KR101509908B1 - Stacking device of fuel cell stack and method there of - Google Patents

Abstract

The present invention relates to a fuel cell stack stacking apparatus and method, and more particularly, to a fuel cell stack stacking apparatus and a fuel cell stack stacking apparatus, comprising: a supply unit 100 supplied with a fuel cell stack composed of a separator plate and a membrane electrode assembly (MEA); A stacking unit 200 for stacking stacks supplied from the supply unit 100; A stack supplying step (S10) of supplying a fuel cell stack composed of a separator plate and a membrane electrode assembly, which is composed of a hermeticity inspecting unit (300) for inspecting airtightness by dividing the stack stacked in the stacking unit (200); A stack stacking step (S20) of stacking stacks supplied from the stack supplying step (S10); And a stack airtightness inspection step of inspecting the airtightness by dividing the stacked stack through the stacking step S20. By moving the stack in the stacking process to the airtightness inspection process and performing a split inspection, only the optimal stacking amount It is possible to increase the efficiency of airtightness inspection through split inspection. After airtightness inspection work, it is put into lamination process to enable additional lamination, and after airtightness inspection process after additional lamination, So that the reliability of the stacking degree is enhanced to increase the merchantability and the process necessary for the finished stack is automatically progressed, thereby improving the convenience of the operation.

Description

Technical Field The present invention relates to a fuel cell stack stacking apparatus and method,

The present invention relates to a fuel cell stack stacking apparatus and method, and more particularly, to a fuel cell stack stacking apparatus and method for enabling automatic stacking for improving stacking accuracy and division testing for improving airtightness inspection efficiency in manufacturing fuel cell stacks .

Generally, a fuel cell is a kind of power generation system that converts chemical energy of a fuel directly into electrical energy in a fuel cell stack without converting it into heat by combustion.

The fuel cell mainly includes a fuel cell stack for generating electric energy, a fuel supply system for supplying fuel (hydrogen) to the fuel cell stack, an air supply system for supplying oxygen in the air, which is an oxidant for the electrochemical reaction, And a heat / water management system for removing the reaction heat of the cell stack to the outside of the system and controlling the operating temperature of the fuel cell stack.

With this configuration, in the fuel cell system, electricity is generated by electrochemical reaction between hydrogen as fuel and oxygen in the air, and heat and water are discharged as reaction byproducts.

The fuel cell stack is an electric energy generating device in which unit cells are repeatedly stacked, and the unit cell is a minimum fuel cell component for generating electric energy by reacting hydrogen and oxygen.

Such a unit cell structure has a structure in which a separator, a gas diffusion layer (GDL), and a membrane electrode assembly (MEA) are laminated, and a gasket interposed between the MEA and the separator And the MEA and the gasket are connected by an adhesive.

On the other hand, the stacked structure of the fuel cell stack can be divided into a structure for laminating a single separator and a structure for laminating a separator separated into two anode / cathode.

When the separator is separated into two anode / cathode, the two separator plates are adhered by using the gasket, and the side surface (adhesion surface) of the two separator plates is used as the cooling water channel.

The structure of stacking the fuel cell stack using the two separators is disclosed in U.S. Patent Nos. 06939639, 2005-276582, and 10-0837904.

In order to manufacture the fuel cell stack as described above, a process of repeatedly laminating the constituent elements of the unit cells such as the MEA and the separator is required, and the stacking process of the conventional fuel cell stack is performed by the human hand.

However, conventionally, as shown in FIG. 1, when each layer material (separator, MEA) of the fuel cell stack is moved from the supply part a to the laminate part b and the automatic lamination is completed in the laminate part b, If the operator inspects the confidentiality of the stacked stacks at once, it is necessary to unload all the stacked stacks when defects occur. Therefore, There is a problem that the efficiency and the reliability of the product are deteriorated.

Document 1: Korean Patent No. 10-0986484

The present invention relates to a fuel cell stack laminating apparatus and method for solving the above problems, and more particularly, to a fuel cell stack laminating apparatus and method for solving the above problems, .

The present invention provides a fuel cell stack comprising: a supply portion to which a fuel cell stack composed of a separator and a membrane electrode assembly (MEA) is supplied; A stacking portion for stacking the stack supplied from the supply portion; And a hermeticity checking unit for dividing the stacked stack in the stacking unit to inspect the airtightness.

