KR101900179B1 - Apparatus for manufacturing electrochemical double layer cell - Google Patents

Abstract

In the present invention, urethane synthetic resin is simultaneously injected into the first port groove (15a) and the second port groove (15b) so that the same amount is filled at the same time so that the two urethane synthetic resins can undergo the curing process for the same time It is possible to remarkably reduce defective phenomena due to different amounts and unevenness due to different curing time in the first port grooves 15a and the second port grooves 15b, The urethane synthetic resin is discharged to the first port groove 15a and the second port groove 15b through the first needle pipe 42 and the second needle pipe 43 via the body 41 to discharge the urethane synthetic resin to the first port groove 15a and the second port groove 15b, The discharge amount of the urethane synthetic resin by the needle pipe 42 and the second needle pipe 43 is made equal to the discharge speed of the urethane synthetic resin by the conditions of the urethane synthetic resin in the first port groove 15a and the second port groove 15b The condition of the positive and the condition of the time of curing) The present invention is an invention related to an apparatus for manufacturing an electric double layer device capable of more uniformly eliminating defective phenomena due to unbalance.

Description

[0001] APPARATUS FOR MANUFACTURING ELECTROCHEMICAL DOUBLE LAYER CELL [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an apparatus for manufacturing an electric double layer element, and more particularly, to an electric double layer element manufacturing apparatus capable of remarkably reducing a defect in manufacturing an electric double layer element.

Generally, an electric double layer device is a device for storing electric energy such as a battery, a capacitor, an electrolytic capacitor or an electrochemical double layer capacitor, Charging and discharging. It is used for mobile phones, GPS receivers, MP3 players or memory backups, or for driving motors in wind, solar, electric cars or hybrid cars.

An example of an electric double layer device is a capacitor.

The electric double layer capacitor functions to accumulate electricity like a battery by forming an electrostatic layer on the interface between the activated carbon electrode and the organic electrolyte and using the electric double layer state as a function of the dielectric.

Particularly, the charge accumulated in the electric double layer generated between the solid electrode and the solid or liquid electrolyte is used.

Capacitors have low energy density compared to batteries, but exhibit excellent power density in terms of instantaneous high power output, and have been applied to various fields due to their semi-permanent lifetime exceeding several hundred thousand times.

As a principle of the electric double layer capacitor, when a pair of solid electrodes are put in an electrolyte solution of an electrolyte and a DC voltage is applied, anion is positively induced in the electrode polarized by the anode, and positive ions are induced in the electrode polarized in the cathode, . Particularly, in the case of activated carbon, numerous pores are distributed and the electric double layer is formed naturally.

At this time, the structure of the electric double layer capacitor is composed of an electrode, a separator, an electrolyte, a current collector and a case.

Among these, the most important part of the capacitor is the selection of the material used for the electrode, but the capacitance is also changed by various other components.

The electrode material must have high electrical conductivity, high specific surface area, and electrochemical stability.

Next, an example of an electric double layer device battery is shown.

A battery is a device that converts the chemical energy of a chemical substance (active material) contained therein into an electrical energy through an electrochemical oxidation-reduction reaction (redox reaction).

A cell represents a collection of two or more electrochemical cells, but is usually used for a single cell. Such a cell is made such that an electrochemical reaction takes place instead of a chemical reaction so that electrons can flow to the outside through a lead. Electrons flowing through the lead provide an electrical usefulness as a source of electrical energy.

More specifically, the cell has active materials such as a cathode or a positive electrode and an anode or a negative electrode, which are placed on the current collector, are separated from each other by a separator, and an electrolyte (electrolyte).

In order to operate lamps, machines and appliances, proper electrode materials and electrolytes should be selected and arranged in a special structure so that sufficient voltage and current can be generated between the two electrodes of the battery.

For example, a cathode that receives electrons from an external conductor and that reduces the cathode active material, a cathode that discharges electrons to the conductor as the anode active material oxidizes, and an oxidation reaction of the anode and a cathode, A separator for preventing physical contact between the anode and the cathode, and the like must be arranged so as to be able to provide chemical energy as electrical energy.

