal to the winding element by using the metal housing and directly connecting the second external electrode to the winding element The electric double layer capacitor can be constructed compactly.

The low ESR electric double layer capacitor of the present invention is applied to a manufacturing industry of an energy storage device applied to a hybrid vehicle, an electric vehicle, a solar power generation or a wind power generation.

110: Retracting element 111: First collector plate
112: second collecting plate 113: separator
114: bobbin 120: metal housing
121: metal case 122: metal cap
130: Insulation member 131: Insulation plate
132: Insulating hollow member 133: Insulating o-ring
140: first external terminal 141: terminal step member
142: first external connection terminal member 150: second external terminal
151: electrode connection plate 152: second external connection terminal member
153: washer 154:

Claims (12)

A winding element having a first exposed current collector and a second exposed collector;
A metal housing in which the first exposed current collecting part is connected to the lower side so as to be connected thereto, and the pair of first through holes are formed on the upper side;
An insulating member disposed inside the metal housing so as to be positioned above the second exposed current collector of the winding revolvers;
A first external terminal electrically connected to the first exposed current collector part of the winding revolvers and the metal housing by being inserted and joined to one of the pair of first through holes of the metal housing;
And a second exposed current collecting portion which is disposed below the insulating member and is electrically connected to the second exposed current collecting portion of the winding revolver and inserted into the other one of the pair of first through holes of the metal housing to be insulated by the insulating member And a second external terminal which is caulked,
A first current collector plate provided below the first exposed current collector and coated with an electrode active material layer on both surfaces thereof; A second current collector plate provided on an upper side of the second exposed current collector portion so as to face the first exposed current collector portion and having an electrode active material layer coated on both surfaces thereof; And a separator disposed between the first collector plate and the second collector plate. 2. The low equivalent serial resistance (ESR) electric double layer capacitor according to claim 1, 2. The image forming apparatus according to claim 1, wherein the first exposed current collecting portion of the winding revolvers is set as an area where the electrode active material layer is not coated on the lower side of the first current collector plate, And the first current collector plate, the second current collector plate and the separation film of the winding revolvers are wound on a bobbin in the form of a jelly roll, Low ESR electric double layer capacitors. [2] The apparatus as claimed in claim 1, wherein the metal housing comprises: a metal case having an upper opening for accommodating a winding stopper to be connected to a lower side of the first exposed current collector portion of the winding canceller;
And a metal cap connected to the upper side of the metal case so as to cover the upper side of the metal case and electrically connected to each other and having a pair of first through holes spaced apart from each other. [5] The apparatus as claimed in claim 3, wherein the metal case has a cylindrical shape and a first joint groove part is formed on a lower side, the first joint groove part is formed such that a lower side is exposed to the outside, And the first junction groove is formed in a toroidal shape. The low ESR electric double layer capacitor according to claim 1, wherein the first junction groove is formed in a toroidal shape. The low ESR electric double layer capacitor according to claim 4, wherein the thickness of the first junction groove is 0.3 to 1.0 mm. [5] The apparatus of claim 3, wherein the metal cap is formed in a disk shape, and a rim is joined to the upper side of the metal case by laser welding, and a pair of first through holes are formed to be spaced apart from each other, Wherein the first through hole of each of the first through holes is formed with a stepped portion on an inner circumferential surface so that the first external terminal and the insulating member are received and supported, respectively. The metal housing according to claim 1, wherein the insulating member is disposed between the metal housing and the second external terminal to insulate each of the metal housing and the second external terminal, and a second through hole is formed at a position corresponding to one of the pair of first through holes of the metal housing An insulating plate;
An insulating hollow member formed on the insulating plate so as to be spaced apart from the second through hole and inserted into the other one of the pair of first through holes of the metal housing to insulate the metal housing and the second external terminal;
And an insulating O-ring inserted into another one of the pair of first through holes of the metal housing so as to be positioned on the upper side of the insulating hollow member. The low ESR electric double layer capacitor according to claim 7, wherein the insulating plate is formed in an elliptical shape. [2] The apparatus of claim 1, wherein the first external terminal is a terminal terminal member connected to the metal housing by laser welding while being supported by a step formed in one of the pair of first through holes of the metal housing, ;
And a first external connection terminal member integrally formed on an upper side of the terminal step member and having a thread groove formed on an upper side thereof. The electronic apparatus according to claim 1, wherein the second external terminal is disposed below the insulating member so as to be insulated from the metal housing by the insulating member and is joined and connected by laser welding to the second exposed current collector portion of the winding revolver An electrode connection plate;
A second external connection terminal member formed integrally with the electrode connection plate so as to be spaced apart from the second junction recess, inserted into the hollow member of the insulation member and having threaded grooves formed thereon;
A washer inserted into the second external connection terminal member and disposed to be positioned above the insulating O-ring of the insulating member;
And a cogging portion integrally formed on the outer side of the second external connection terminal member and caulked toward the washer to seal the metal housing by the insulating plate and the insulating O-ring of the insulating member. 11. The method according to claim 10, wherein the electrode connection plate is formed in an elliptical shape, and a second joint groove is formed at a position corresponding to a second through hole formed in the insulating plate of the insulating member, And the second joint groove portion is formed in a circular shape and has a thickness of 0.3 to 1.0 mm. The low ESR electric double layer capacitor according to claim 1, delete

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