KR20170041111A - Electric double layer capacitor welding equipment - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a semiconductor device, in which ceramic and a lead surrounding the electrode are accurately aligned, And an electrode for welding an electric double layer capacitor which can reliably produce an electric double layer capacitor.

Description

TECHNICAL FIELD [0001] The present invention relates to an electric double layer capacitor welding apparatus,

The present invention relates to an electric double layer capacitor welding apparatus and more particularly to an electric double layer capacitor welding apparatus in which a ceramic 11 and a lead 12 are welded to each other so that a ceramic 11 and a lead 12, The electric double layer capacitor welding equipment (1) according to any one of claims 1 to 3, wherein the main plate (200) is formed on an upper portion of the lower housing (100) A ceramic mounting part 300 on the top of the main plate 200 on which the ceramics 11 having completed the electrode impregnation process is placed; A ceramics transferring part 500 installed on the main plate 200 for transferring the ceramics 11 seated on the ceramic mounting part 300, , And is installed on an upper portion of the main plate (200) A lead transfer part 600 for transferring the lead 12 mounted on the lead seating part 400 and a lead transfer part 600 mounted on the main plate 200 for transferring the ceramic material transferred through the ceramic part 500, A ceramic mounting part 700 for mounting the ceramic mounting part 700 on the upper surface of the main plate 200 and a ceramic mounting part 700 for mounting the ceramic mounting part 700 on the upper part of the main mounting part 700, A ceramic transfer rotary plate 800 in which a plurality of ceramic movement guide members 810 for air sucking the upper portion of the ceramic 11 mounted on the main plate 200 are installed, A lead transfer rotary plate 900 in which a plurality of lead mounting portions 910 are mounted on an upper portion thereof and on which the leads 12 transferred through the lead transfer portion 600 are mounted; (200), wherein the ceramic feed rotary The ceramic movement guide member 810 and the lead mounting portion 910 are aligned with each other in the vertical direction through the rotation of the lead frame 800 and the lead transfer rotary plate 900, The lower portion 12a of the lead 12 is connected to the upper portion of the lead 11 by the laser beam while the ceramic 11 and the lead 12 are overlapped on the upper portion and the lower portion of the lead 11, And the ceramic member 11 and the lead 12 which are welded to the bottom of the main plate 200 are moved by the ceramic movement guide member 810 And an original welding member (1100) for welding the edge (12b) of the lower portion of the lead (12) by laser welding.

Generally, an electric double layer capacitor is an electric double layer capacitor which is basically composed of two electrode plates separated by a separator and an electrolyte filling therebetween, so that an electric double layer Which is a device using charge accumulated in the memory cell array.

Unlike conventional capacitors that use charge between electrode and electrode, electric double layer capacitor uses charge between electrode and electrolyte, so distance can be reduced to angstrom unit so that it can have much larger capacitance. It is used as a miniature battery to supply.

In addition, the electric double layer capacitor exhibits excellent power density for instantaneous application of power, and has many advantages such as a semi-permanent lifetime and is used in various fields.

Such an electric double layer capacitor is currently under active research in various countries around the world, and has a variety of advantages in terms of use and structure, and is being produced in various configurations. One example of such an electric double layer capacitor is "EDLC production system and method Korean Patent Registration No. 10-1107673).

The " EDLC production system and method " in the above Patent Document 1 is a system in which a first electrode is mounted on the opening in a substrate having a plurality of grid arrangements formed with openings, and a first electrode mounting A second electrode mounting part for mounting a second electrode at a position corresponding to the opening in a lead covering a whole of a plurality of grid arrangements provided in the substrate and a second electrode mounting part for mounting the lead on the electrode layer, Wherein cutting grooves are formed in the outline of each of the grid arrangements provided on the substrate including a bonding portion to be bonded to the substrate and the second electrode mounting portion applies an adhesive material to the bonding surface with the substrate at the lead, There is an advantage that the problem of alignment can be solved in joining the individually cut lattice array and the lead of the size corresponding thereto.

However, in the " EDLC production system and method " of Patent Document 1, there is no configuration for a welding apparatus capable of precisely aligning a substrate and a lead and precisely welding a very small substrate and a lead, It is difficult to fabricate such a structure.

Patent Document 1: Korean Patent Publication No. 10-1107673

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a semiconductor device, in which ceramic and a lead surrounding the electrode are accurately aligned, And an electrode for welding an electric double layer capacitor which can reliably produce an electric double layer capacitor.