The negative electrode of the battery arranged in this way basically emits electrons and oxidizes itself. When the positive electrode receives electrons (together with positive ions) and the battery itself is operated to be connected to an external load, the two electrodes are electrochemically They make changes and do electrical work.

At this time, the electrons generated by the oxidation reaction of the cathode migrate to the anode via the external load, reach the anode and cause a reduction reaction with the cathode material, and anion (negative ion) and cation ion) to complete the charge flow.

Inside the electrolyte, the reaction proceeds so that the charge continues to flow through the outer conductor, and by doing so, the electrical work is carried out on the charge.

A battery can be classified into a liquid electrolyte cell and a polymer electrolyte cell depending on the kind of electrolyte. Generally, a battery using a liquid electrolyte is called a lithium ion battery, and a lithium polymer battery when a polymer electrolyte is used.

FIG. 1 is a schematic view showing the structure of a general electric double layer device, FIG. 2 is a schematic view for explaining the charging principle of an electric double layer capacitor applied to a general electric double layer device, and FIG. 3 is a schematic view showing an electric double layer capacitor And FIG.

A general electric double layer device 100 includes an electrode 10, an electrolyte 20, a current collector 30, a separator 40, a first lead terminal 61 and a second lead terminal 62 ).

At this time, when the electric double layer device 100 is compared with a battery, the chemical energy of the chemical material (active material) contained therein will be converted into electric energy through an electrochemical oxidation-reduction reaction, The electrode 10 covered on the entire body 30 has an active material such as a positive electrode and a negative electrode.

On the other hand, when the electric double layer device 100 is compared with a capacitor, its characteristics will be described in more detail. By using a distribution in which positive and negative charges are arranged in a short distance in the interface between two different electrodes 10, And exhibits a high capacitive characteristic in the farad unit, and has a characteristic that performance change and deterioration due to charging and discharging cycles are extremely small.

The electrode 10 stores the charge by the electric double layer formed at the interface with the electrolyte 20 using activated carbon having a large specific surface area and the electrode 10 has a capacitance ) And internal resistance characteristics are the most important criteria for performance evaluation. Therefore, the material should have low resistivity and be a porous structure, and the pore size and distribution of the porous structure should be simple and balanced. The characteristics of the material of the electrode 10 dominate the intrinsic charge and discharge characteristics of the electric double layer capacitor.

Therefore, active carbon sub-system having a large specific surface area and low cost is widely used as the current electrode 10, and studies using metal oxides and conductive polymers have been increasing to increase energy density.

On the other hand, the electrolyte 20 uses an organic solvent, a quaternary ammonium salt (organic), and an aqueous sulfuric acid solution (aqueous solution). Electrical conductivity can be improved by mixing certain proportions of PC, ethylmethyl carbonate (EMC), PC and dimethoxyethane (DME) in organic solvent electrolytes.

The electrostatic capacity per unit area of the electric double layer capacitor using the organic electrolyte is 4 to 6 kW / cm 2, and the electric conductivity of the aqueous system is higher than that of the organic electrolyte. But there are some disadvantages such as narrowing of potential window and decomposition.

As the separator 40, nonwoven fabric, porous polyethylene (PE), polypropylene (PP) film or the like is used.

The charging principle of the electric double layer capacitor 100 as one of the electric double layer elements 100 is as shown in FIG. 2 in a state in which the two electrodes 10 and the electrolyte 20 are opposed to each other with the separator 40 interposed therebetween, As shown in the schematic diagram for explaining the charging principle of the electric double-layer capacitor, in the state where there is no supply of electric energy from the outside, the electric charge distribution in the inside becomes a bulk state in which the distribution is uneven and the electric potential difference between the electrodes 10 becomes 0, When electric energy is supplied from the outside as shown in a circuit diagram for explaining the charging / discharging principle of the electric double-layer capacitor of FIG. 2, the internal charge distribution is uniformly formed, ₁ voltage is charged.

At this time, even if the supply of the electric energy is interrupted, the already formed electric double layer does not disappear, and the charged electric energy is maintained and preserved.