The stacking portion includes an elevator for lifting the stack; An index table for rotating the stack; And a tester for moving a part of the stack of the index table to the hermeticity checking unit.

It is preferable to further provide an uploader for moving the bad stack and the completion stack upwardly to the one end of the airtightness inspection unit.

The rotation angle of the index table is preferably 180 degrees.

The present invention also provides a fuel cell stack comprising: a stack supplying step in which a fuel cell stack composed of a separator and a membrane electrode assembly is supplied; A stacking step of stacking the stack supplied from the stack supplying step; And a stack confidential inspection step of dividing the stack stacked through the stack stacking step to inspect the confidentiality.

The stacking step includes a first step of lifting the stack through an elevator; A second step of rotating the stack lifted and lowered in the first stage through an index table; And a third step of moving a part of the stack rotated in the second step through the airtightness inspection unit to the stack airtightness inspection step.

And an uploading step of moving the selected bad stack and the completed stack upward after the stacking security check step.

In the present invention as described above, since the stack in stacking is moved to the airtight inspection process and divided inspection is performed, only the optimal stacking amount can be reloaded at the time of occurrence of leakage, thereby improving the efficiency of airtight inspection work by the split inspection. It is possible to increase the reliability of the lamination degree by increasing the reliability of the lamination layer by performing the airtight inspecting process even after the additional lamination is performed so as to perform the unloading only for the additional lamination when leakage occurs. It is an invention that is effective to increase the convenience of work because it proceeds automatically.

1 is a structural view showing a conventional fuel cell stack lamination structure,
2 is a view showing a fuel cell stack laminating apparatus of the present invention,
3 is a structural view showing the fuel cell stack laminating apparatus of the present invention,
4 is a view showing a state in which stacks are stacked in the fuel cell stack laminating apparatus of the present invention,
5 is a flow chart showing the fuel cell stack stacking method of the present invention,
6 is a flow chart showing stack stacking and air tightness inspection steps in a fuel cell stack stacking method of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 2 to 4, the fuel cell stack stacking apparatus of the present invention includes a supply section 100 to which a fuel cell stack is supplied, a stacking section 200 for stacking stacks, And an airtightness checking unit 300 for checking the airtightness.

First, the fuel cell stack is based on a separator and a membrane electrode assembly (MEA).

As shown in Fig. 2, the supply portion 100 allows the fuel cell stack to be supplied to the stacking portion 200, which will be described later.

At this time, the supplying unit 100 is formed of an orthogonal knee joint so that the stack can be positioned on the plate and supplied to the stacking unit 200.

The stacking unit 200 stacks the stack supplied from the supply unit 100. [

The stacking unit 200 includes an elevator 210, an index table 220, and a tester 230.

The elevator 210 lifts up the stack supplied from the supply unit 100 and the index table 220 allows the stack to rotate and the tester 230 moves a part of the stack of the index table 220 to the airtightness To the inspection unit 300.

At this time, the elevator 210 allows the arms (not shown) formed on the left and right sides to support the stack. The stack is lowered by a pallet according to the amount of material supplied. When the stack is completely lowered, To rotate the stack.

At this time, the rotation angle of the index table 220 can be changed to 180 degrees, and the position of the stack can be changed. After the rotation of the index table 220, the dummy can be lowered.

Here, it is preferable that the dummy is supplied through a dummy supply unit 320 provided in the hysteresis inspection unit 300, which will be described later.

As shown in FIG. 2 and FIG. 4, in the present invention, stacking is performed based on four stages. In the first cycle, only one-quarter of the stacks required for one completed stack are stacked, At this time, 3/4 of dummy is supplied to the pallet to maintain the press stroke of the press.

The airtightness inspecting unit 300 inspects airtightness by dividing the stacked stack in the stacking unit 200 and checks the airtightness of the stack through the airtightness inspecting unit 300. If there is no abnormality in the stack, ) Index table 220 and then rotates the index table 220 for additional stacking.