In order to solve the above problems, the electric double layer capacitor welding apparatus according to the present invention is characterized in that the ceramic (11) and the lead (12) are integrally formed so as to integrate the ceramic (11) An electric double layer capacitor welding apparatus (1) for laser welding a lead (12), comprising: a lower housing (100) having a space formed therein; a main plate (200) formed on an upper portion of the lower housing (100); A ceramic mounting part 300 provided on the main plate 200 and on which the ceramic 11 having the electrode impregnation process is placed is mounted on an upper surface of the main plate 200, A lead mount part 400 on which the lead 12 having completed the process is mounted and a ceramic mount part 300 mounted on the ceramic mount part 300 to move the ceramic mount part 300 mounted on the ceramic mount part 300 (500); and a main body A lead transfer unit 600 mounted on the main plate 200 for moving the lead 12 mounted on the lead seating unit 400 and an upper plate 200 mounted on the main plate 200, A ceramic mounting part 700 for mounting the ceramic 11 moved through the transmission part 500 and a ceramic mounting part 700 installed to be rotatable counterclockwise on the main plate 200, A ceramic transfer rotary plate 800 in which a plurality of ceramic movement guide members 810 are installed to move the upper portion of the ceramic 11 mounted on the ceramic mounting portion 700 by air, And a plurality of lead mount portions 910 are mounted on the upper portion of the lead frame 200 so as to be rotatable in a clockwise direction and on which the leads 12 transported through the lead transfer portion 600 are mounted. A plate 900 and a lower plate The ceramic movement guide member 810 and the lead mounting portion 910 are aligned in the vertical direction through the rotation of the ceramic transfer rotary plate 800 and the lead transfer rotary plate 900, When the ceramic moving guide member 810 descends and is seated on the upper portion of the lead mounting portion 910, the ceramic 11 and the lead 12 are overlapped with each other, The ceramic member according to any one of the preceding claims, wherein the ceramic member (11) and the lead (12), which are provided at a lower portion of the main plate (200) And a main welding member 1100 which is moved by the welding wire 810 to weld the edge 12b of the lower portion of the lead 12 with laser.

The ceramic transporter 500 includes a longitudinal guide rail 510 and a movable block 520 connected to the guide rail 510 to move forward and backward. A vertical block 530 is formed at one side of the block 520 and a vertical block 530 is formed at a side of the vertical block 530. An upper portion of the ceramic 11 seated on the ceramic seating part 300 And a first mounting unit 540 for mounting is formed.

The first stationary unit 540 is formed with a first stationary guide member 541 including first engaging holes 542 on both sides of the lower portion thereof and is seated on the ceramic seating portion 300 A plurality of first insertion grooves 543 are formed in the first insertion groove 543 so that the ceramics 11 inserted into the first insertion groove 543 are inserted into the first insertion groove 543, And the first suction hole 544 is formed so as to be fixed through the air suction.

The ceramic mounting portion 700 includes a fixed mounting portion 710 fixed to the main plate 200 and a linear block 710 which is moved in the forward and backward directions on the fixed mounting portion 710 And a seating block 730 including a plurality of seating holes 731 for seating the ceramic 11 mounted on the first seating unit 540 is formed on the linear block 720. [ And when the first mounting unit 540 is lowered by the vertical block 530 in a state where the first mounting unit 540 is positioned at the same position on the vertical line of the seating block 730 on both sides of the seating block 730, The first engaging protrusion 732 is formed so that the ceramic 11 inserted into the first engaging hole 542 and inserted into the first inserting groove 543 is seated in the mounting seating groove 731 at a predetermined position .

The ceramic moving guide member 810 is moved upward and downward and the lower portion of the ceramic moving guide member 810 is provided with a mounting plate 812 for mounting an upper portion of the ceramic 11 mounted on the ceramic mounting portion 700 A plurality of second insertion grooves 813 are formed in the lower portion of the mounting plate 812 to insert the ceramics 11 seated in the mounting seating groove 731, A second suction hole 814 is formed in each of the second insertion slots 813 so as to fix the ceramics 11 inserted into the second insertion slots 813 through air suction, The first corner exposure hole 815 is formed in the upper portion of the first insertion hole 812 such that the upper edge of the ceramic 11 inserted into the second insertion groove 813 is exposed.

When the second mounting unit 811 is lowered on both sides of the lower portion of the second mounting unit 811 in a state where the second mounting unit 811 is at the same position on the vertical line of the mounting block 730, And the second engaging protrusion 817 is formed so that the ceramic 11 inserted into the first inserting groove 543 is seated in the second inserting groove 813 in a predetermined position, (816).