Prior Art Document 1 (Korean Published Patent Application No. 2009-0118328; Modular Electric Double-Layer Capacitor and Manufacturing Method Thereof)

FIG. 4 is a process diagram showing a manufacturing process of the electric double layer capacitor according to the prior art document 1, FIG. 5 is a diagram illustrating the manufacturing method of the integrated electric double layer capacitor according to the prior art document 1, FIG. 2 is a configuration diagram for explaining a manufacturing process of an electrode device constituted in an electric double layer capacitor according to Document 1. FIG.

2. Description of the Related Art Generally, energy storage devices such as rechargeable / rechargeable secondary batteries such as an electrolytic capacitor and an electric double layer capacitor (EDLC) are widely used as a jelly roll type winding-type battery.

4, a retractable energy storage device, such as an EDLC (Electrochemical Double Layer Capacitor), is mainly composed of a cylindrical case 20 made of aluminum (Al), a case 20 (Not shown).

The winding element 10 has a structure in which a band-shaped electrode laminate, that is, an electrode element of positive and negative electrodes, and a belt-like electrode laminate composed of an electrolytic sheet interposed between the electrode elements of the positive and negative electrodes, Winding, and then taping the outside so that the winding shape is not loosened.

The terminal 30 is provided on the upper portion of the winding element 10 and the terminal plate 30 is provided with a lug. Or an external terminal 40 of a screw type is fastened.

A neck portion 21 for preventing the terminal plate 30 from being pushed downward is formed at an upper portion of the case 20 so that the winding element 10 is formed in such a manner that the neck portion 21 is formed in the case 20 And the winding element 10 and the external terminal 40 are electrically connected to each other by the terminal 23. Thereafter, the terminal board 30 is fixed in the case 20 through a curling process of bending the upper end 22 of the case 20, thereby completing assembly.

6, the electrode element 100 includes an electrode current collecting sheet 111 such as a conventional aluminum foil and an electrode active material coated on the current collecting sheet 111 112).

The electrode active material 112 is formed by applying a conductive paste mainly composed of activated carbon.

The terminal 120 is coupled to the electrode element 100. At this time, the electrode active material 112 is removed by scraping a portion to which the terminal 120 is to be coupled first, and then the electrode active material 112 is removed by a process such as rivetting, 120 are coupled to each other.

FIG. 7 is a perspective view showing an electric double layer device according to the prior art document 2 (Korean Patent No. 1599711), FIG. 8 is an exploded perspective view showing the electric double layer device according to the prior art document 2, Sectional view illustrating an electric double-layer device according to a second embodiment of the present invention.

The electric double layer device according to the prior art document 2 is composed of a first winding sheet 11 and a second winding sheet 12 wound with being wound while being separated by the separating sheet 13 as shown in Figs. A first terminal 21 and a second terminal 22 connected to the first current collecting sheet 11 and the second current collecting sheet 12 and a second terminal 22 connected to the first current collecting sheet 11 and the second current collecting sheet 12, A first through hole 41 and a second through hole 22 which are opened so as to pass through the first terminal 21 and the second terminal 22 while exposing the case 30 while covering the case 30, 42, respectively.

10 is a configuration diagram showing a winding electrode unit applied to an electric double layer element according to the prior art document 2.

The first current collecting sheet 11 and the second current collecting sheet 12 may be made of an aluminum foil coated with an electrode active material as shown in FIGS. 7 to 10, and may be utilized as a cathode current collector and a cathode current collector The electrode active material may be mainly composed of a conductive paste containing activated carbon as a main material. After impregnating the winding electrode unit 10 composed of the first current collector sheet 11 and the second current collector sheet 12 into the electrolyte solution, And the upper end of the case 30 toward the rubber plug 40 is beaded and curled to complete the coupling.

At this time, the first terminal 21 connected to the first current collecting sheet 11 used as the positive electrode current collector is connected to the second terminal 12 connected to the second current collecting sheet 12, 22) are written as negative terminal.

As a result of accelerated testing of the electric double layer device having such a structure at 2.7 V in a temperature environment of 60% relative humidity at 90%, a gap between the second terminal 22 used as the negative terminal and the second through hole 42 As the cation exits, it interacts with the external humidity to generate a wetting phenomenon, so that the lifetime is limited to about 1000 hours.