At this time, the airtightness inspection unit 300 may further include an uploader 310 for moving the defective stack and the completion stack upward, and if there is an abnormality in the stack during the airtightness inspection of the stack through the airtightness inspection unit 300, To the uploader 310 to select the defective stack, and in the case of the stack in which stacking is completed, the stacker is also moved to the uploader 310 to complete the stacking.

As shown in FIGS. 5 and 6, the fuel cell stack stacking method of the present invention includes a stack supply step S10 in which a stack is supplied, a stack stacking step S20 in which stacks are stacked, And a stack confidentiality checking step (S30) for checking confidentiality.

As shown in FIG. 5A, the stack supply step S10 allows the fuel cell stack to be supplied to the stacking step S20 through the supply part 100. As shown in FIG.

The stacking step S20 is a step of stacking the stack supplied from the stack supply step S10. As shown in Fig. 5B, the stacking step S20 includes a first step S21 of raising and lowering the stack, A second step S22 of rotating the stack, and a third step S23 of moving some of the rotated stacks to the stack tightness checking step S30.

At this time, the second step S22 makes it possible to change the position of the stack by rotating the stack, and allows the dummy to descend after rotation.

The stack confidentiality checking step S30 is a step of checking confidentiality by dividing the stacked stack in the stacking step S20. If there is no abnormality in the stack after checking the confidentiality of the stack through the stack confidentiality checking step S30, Is moved to the second step S22 of the stacking step S20 and then the index table 220 is rotated for additional stacking.

At this time, the stack confidentiality checking step (S30) is followed by an additional loading step (S40) for moving the bad stack and the completion stack upward, and the stack confidentiality checking step (S30) The stack is shifted to the uploading step S40 so that the defective stack can be selected. In the case of the stack in which the stacking is completed, the stacking is also terminated by moving to the uploading step S40.

That is, as shown in FIG. 6, the stack and the dummy are supplied in the first stack stacking step, and when the pressure is maintained through the airtightness inspection, the stack is removed and the stacking step S20 is performed The stack and the dummy are supplied in the second cycle, and when the pressure is maintained through the airtightness inspection in that state, the dummy is removed to proceed to the stacking step (S20), and the stack and the dummy are supplied in the third cycle, If the pressure is maintained through the airtightness inspection, the dummy is removed, and the process proceeds to the uploading step S40 after stack stacking is completed. At this time, if the pressure is not maintained during the hysteresis test in the first to third cycles, the process proceeds to the uploading step (S40) so that the defective stack can be selected.

As described above, according to the present invention, the airtightness inspection of the stack is divided into small module units, so that it can be re-stacked when defects occur in the stack, and stacking, And enables automatic stacking in the case of stack stacking, thereby improving reliability and convenience of the stack.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

100: Supply part 200: Lamination part
210: elevator 220: index table
230: Tester 300: Confidential inspection part
310: uploader S10: stack supply step
S20: stack stacking step S21: first step
S22: second step S23: third step
S30: Stack Confidentiality Checking Step S40: Uploading Step

Claims (7)

A supply part for supplying a fuel cell stack composed of a separator and a membrane electrode assembly (MEA);
A stacking unit for stacking stacks supplied from the supply unit in units of small modules and stacking a plurality of small module units;
And a hermeticity checking unit for checking the hermeticity of the plurality of small module units;
The lamination portion
An elevator for elevating the stack;
And an index table for rotating the stack.
The method according to claim 1,
Wherein the stacking unit further comprises a tester for moving a part of the stack of the index table to the airtightness inspection unit.
The method according to claim 1,
And an uploader for moving the bad stack and the completion stack upward is further provided at one end of the airtightness inspection unit.
The method according to claim 1,
And the rotation angle of the index table is 180 DEG.
A stack supplying step in which a fuel cell stack composed of a separator and a membrane electrode assembly is supplied;
A stack stacking step of stacking stacks supplied from the stack supplying step in units of small modules and loading a plurality of small module units in an index table;
And stack confidentiality checking of the plurality of small module units in the stacking step;
The stacking step
Elevating the stack through an elevator;
A second step of rotating the stack which is lifted and lowered in the first step through the index table;
And a third step of moving a part of the stack rotated in the second step through the airtightness inspection unit to the stack airtightness inspection step.
delete The method of claim 5,
And an uploading step of moving the selected bad stack and the completed stack upward after the stacking security check step.

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