A plurality of third insertion grooves 911 are formed in the lead mounting portion 910 so that the lead 12 transferred through the lead transfer portion 910 is seated. A third suction hole 912 is formed in the third insertion groove 911 so that the lead 12 inserted in the third insertion groove 911 is fixed through air suction, A second corner exposure hole 913 is formed in such a manner that a bottom edge of the lead 12 inserted in the third insertion groove 911 is exposed.

The ceramic movement guide member 810 and the lead mounting portion 910 are vertically disposed on the upper portion of the main plate 200 through rotation of the ceramic transfer rotation plate 800 and the lead transfer rotation plate 900, When the ceramic moving guide member 810 is lowered and seated on the upper portion of the lead mounting portion 910 in a state where the ceramic moving guide member 810 is positioned on the straight line in the direction of the first corner exposure guide hole 815, And a coupling guide pressing member 1200 for pressing the upper edge to guide the contact between the ceramics 11 and the lead 12 on the horizontal plane is formed.

A pressing rod member 1211 having four pressing protrusions 1211 protruded to press the upper edge of the ceramics 11 through the first corner exposure hole 815 is formed in the lower portion of the coupling guide pressing member 1200 1210 are formed in a plurality of rows.

Further, the pressing rod member 1210 is formed of a material containing at least one of tungsten or a carbide material.

As described above, according to the present invention, the ceramics and the leads surrounding the electrodes are precisely aligned, and the lead bottom edge is first contacted with the bottom edge of the lead, There is an advantage that a high electric double-layer capacitor can be produced.

1 is a perspective view showing the entirety of an electric double layer capacitor welding apparatus according to a preferred embodiment of the present invention.
2 is an exploded perspective view showing an exploded view of an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention.
FIG. 3 is a perspective view showing components of a main plate of an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention. FIG.
4 is a perspective view showing an electric double layer capacitor composed of a ceramic and a lead.
FIG. 5 is a perspective view showing a ceramic seating part in the construction of an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention. FIG.
FIG. 6 is a perspective view showing a state of a lead seating part in an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention. FIG.
FIG. 7 is a perspective view showing a ceramic mounting portion of an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention. FIG.
FIG. 8 is a perspective view showing a ceramic feeding part and a lead feeding part in the construction of an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention. FIG.
FIG. 9 is a perspective view showing components included in a ceramic transfer rotary plate and a ceramic transfer rotary plate in an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention. FIG.
10 is a perspective view showing components of a lead transfer rotary plate and a lead transfer rotary plate in an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention.
11 is a perspective view showing the entire structure of a coupling guide pressing member in the construction of an electric double layer capacitor welding equipment according to a preferred embodiment of the present invention.
12 is a perspective view showing a pressing rod member in the configuration of a coupling guide pressing member according to a preferred embodiment of the present invention.
FIGS. 13 to 20 are views showing a process in which a ceramic and a lead are welded to each other through an electric double layer capacitor welding apparatus according to a preferred embodiment of the present invention. FIG.
FIG. 21 is a perspective view showing a position adjusting plate configured to accurately fix the first and second fixing post members of the electric double layer capacitor welding equipment according to the preferred embodiment of the present invention to the main plate. FIG.

Hereinafter, an electric double layer capacitor welding equipment 1 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that, in the drawings, the same components or parts are denoted by the same reference numerals whenever possible. In describing the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as to avoid obscuring the subject matter of the present invention.

Before describing the present invention, the motors, cylinders, and air suction devices that provide the driving force and the air suction force for operating the constituent elements of the present invention correspond to a level of technology well known in the field to which the present invention belongs, Is omitted.

Also, in order to explain the present invention in detail and in detail, it should be noted that some drawings in the drawings are omitted to illustrate a part of the present invention.

It should be noted that the ceramic movement guide member 810 and the lead mounting portion 910, which are formed in a plurality of numbers, are illustrated in the drawings and the detailed description in the drawings for the sake of precise and detailed description of the present invention.

1 to 20, an electric double layer capacitor welding apparatus 1 according to an embodiment of the present invention includes a lower housing 100, a main plate 200, a ceramic mount 300, A ceramic transfer part 800, a lead transfer rotary plate 900, a usable contact member 1000, a main welding part 400, a ceramic transfer part 500, a lead transfer part 600, a ceramic mounting part 700, Member 1100 and a coupling guide pressing member 1200. [

First, the lower housing 100 will be described. The lower housing 100 is a box-shaped frame in which the components of the present invention are installed. In the upper part, an upper part of the lower housing 100, which is a main part of the present invention, (20) is preferably provided.