In the prior art document 2, a urethane port portion (not shown) for filling a gap between the first terminal 21 and the first through hole 41 and a gap between the second terminal 22 and the second through hole 42 50) to prevent leakage of the positive ions and to increase the lifetime of the positive ions.

More specifically, the urethane porting portion 50 has a first through hole 41 through which the first terminal 21 and the second terminal 22 pass, and an upper portion 40 of the rubber electrical conductor 40 around the second through hole 42 The first port grooves 51 and the second port grooves 52 which are relatively lowered by the volume jaws 43 protruding from the first port grooves 51 and the second port grooves 52, And a urethane synthetic resin 53 which is filled and hardened.

The urethane synthetic resin 53 can be quickly and easily introduced into the first port grooves 51 and the second port grooves 52 which are relatively lowered by the volume jaws 43 projected to the upper portion of the rubber drum 40 So that the workability is ensured and the phenomenon that the urethane synthetic resin 53 spreads to the periphery after the insertion of the urethane synthetic resin 53 is minimized, thereby ensuring a clean appearance finish.

The first terminal 21 and the second terminal 22 are connected to the first collecting sheet 11 and the second collecting sheet 12 to form first through holes 41 and second through holes 42, And an outer terminal T welded to the aluminum terminal A and exposed to the outside of the rubber bat 40 (a terminal made of copper plating and tin plating on the iron terminal) In particular, the aluminum terminal (A) can be anodized to form the aluminum oxide film (A1).

Applicants have developed an apparatus for manufacturing an electric double layer device of prior art documents and propose the present invention.

Korean Patent Publication No. 2009-0118328; Modular electric double layer capacitor and manufacturing method thereof Korean Patent No. 1599711; Electric double layer device

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus for manufacturing an electric double layer device capable of remarkably reducing defects in manufacturing an electric double layer device.

It is an object of the present invention to simultaneously dispense urethane synthetic resin in the first port grooves and the second port grooves so that the same amount is filled at the same time so that the two urethane synthetic resins can undergo the curing process for the same time, The present invention provides an apparatus for manufacturing an electric double layer device capable of remarkably reducing defective phenomena due to unevenness due to different amounts and different curing times in the grooves and the second port grooves.

It is an object of the present invention to provide a method and an apparatus for supplying a urethane synthetic resin to a first port groove and a second port groove simultaneously through a first needle pipe and a second needle pipe via a communication body, And the discharge speed of the urethane synthetic resin by the second needle pipe are made equal to each other so that the conditions of the urethane synthetic resin in the first port grooves and the second port grooves (the conditions of the filled amount and the conditions of the curing time) And it is possible to more positively solve the defective phenomenon due to the unbalance.

An object of the present invention is to provide a method of manufacturing a cushioning material, which comprises curing a urethane synthetic resin passing through a first inclined hole and a second inclined hole while uniformly applying the first and second terminal grooves around a first terminal and a second terminal inwardly So that the defective rate during discharge and curing of the urethane synthetic resin can be remarkably reduced.

It is an object of the present invention to provide a cushioning material which can be cured while uniformly applying urethane synthetic resin passing through the first bending portion and the second bending portion to the first port groove and the second port groove around the first terminal and the second terminal inwardly at both sides So that it is possible to remarkably reduce the defective rate during discharge and curing of the urethane synthetic resin.

An object of the present invention is to provide a luer adapter which is connected to a first needle pipe and a second needle pipe after the luer adapter is communicated with a transverse flow path so that a urethane synthetic resin passing through a hose from a tank is introduced into a transverse flow path, 2 needle pipes and can be applied to the first port grooves and the second port grooves at the same amount and at the same time so that the defective rate during discharge and curing of the urethane synthetic resin can be more thoroughly reduced, .

According to an aspect of the present invention,

The electric double layer elements having the rubber electrode provided with the first port grooves and the second port grooves around the first terminal and the second terminal while covering the case accommodating the winding electrode unit having the first terminal and the second terminal And a discharger for discharging the urethane synthetic resin to the first port grooves and the second port grooves of each of the electric double layer elements in a sequential manner while being aligned with the columns,

Wherein the discharger includes a discharge bundle communicating with a hose connected to a tank containing the urethane synthetic resin to simultaneously and quantitatively discharge the urethane synthetic resin to the first port groove and the second port groove,

Wherein the discharge bundle includes a communication body communicating with the hose and a first needle pipe and a second needle pie communicating with the communication body and simultaneously discharging the urethane synthetic resin to the first port groove and the second port groove by a predetermined amount As a basic feature on its technical structure.