On the lower side of the lower housing 100, a movable contact member 1000 for contacting the electric double layer capacitor 10 and a main welding member 1100 for main welding are installed.

The movable contact member 1000 moves the ceramic movement guide member 810 and the lead mounting portion 910 in the vertical direction through rotation of the ceramic transfer rotation plate 800 and the lead transfer rotation plate 900 When the ceramic moving guide member 810 is lowered and seated on the upper portion of the lead mounting portion 910 in a state where the ceramic moving guide member 810 is positioned on a straight line and the ceramic 11 and the lead 12 are overlapped with each other, The ceramic member 11 and the lead 12 are welded to the ceramic moving guide member 810. The ceramic moving guide member 810 and the ceramic moving guide member 810 are made of the same material, To weld the edge 12b of the lower portion of the lead 12 with the laser.

First and second sub-drivers 31 and 32 for rotating a ceramic transfer rotary plate and a lead transfer rotary plate to be described later are installed on the upper portion of the lower housing 100, A main driving unit 30 for providing a driving force to each of the first and second sub-driving units 31 and 32 is provided.

Next, the main plate 200 will be described. The main plate 200 is a kind of plate installed on the upper portion of the lower housing 100, and is a structure for seating and fixing the components of the present invention.

Next, the ceramic seating part 300 will be described. The ceramic mounting part 300 is a component installed on the main plate 200 and on which the ceramics 11 having completed the electrode impregnation process is seated. The ceramic mounting part 300 includes a first fixing pillar 310 and a first storage plate 320 ).

The first fixing post member 310 is a component that is fixed to the upper portion of the main plate 200. The first fixing plate member 320 and the position adjusting jig 1300, And a first main plate fixing hole 312 is formed at a lower portion of the first fixing column member 310 so that the first fixing column member 310 can be coupled to the main plate 200 by bolting or the like.

The first storage plate 320 is a component that is detachably attached to the upper portion of the first fixed column member 310 and stores the ceramic 11 having completed the electrode impregnation process. A plurality of first storage grooves 320 are formed.

Next, the lead seating portion 400 will be described. The lead seating part 400 is a component that is installed on the upper part of the main plate 200 and on which the rig 12 completing the electrode impregnation process is seated. The second seating part 400, which is the same as the ceramic seating part 300, A member 410 and a second storage plate 420 are provided.

The second fixing post member 410 is a component fixed to the upper portion of the main plate 200. The upper portion of the second fixing post member 410 is provided with the second positioning plate 420 and the position adjusting jig 1300, And a second main plate fixing hole 412 is formed at a lower portion of the second fixing column member 410 so that the second fixing column member 410 can be coupled to the main plate 200 by bolting or the like.

The second storage plate 420 is detachably attached to the upper portion of the second fixing post 310 to store the lid 12 having completed the electrode impregnation process. A plurality of first storage grooves 420 are formed.

On the other hand, it is important that each of the ceramic seating part 300 and the lid seating part 400 are accurately positioned and fixed to the main plate 200 for the precise process of the present invention.

For this purpose, each of the first and second stationary post members 310 and 410 is fastened to each of the first and second stationary post members 310 and 410 before coupling such as bolting to the main plate 200. [ The jig 1320 formed in the position adjusting jig 1300 and the ceramic jig 1300 formed in the ceramic jig 1300 are connected to each other using the ceramic transfer sheet 500 and the lead transfer unit 600, The first and second fixing pillar members 310 and 410 can be accurately fixed by connecting the first and second coupling holes 542 and 642 formed in the lead transfer part 600 and then tightening the bolts.

Next, the ceramic transferring section 500 will be described. The ceramic transferring unit 500 transfers the ceramic 11 mounted on the ceramic mounting part 300 to the ceramic mounting part 700 to be described later, A moving block 520 is formed which is connected to the guide rail 510 to be moved in the forward and backward directions and is mounted on one side of the moving block 520 in the upward and downward directions A vertical block 530 to be moved is formed and a first mounting unit 540 is mounted on one side of the vertical block 530 to mount an upper part of the ceramic 11 seated on the ceramic mounting part 300 .

The first stationary unit 540 includes a first stationary guide member 541 including first engaging holes 542 on both sides of the lower portion thereof, A plurality of first insertion grooves 543 are formed in the first insertion groove 543 so that the ceramics 11 inserted into the first insertion groove 543 are inserted into the first insertion groove 543, And the first suction hole 544 is formed in such a manner as to be fixed through the air suction.

Next, the lead transfer unit 600 will be described. The lead transfer unit 600 includes a lead mount portion 910 of the lead transfer rotary plate 900 to be described later which is installed on the main plate 200 and is seated on the lead mount portion 400, A guide block 610, a moving block 620, a vertical block 630 and a second mounting unit 640, which are components of the lead transfer part 600, And the detailed description thereof will be omitted.

Next, the ceramic mounting portion 700 will be described. The ceramic mounting portion 700 is a component for mounting the ceramic 11 installed on the main plate 200 and moved through the ceramic transfer portion 500. The ceramic mounting portion 700 includes a ceramic transfer rotary plate 800 The ceramic moving guide member 810 formed on the ceramic mounting part 300 serves as a guide to attract the ceramic 11 held on the ceramic mounting part 300.

The ceramic mounting portion 700 includes a fixed mounting portion 710 fixed to the main plate 200 and a linear block 720 which is moved in the forward and backward directions on the fixed mounting portion 710. [ And a seating block 730 including a plurality of seating recesses 731 for seating the ceramic 11 mounted on the first seating unit 540 is formed on the linear block 720 And when the first mounting unit 540 is lowered by the vertical block 530 at the same position on the vertical line of the seating block 730 on both sides of the seating block 730, The first engaging protrusion 732 is formed so that the ceramic 11 inserted into the first engaging hole 542 and inserted into the first inserting groove 543 is seated in the mounting seating groove 731 in the correct position.

Next, the ceramic transfer rotary plate 800 will be described. The ceramic transfer rotary plate 800 is rotatably mounted on the upper portion of the main plate 200 so as to be rotatable in a counterclockwise direction. The ceramic transfer rotary plate 800 is moved upward and downward to be mounted on the ceramic mounting portion 700 A plurality of ceramic movement guide members 810 for air sucking the upper portion of the ceramic 11 are formed.

The ceramic movement guide member 810 is configured to move upward and downward and a mounting plate 812 for mounting the upper portion of the ceramic 11 mounted on the ceramic mounting portion 700 is formed at a lower portion thereof A plurality of second insertion grooves 813 are formed in the lower portion of the mounting plate 812 so that the ceramics 11 seated in the mounting seating groove 731 are inserted into the second mounting unit 811 , A second suction hole (814) is formed in each of the second insertion slots (813) so that the ceramics (11) inserted into the second insertion slots (813) are fixed through air suction, A first corner exposure hole 815 is formed in the upper portion of the first insertion hole 812 such that the upper edge of the ceramic 11 inserted in the second insertion groove 813 is exposed.

On the other hand, a second correcting guide member 816 is formed on both sides of the lower portion of the second mounting unit 811, and a second fixing protrusion 817 is formed. Thus, the second mounting unit 811 The ceramic insert 11 inserted into the first engaging hole 542 and inserted into the first inserting groove 543 is moved in the same direction as that of the first engaging hole 730, And to be seated in the second insertion groove 813 in the correct position.

Next, the lead transfer rotary plate 900 will be described. The lead transfer rotary plate 900 is rotatably mounted on the upper portion of the main plate 200 in a clockwise direction and the lead transfer rotary plate 900 is mounted on the upper portion of the lead transfer rotary plate 900, (910) are formed.

A plurality of third insertion grooves 911 are formed in the lead mounting portion 910 such that the lead 12 transported through the lead transfer portion 910 is seated and each of the third insertion grooves 911 A third suction hole 912 is formed in such a manner that the lead 12 inserted in the third insertion groove 911 is fixed through air suction. Between the third insertion holes 911, A second corner exposure hole 913 is formed so as to expose a bottom edge of the lead 12 inserted into the third insertion groove 911. [

The ceramic transfer rotary plate 800 and the lead transfer rotary plate 900 are preferably rotated in opposite directions.

Next, the engagement guide pressing member 1200 will be described. The engaging guide pressing member 1200 rotatably supports the ceramic moving guide member 810 and the lead moving plate 900 through the rotation of the ceramic conveying rotation plate 800 and the lead conveying rotation plate 900 on the main plate 200, When the ceramic moving guide member 810 is lowered and seated on the upper portion of the lead mounting portion 910 in a state where the mounting portion 910 is positioned in a straight line in the vertical direction, And the upper edge of the ceramic 11 is pressed to guide the contact of the ceramic 11 and the lead 12 on the horizontal plane.

A pressing rod member 1211 is formed on the lower portion of the coupling guide pressing member 1200 to press the upper edge of the ceramics 11 through the first corner exposure hole 815. [ 1210).

In this case, the pressing rod member 1210 is preferably formed of a material such as a tungsten material or a carbide material.