The present invention has the effect of significantly reducing defects in the production of an electric double layer device.

The present invention allows both the first port grooves and the second port grooves to simultaneously dispense urethane synthetic resin so that the same amounts are filled at the same time so that the two urethane synthetic resins can undergo the curing process for the same time, It is possible to remarkably reduce defective phenomena due to unbalance due to different amounts and different hardening times in the second port grooves.

The present invention is characterized in that a first needle pipe and a second needle pipe which are not directly connected to a hose but are connected to each other through a communicating body simultaneously discharge a urethane synthetic resin to a first port groove and a second port groove, The discharge amount and the discharge speed of the urethane synthetic resin by the two needle pipes are made the same so that the conditions of the urethane synthetic resin in the first port grooves and the second port grooves (the conditions of the filled amount and the conditions of the curing time) It is possible to more positively eliminate defective phenomena due to unbalance.

The present invention is characterized in that the urethane synthetic resin passing through the first inclined hole and the second inclined hole is uniformly applied to both the first terminal groove and the second port groove around the first terminal and the second terminal inwardly at both sides So that the defective rate at the time of discharging and curing the urethane synthetic resin can be remarkably reduced.

The urethane synthetic resin passing through the first bending portion and the second bending portion can be hardened while being uniformly applied in the first port groove and the second port groove around the first terminal and the second terminal inward from both sides, The defective rate at the time of discharging and curing the synthetic resin can be remarkably reduced.

The present invention is characterized in that after the luer adapter is communicated with the transverse flow path and then connected to the first needle pipe and the second needle pipe so that the urethane synthetic resin passing through the hose from the tank flows into the transverse flow path, It is possible to distribute the same uniformly and uniformly to the first port grooves and the second port grooves at the same amount and at the same time so that the defect rate at the time of discharge and curing of the urethane synthetic resin can be further reduced.

The present invention has the effect of satisfying not only the assemblability of the discharge roll but also the neatness of the appearance.

The present invention has the effect of ensuring sealing of the discharge bundle.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the structure of a general electric double layer element. FIG.
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric double layer capacitor, and more particularly,
3 is a circuit diagram for explaining the charging / discharging principle of an electric double layer capacitor applied to a general electric double layer device.
4 is a process diagram showing a manufacturing process of an electric double layer capacitor according to the prior art document 1;
5 is a view for explaining a method of manufacturing an integrated electric double layer capacitor according to the prior art document 1;
6 is a view for explaining a manufacturing process of an electrode element constituting an electric double layer capacitor according to the prior art document 1;
7 is a perspective view showing an electric double layer element according to the prior art document 2;
8 is an exploded perspective view showing an electric double layer element according to the prior art document 2;
9 is a longitudinal sectional view showing an electric double layer element according to the prior art document 2. Fig.
10 is a view showing a winding electrode unit applied to an electric double layer element according to the prior art document 2. Fig.
11 is a perspective view showing a first terminal and a second terminal applied to the electric double layer element according to the prior art document 2;
12A is a perspective view showing an electric double layer element before the urethane synthetic resin is filled to explain an apparatus for manufacturing an electric double layer element according to the present invention.
12B is a perspective view showing an electric double layer element after the urethane synthetic resin is filled to explain an apparatus for manufacturing an electric double layer element according to the present invention.
13 is a schematic perspective view showing an apparatus for manufacturing an electric double layer element according to the present invention.
14A is a perspective view showing a discharge bundle applied to an apparatus for manufacturing an electric double layer element according to the present invention.
14B is an exploded perspective view showing a discharge bundle applied to the apparatus for manufacturing an electric double layer element according to the present invention.
14C is a front sectional view showing a discharge bundle applied to an apparatus for manufacturing an electric double layer element according to the present invention.
15A is a front view including an electric double layer element showing a discharge bundle applied to an apparatus for manufacturing an electric double layer element according to the first embodiment of the present invention.
15B is a front view including an electric double layer element showing a discharge bundle applied to an apparatus for manufacturing an electric double layer element according to a second embodiment of the present invention.

A preferred embodiment of an apparatus for manufacturing an electric double layer device according to the present invention will be described with reference to the drawings. There may be a plurality of embodiments thereof, and the objects, features and advantages It becomes understandable.

12A is a perspective view showing an electric double layer element 10 before the urethane synthetic resin is filled to explain an apparatus for manufacturing the electric double layer element 10 according to the present invention, 1 is a perspective view showing the electric double layer element 10 after the urethane synthetic resin is filled to explain the device.

The electric double layer element 10 according to the present invention covers the case 14 accommodating the winding electrode unit 13 having the first terminal 11 and the second terminal 12 as shown in Fig. The first port 15a and the second port 15b are provided around the first terminal 11 and the second terminal 12. The first port 15a and the second port 15b are connected to the first port 15a, The grooves 15a and the second port grooves 15b are filled with urethane synthetic resin and cured to prevent leakage of positive ions.

13 is a schematic perspective view showing an apparatus for manufacturing an electric double layer element 10 according to the present invention.

An apparatus for manufacturing an electric double layer element 10 according to the present invention includes a case 14 accommodating a winding electrode unit 13 having a first terminal 11 and a second terminal 12 as shown in Fig. The electric double layer elements 10 having the rubber electric field 15 provided with the first port grooves 15a and the second port grooves 15b around the first terminal 11 and the second terminal 12 And a discharger 100 for discharging the urethane synthetic resin quantitatively to the first port grooves 15a and the second port grooves 15b of the respective electric double layer elements 10 in a state in which the heat is aligned.

The electric double layer element 10 and the neighboring next electric double layer element 10 in order in a state in which the electric double layer element 10 is arranged on a pallet 33 having grooves 33a aligned with the wirings, The urethane synthetic resin is filled in the first port grooves 15a and the second port grooves 15b as a discharger 100 to fill and cure.

At this time, the discharger 100 includes an automatic conveyor 31 that sequentially moves toward the electric double-layer element 10, the neighboring next electric double-layer element 10 and the like, and an automatic conveyor 31 which is mounted on the robot arm 32, Step can be moved to.

14A is a perspective view showing a discharge bundle 40 applied to an apparatus for manufacturing an electric double layer element 10 according to the present invention and FIG. 14B is a perspective view showing a discharge bundle 40 applied to an apparatus for manufacturing an electric double layer element 10 according to the present invention. 14C is a front sectional view showing a discharge bundle 40 applied to an apparatus for manufacturing an electric double layer element 10 according to the present invention.

The discharger 100 applied to the apparatus for manufacturing an electric double layer element 10 according to the present invention is connected to the hose 21 connected to the tank 20 containing the urethane synthetic resin as shown in Figs. 13 to 14C, And a discharge port 40 for simultaneously and quantitatively discharging urethane synthetic resin to the port grooves 15a and the second port grooves 15b. The discharge port 40 includes a communication body 41 communicating with the hose 21, And a first needle pipe 42 and a second needle pie communicating with the communicating body 41 to simultaneously deliver urethane synthetic resin to the first port groove 15a and the second port groove 15b.

The urethane synthetic resin is simultaneously injected into the first port groove 15a and the second port groove 15b at the same time to fill the same amount at the same time so that the two urethane synthetic resins can undergo the curing process for the same time, It is possible to remarkably reduce defective phenomena due to different amounts and different curing times in the port grooves 15a and the second port grooves 15b and in particular to prevent the communication between the communication bodies 41 Through the first needle pipe 42 and the second needle pipe 43 via the first needle pipe 15a and the second needle pipe 15b through the first needle pipe 15a and the second port groove 15b, 42 and the second needle pipe 43 and the discharge speed of the urethane synthetic resin by the second needle pipe 43 are the same and the conditions of the urethane synthetic resin in the first port groove 15a and the second port groove 15b And the condition of time to be cured) It is it is possible to eliminate the bad symptoms of the imbalances more actively.