Hereinafter, with reference to FIGS. 13 to 20, a description will be made of a process in which a ceramic and a lead are welded to each other through an electric double layer capacitor welding apparatus according to a preferred embodiment of the present invention.

13 is a process of placing the ceramic 11 having been subjected to an electrode injection and an electrolyte solution impregnation process in the ceramic mounting portion 700. The ceramic 11 is first transferred to the ceramic mounting portion 300 through an automated process. (In the present invention, the first storage groove 321 is constituted by a plurality of rows and columns).

Thereafter, the moving block 520 is moved so that the first mounting unit 540 is positioned above the first column of the first storage groove 321, and then the vertical block 530 is lowered, The upper portion of the ceramic 11 seated in the groove 321 is inserted into the first insertion groove 543 ((1) of Fig. 13). At this time, air is sucked through the first suction hole 544, so that the upper part of the ceramic 11 is sucked into the first insertion groove 543 by an air suction force.

Next, the vertical block 530 is raised and the moving block 520 is moved so that the first mounting unit 540 is positioned above the mounting seating groove 731 (FIG. 13 (2) ).

Thereafter, the vertical block 530 is lowered so that the first insertion groove 543 and the mounting seating groove 731 are brought into contact with each other (FIG. 13 (3)). The first engaging protrusion 732 is inserted into the first engaging hole 542 so that the first inserting groove 543 and the mounting recess groove 731 are brought into precise contact with each other, (11) can be accurately seated in the mounting seat (731).

Next, in a state where the first insertion groove 543 is in contact with the mounting seat groove 731, air sucking proceeding through the first suction hole 544 is interrupted, and the first insertion groove 543, The ceramic 11 is naturally seated in the mounting seating groove 731. In this case,

Thereafter, the linear block 720 is moved to complete the preparation process for placing the ceramic 11 seated in the mounting seating groove 731 on the ceramic movement guide member 810.

14 is a process of placing the lead 12 having been subjected to the electrode injection and the electrolyte solution impregnation process to the lead mounting portion 910 and is similar to the process of mounting the ceramic 11 to the ceramic mounting portion 700 , And a detailed description thereof will be omitted.

15 is a process of moving the ceramic 11 mounted on the mounting seating groove 731 to the ceramic moving guide member 810 so that the mounting seating groove 731 and the second insertion groove 813 The second mounting unit 811 is lowered through the cylinder member 803 in a straight line in the same state so that the mounting seating groove 731 and the second insertion groove 813 are brought into contact with each other. At this time, because the first engaging protrusion 732 is inserted into the second engaging hole 817, the embedding seating groove 731 and the second insertion groove 813 are brought into contact with each other accurately, (11) can be correctly inserted into the second insertion groove (813).

Next, when air is sucked through the second suction hole 814 in a state where the mounting recessed groove 731 and the second insertion groove 813 are in contact with each other, And is naturally attracted to the second insertion groove 813 due to suction.

16 is a sectional view of the ceramic transfer rotary plate 800 in order to contact the ceramic 11 adsorbed in the second insertion groove 813 and the lead 12 seated in the third insertion groove 911, And the lead transfer rotary plate 900 are rotated in respective directions so that the ceramic movement guide member 810 and the lead mounting portion 910 are aligned in a vertical direction.

17 shows a state in which the ceramic movement guide member 810 is lowered in a state where the ceramic movement guide member 810 and the lead mounting portion 910 are aligned in a vertical direction, The second engaging protrusion 914 is inserted into the second engaging hole 817 at this time so that the ceramic 11 and the lead 12 are overlapped with each other, , The ceramic (11) and the lead (12) can be accurately contacted with each other.

When the pressing rod member 1210 of the coupling guide pressing member 1200 is lowered while the ceramic 11 and the lead 12 are in contact with each other, the first corner exposure hole 815 The pressing protrusion 1211 passes and presses the upper portion of the ceramics 11 so that the ceramics 11 and the leads 12 can be closely contacted with each other.

18 shows a state in which the ceramic member 11 and the lid 12 are in contact with each other through the usable contact member 1000 provided at the lower portion of the main plate 200, The laser welding is performed to the usable contact portion 40 of the ceramic member 12a so that the ceramic 11 and the lead 12 are primarily engaged. When the second folding unit 811 is lifted up through the cylinder member 803 after the usable folding is completed, the lead 12 is pulled in a state in which the ceramic 11 is attracted to the second insertion groove 813 So that it rises in accordance with the welding to the ceramic (11).

19 and 20 show a process of rotating the ceramic transfer rotary plate 800 and the lead transfer rotary plate 900 in respective directions to move the ceramic movement guide member 810 to the main welding member 1100 And a lower edge 12b of the lead 12 through the main welding member 1100 provided below the main plate 200 in a state in which the ceramic 11 and the lead 12 are in contact with each other, Laser welding is performed on the welded portion 50 of the ceramic body 11 and welding of the ceramic body 11 and the lead 12 is completed to complete the electric double layer capacitor 10.

The ceramic conveyance rotation plate 800 and the lead conveyance rotation plate 900 are rotated in the respective directions to inspect the presence or absence of a countermeasure element, defective material discharge, idle, head clean, electric double layer capacitor 10 And discharging the finished product at the same time.

Optimal embodiments have been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: Electric Double Layer Capacitor Welding Equipment
10: electric double layer capacitor 11: ceramics
12: Lead
20: upper frame
30: main driver 31: first sub driver
32: second sub-
40: allowable contact area 50: weld area
100: Lower housing
200: main plate
300: ceramic mounting part
310: first fixed post member 311: first connection projection
312: first main plate fixing hole
320: first storage plate 321: first storage groove
400: Lead seating part
410: second fixed post member 411: second connecting projection
412: Second main plate fixing hole
420: first storage plate 421: second storage groove
500: ceramic is sent
510, 610: guide rails 520, 620:
530, 630: Vertical block 540: First mounting unit
541: first fixed position guide member 542: first engaging hole
543: first insertion groove 544: first suction hole
600: Lead is sent
640: second mounting unit 641: second correcting position guide member
642: second engaging hole 643: second engaging groove
644: second suction hole
700: Ceramic mounting part
710: Fixed mounting portion 720: Linear block
730: Mounting block 731: Mounting seat
732: first coupling protrusion
800: Ceramic feed rotary plate
801: first circular plate 802:
803: cylinder member
810: Ceramic moving guide member
811: second mounting unit 812: mounting plate
813: second insertion groove 814: second suction hole
815: first corner exposure hole 816: second correcting position guide member
817: second engaging hole
900: Lead feed rotary plate
901: second circular plate
910: Lead mounting portion
911: third insertion groove 912: third suction hole
913: second corner exposure hole 914: second engaging projection
1000: Available contact member
1100: main welding member
1200: engaging guide pressing member
1201: fixed frame part 1202: vertical linear block
1210: pressing rod member 1211: pressing projection
1300: Positioning jig 1310: Jig groove
1320: Jig protrusion

Claims (10)