15A is a front view including an electric double layer element 10 showing a discharge bundle 40 applied to an apparatus for manufacturing an electric double layer element 10 according to the first embodiment of the present invention, Including the electric double layer element 10 showing the discharge bundle 40 applied to the apparatus for manufacturing an electric double layer element 10 according to the present invention.

The first needle pipe 42 and the second needle pipe 43 according to the first embodiment of the present invention are provided with the first port groove 15a and the second port groove 15b as shown in Fig. The first inclined hole 42a and the second inclined hole 43a, which are sloped in a direction opposite to each other so as to simultaneously dispense the urethane synthetic resin toward the first terminal 11 and the second terminal 12, I have.

When the first port groove 15a and the second port groove 15b are filled with the urethane synthetic resin, the phenomenon in accordance with the discharge direction of the first needle pipe 42 and the second needle pipe 43, When the urethane synthetic resin is directly discharged toward the center of the first terminal 11 and the second terminal 12, defects may occur due to the phenomenon of being deposited on the upper side of the first terminal 11 and the second terminal 12, If the urethane synthetic resin is discharged in the outward direction from the center between the first terminal 11 and the second terminal 12, a failure may occur due to the phenomenon of riding over the case 14. Third, When the urethane synthetic resin is discharged from the front side or the rear side toward the first terminal 11 and the second terminal 12 on the basis of the state where the second terminal 12 and the second terminal 12 are positioned in the lateral direction, Defects will occur.

In consideration of this problem, the first needle pipe 42 and the second needle pipe 43 according to the first embodiment of the present invention are provided at both sides of the first port groove 15a and the second port groove 15b The first inclined hole 42a and the second inclined hole 43a are sloped in opposite directions so that the urethane synthetic resin can be dispensed simultaneously toward the first terminal 11 and the second terminal 12 The first terminal groove 15a and the second port groove 15b are formed on both sides of the first port groove 15a and the second port groove 15b on the left and right sides of the first terminal 11a and the second terminal 12, The urethane synthetic resin can be filled in the first port grooves 15a and the second port grooves 15b by discharging the urethane synthetic resin to the first terminal 11 and the second terminal 12 simultaneously to form the first inclined holes 42a and the second inclined holes 43a are inserted in the first terminal 11 and the second terminal 12 inwardly from both sides, It is able to be cured as uniformly applied to the side of the first port groove (15a) and a second port groove (15b) is able to significantly reduce the error rate at the time of the ejection and curing of the polyurethane resin.

15B, the first needle pipe 42 and the second needle pipe 43 according to the second embodiment of the present invention are provided on both sides of the first port groove 15a and the second port groove 15b, The first bending portion 42b and the second bending portion 43b are bent in opposite directions so that the urethane synthetic resin can be simultaneously dispensed toward the first terminal 11 and the second terminal 12 at the same time.

Likewise, the first needle pipe 42 and the second needle pipe 43 according to the second embodiment of the present invention are disposed at both sides of the first port groove 15a and the second port groove 15b at the first terminal The first bending portion 42b and the second bending portion 43b bent in opposite directions so as to simultaneously dispense the urethane synthetic resin toward the first terminal 11 and the second terminal 12, The first terminal 11 and the second terminal 15b are located on both sides of the first port groove 15a and the second port groove 15b on the basis of the state in which the second terminal 12 is positioned in the lateral direction, 12 so that the urethane synthetic resin can be filled in the first port groove 15a and the second port groove 15b so that the first bending portion 42b and the second bending portion 43b can be filled with the urethane synthetic resin, The first and second port grooves 15a and 15a around the first terminal 11 and the second terminal 12 and the second port grooves 15a and 15b 15b so that the defective rate of the urethane synthetic resin during discharging and curing can be remarkably reduced.

14A to 14C, the communicating body 41 receives the luer adapter 44 connected to the hose 21 at the same time as having the lateral flow path 41a closed on both sides, A first downward hole 41c having an upward hole 41b communicating with the flow path 41a and communicating with the first needle pipe 42 and the second needle pipe and communicating with the transverse flow path 41a, And a second downward hole 41d.