An electric double layer capacitor welding apparatus (1) for laser welding a ceramic (11) and a lead (12) so that the ceramic (11) and the lead (12)
A lower housing 100 having a space formed therein;
A main plate 200 formed on the upper portion of the lower housing 100;
A ceramic mounting part 300 installed on the main plate 200 and on which the ceramic 11 having the electrode impregnating step is placed;
A lead seating part 400 installed on the main plate 200, on which the lead 12 with the electrode impregnation process is placed;
A ceramic transfer part 500 installed on the main plate 200 to move the ceramic 11 seated on the ceramic mounting part 300;
A lead transfer part 600 installed on the main plate 200 for moving the lead 12 mounted on the lead seating part 400;
A ceramic mounting portion 700 mounted on the main plate 200 to receive the ceramic 11 moved through the ceramic transfer portion 500;
The upper part of the main plate 200 is rotatable in a counterclockwise direction and the upper part of the ceramics 11 mounted on the ceramic mounting part 700 is moved upward and downward to suck air A ceramic transfer rotary plate 800 in which a plurality of ceramic movement guide members 810 are formed;
A plurality of lead mounting portions 910 are mounted on the upper portion of the main plate 200 so as to be rotatable in a clockwise direction and on which the leads 12 transferred through the lead transfer portion 600 are mounted A lead transfer rotary plate 900;
The ceramic movement guide member 810 and the lead mounting portion 910 are connected to each other through rotation of the ceramic transfer rotation plate 800 and the lead transfer rotation plate 900, When the ceramic moving guide member 810 is lowered and placed on the upper portion of the lead mounting portion 910 in a state where the ceramic moving guide member 810 is positioned in a straight line in the vertical direction, the ceramic 11 and the lead 12 are overlapped with each other An available wear member 1000 for abutting a lower edge 12a of the lead 12 with a laser in a state of being in contact with the lead 12;
The ceramics 11 and the leads 12 which are provided on the lower portion of the main plate 200 are moved by the ceramic movement guide member 810 and the edge 12b of the lower portion of the lead 12, And a main welded member (1100) welded with a laser beam to the main welding member (1100). The method according to claim 1,
The ceramic separator 500 includes:
A longitudinal guide rail 510 is formed,
A moving block 520 connected to the guide rail 510 and moving in the forward and backward directions is formed,
A vertical block 530 is formed on one side of the moving block 520 to move up and down,
A first mounting unit 540 for mounting an upper portion of the ceramic 11 mounted on the ceramic mounting part 300 is formed on one side of the vertical block 530. [ ). The method according to claim 2,
The first mounting unit 540 includes:
A first correcting guide member 541 including a first engaging hole 542 is formed on both sides of the lower portion,
And a plurality of first insertion grooves 543 are formed in the lower portion of the ceramic mounting portion 300 so that the ceramics 11 seated on the ceramic mounting portion 300 are inserted.
Wherein a first suction hole (544) is formed in each of the first insertion slots (543) so that the ceramic (11) inserted in the first insertion slot (543) is fixed through air suction. Double Layer Capacitor Welding Equipment (1). The method of claim 3,
In the ceramic mounting portion 700,
A fixed mounting portion 710 fixed to the main plate 200 is formed,
A linear block 720 is formed on the upper portion of the fixed mounting portion 710 and is moved in forward and backward directions,
A seating block 730 including a plurality of seating recesses 731 is formed on the linear block 720 so that the ceramics 11 mounted on the first seating unit 540 is seated.
When the first mounting unit 540 is lowered by the vertical block 530 on both sides of the seating block 730 in a state where the first seating unit 540 is at the same position on the vertical line of the seating block 730, (732) is formed so that the ceramic (11) inserted into the first insertion groove (543) and the ceramic (11) inserted into the first insertion groove (542) is seated in the fixing receiving groove (731) Electric double layer capacitor welding equipment (1). The method according to claim 1,
The ceramic movement guide member 810,
Up and down directions,
And a second mounting unit 811 having a mounting plate 812 for mounting an upper portion of the ceramic 11 mounted on the ceramic mounting portion 700 is provided at a lower portion thereof,
A plurality of second insertion grooves 813 are formed in the lower portion of the mounting plate 812 to insert the ceramics 11 seated in the mounting seating groove 731,
A second suction hole 814 is formed in each of the second insertion grooves 813 so as to fix the ceramics 11 inserted into the second insertion groove 813 through air suction,
A first corner exposure hole 815 is formed in the upper portion of the mounting plate 812 such that the upper edge of the ceramic 11 inserted into the second insertion groove 813 is exposed. Welding equipment (1). The method according to claim 5,
When the second mounting unit 811 is lowered on both sides of the lower portion of the second mounting unit 811 in a state where the second mounting unit 811 is at the same position on the vertical line of the mounting block 730, A second correcting guide member 816 in which the second engaging protrusion 817 is formed such that the ceramic 11 inserted into the first inserting groove 543 is seated in the second inserting groove 813 in the correct position, (1). ≪ / RTI > The method according to claim 1,
The lead mounting portion 910,
A plurality of third insertion grooves 911 are formed so that the lead 12 transferred through the lead transfer part 910 is seated,
A third suction hole 912 is formed in each of the third insertion slots 911 so that the leads 12 inserted in the third insertion slots 911 are fixed through air suction,
And a second corner exposure hole 913 is formed between each of the third insertion grooves 911 such that a bottom edge of the lead 12 inserted in the third insertion groove 911 is exposed. Electric double layer capacitor welding equipment (1). The method according to claim 1,
The ceramic movement guide member 810 and the lead mounting portion 910 are connected to the upper portion of the main plate 200 through the rotation of the ceramic transfer rotation plate 800 and the lead transfer rotation plate 900, When the ceramic moving guide member 810 is lowered and seated on the upper portion of the lead mounting portion 910 in a state where the ceramic moving guide member 810 is positioned on a straight line, the upper edge of the ceramic 11 is exposed through the first corner exposure hole 815, And a coupling guide pressing member (1200) for pressing the ceramic (11) and the lead (12) on a horizontal plane to guide the contact between the ceramic (11) and the lead (12) is formed. The method of claim 8,
A pressing rod member 1210 having a pressing protrusion 1211 protruded in four parts to press the upper edge of the ceramics 11 through the first corner exposure hole 815 is formed in the lower portion of the coupling guide pressing member 1200, And a plurality of electric double layer capacitors are formed. The method according to claim 9,
The pressing rod member 1210 includes:
Tungsten carbide, tungsten carbide, tungsten carbide or tungsten carbide.

Images