The luer adapter 44 is communicated with the transverse flow path 41a and then connected to the first needle pipe 42 and the second needle pipe 43 so that the urethane synthetic resin passed through the hose 21 from the tank 20 Flow into the lateral flow path 41a and then uniformly distributed to the first needle pipe 42 and the second needle pipe 43 so that the same amount and the same amount are uniformly distributed in the first port groove 15a and the second port groove 15b It is possible to more thoroughly reduce the defect rate at the time of discharging and curing the urethane synthetic resin.

At this time, both sides of the transverse flow path 41a can be filled with the bolts 45 and sealed, and the bolts 45 are formed so as to be concealed in the communication body 41 by applying a head bolt 45 By the way, it assures both assembly and cleanness of appearance at the same time.

Preferably, the luer adapter 44 is screwed into the upward hole 41b in the state of being wound with the Teflon tape (not shown) to ensure sealing, and the first needle pipe 42 and the second needle pipe The first and second lower holes 41c and 41d are tightly bonded to the first and second lower holes 41c and 41d so as to assure the assembling and sealing of the bolt 45. The bolt 45 is also wound in the transverse direction Both sides of the flow path 41a are screwed to ensure sealing.

INDUSTRIAL APPLICABILITY The present invention can be used in an apparatus field for manufacturing an element for storing electric energy such as a battery, a capacitor or an electrolytic capacitor.

10: Electric double layer element 11: Terminal 1
12: second terminal 13: winding electrode unit
14: Case 15: Rubber I
15a: first port groove 15b: second port groove
16: Urethane synthetic resin
100: Discharger 20: Tank
21: Hose 31: Automatic conveyor
32: robot arm 33: pallet
33a: groove 40: ejection bundle
41: communicating body 41a: transverse flow path
41b: upward hole 41c: first downward hole
41d: second downward hole 42: first needle pipe
42a: first inclined hole 42b: first bending portion
43: second needle pipe 43a: second inclined hole
43b: second bending portion 44: luer adapter
45: Bolt

Claims (7)

The electric double layer elements having the rubber electrode provided with the first port grooves and the second port grooves around the first terminal and the second terminal while covering the case accommodating the winding electrode unit having the first terminal and the second terminal And a discharger for discharging the urethane synthetic resin to the first port grooves and the second port grooves of each of the electric double layer elements in a sequential manner while being aligned with the columns,
Wherein the discharger includes a discharge bundle communicating with a hose connected to a tank containing the urethane synthetic resin to simultaneously and quantitatively discharge the urethane synthetic resin to the first port groove and the second port groove,
Wherein the discharge bundle includes a communication body communicating with the hose and a first needle pipe and a second needle pipe for simultaneously dispensing the urethane synthetic resin to the first port groove and the second port groove while communicating with the communication body Wherein the electric double layer element manufacturing apparatus comprises: The method according to claim 1,
Wherein the first needle pipe and the second needle pipe are arranged in a direction opposite to each other so that the urethane synthetic resin can be quantitatively discharged simultaneously from both sides of the first port groove and the second port groove toward the first terminal and the second terminal. Wherein each of the first sloped hole and the second sloped hole has sloped cuts. The method according to claim 1,
Wherein the first needle pipe and the second needle pipe are arranged in a direction opposite to each other so that the urethane synthetic resin can be quantitatively discharged simultaneously from both sides of the first port groove and the second port groove toward the first terminal and the second terminal. Wherein each of the first bent portion and the second bent portion has a curved shape. 4. The method according to any one of claims 1 to 3,
Wherein the communication body has a lateral flow path with both sides blocked and at the same time has an upward hole for receiving the luer adapter connected to the hose and communicating with the transverse flow path, and receiving the first needle pipe and the second needle pipe And a first lower hole and a second lower hole to communicate with the transverse flow path. 5. The method of claim 4,
And both sides of the transverse flow path are filled with a bolt and sealed. 6. The method of claim 5,
Wherein the bolt is a tongue bolt. 6. The method of claim 5,
Wherein the luer adapter is screwed to the upper hole in a state of being wound with a Teflon tape,
The first needle pipe and the second needle pipe are constrained to the first downward hole and the second downward hole and then bonded,
Wherein the bolts are screwed on both sides of the transverse flow path in a state of being wound with a Teflon tape.

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