KR20170070716A - Fuel cell stack - Google Patents

Abstract

The present invention relates to a fuel cell stack, and more particularly, to a fuel cell stack having an insulating plate for insulating a plurality of cells, an end plate for supporting the cells, an insert provided inside the end plate, A stack that is fastened to fix the cell, the insulating plate, the end plate, and the insert; And a current interrupting unit provided inside the insert to prevent leakage of current generated in the stack, thereby preventing leakage of current by blocking moisture generated in the fuel cell stack inside the end plate, So that the insulation resistance standard can be satisfied, thereby improving the safety of the product.

Description

A fuel cell stack {Fuel cell stack}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fuel cell stack, and more particularly, to a fuel cell stack for preventing current leakage due to moisture generated in an end plate of a fuel cell stack.

Generally, a fuel cell stack is composed of a plurality of cells between end plates at both ends, and each cell is composed of an MEA (Membrane Electrode Assembly), a GDL (Gas Diffusion Layer), and a separator.

Here, hydrogen, air, and cooling water are supplied through the flow path of the separation plate, and a gasket is applied to seal each fluid between the separation plates.

Particularly, since a stack mounted on a vehicle requires high performance, a plurality of cells (about 100 to 300 or more) of about 1 V are stacked to obtain a desired voltage / current.

The end plate includes a rigid portion (metal insert) structurally supporting hundreds of cells located at both ends of the stack, a current collecting portion (current collecting plate + current collecting terminal) for transferring direct current generated from the cell to the outside, and a rigid portion and a collecting portion And an insulating portion for electrically separating the electrodes.

However, in the conventional fuel cell stack, the insulating portion 10 of the end plate may cause condensation and condensation of water due to a temperature change outside the stack, as shown in Fig. 1. In this case, the current collector and the rigid portion And thus electric safety problems arise in the vehicle.

Patent 1: Korean Patent No. 10-1417454

The present invention relates to a fuel cell stack for solving the above problems, and in particular, to prevent leakage of current due to moisture generated in an end plate of a fuel cell stack.

The present invention relates to a battery pack comprising an insulating plate for insulating a plurality of cells, an end plate for supporting the cells, an insert provided inside the end plate, and both ends bolted to the end plate and the insert, A stack for fastening the end plate and the insert; And a current interruption unit provided in the insert to prevent current leakage from the stack.

Wherein the insert comprises: a first insert disposed outside the current cutoff portion and made of a metal; And a second insert formed on the inside of the current blocking portion and made of a metal material.

Preferably, the second insert is made of a metal material so as to increase the rigidity and the fastening force when the bolt is fastened.

It is preferable that the end plate is made of polymer plastic by injection molding.

Preferably, the current blocking portion is made of polymer plastic by injection, so that the inside of the current blocking portion and the first insert are electrically separated from each other.

And the latching portion is formed outside the current blocking portion.

It is preferable that unevenness is formed on the inner surface of the current interruption portion.

According to another aspect of the present invention, there is provided a plasma display panel comprising: an insulating plate provided outside a plurality of cells to insulate the cells; An end plate provided at both ends of the cell to support the cell; An insert disposed inside the end plate; A fastening bar provided outside the insulating plate and having both ends bolted to the end plate and the insert to fix the cell, the insulating plate, the end plate, and the insert; And a current blocking part provided on the inner side of the insert to insert the bolt to prevent leakage of current generated in the stack.

The insert includes a first insert formed on the outside of the current blocking portion and made of a metal material, and a second insert formed on the inside of the current blocking portion and made of a metal material into which the bolt is inserted,

It is preferable that the current cut-off portion is formed in a 'C' shape and is provided inside the first insert, and the current cut-off portion is made of polymer plastic by injection so that the inside of the current cut-off portion and the first insert are electrically separated Do.

As described above, the present invention prevents leakage of moisture generated in the fuel cell stack to the inside of the end plate, thereby preventing leakage of current, and satisfying insulation resistance standards of the vehicle even in a humid environment of the stack, It is an effective invention.

1 is a cross-sectional view showing a conventional fuel cell stack,
2 is a view showing the fuel cell stack of the present invention,
3 is a sectional view showing the fuel cell stack of the present invention,
4 (a) is a plan view showing a current cut-off portion provided in the end plate in the fuel cell stack of the present invention,
FIG. 4 (b) is a front view showing a current cutoff portion provided in the end plate in the fuel cell stack of the present invention, and FIG.
FIGS. 5 and 6 are views showing an embodiment of an engagement portion of a current interruption portion provided in the end plate in the fuel cell stack of the present invention;
7 is a view showing the unevenness of the current interruption portion provided on the end plate in the fuel cell stack 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.

2 to 4, the fuel cell stack of the present invention includes a stack 100 composed of a cell 110, an insulating plate 120, an end plate 130, an insert 150, and a fastening bar 140, And a current cutoff unit 200 provided in the insert 130 to prevent current leakage.

2 and 3, the stack 100 includes a plurality of cells 110, an insulating plate 120 for insulating the cells 110, an end plate 130 for supporting the cells 110, And a fastening bar 140 fixed to the end plate 130.

The insulating plate 120 is disposed outside the plurality of cells 110 as a non-conductive material to insulate the cells 110.

The end plate 130 is provided at both ends of the plurality of cells 110 to support and distribute the pressure while maintaining the cells 110 in a laminated state.

At this time, the end plate 130 is formed of a polymer plastic by injection to be a non-conductive material, and a metal is formed in the end plate 130 to support the plurality of cells 110 and to be connected to the vehicle.

In addition, the end plate 130 includes a current collecting plate 131 for transferring current to the outside.

The insert 150 is provided inside the end plate 130.

The fastening bar 140 is provided at the upper end of the outer side of the insulating plate 120 so that both ends of the fastening bar 140 are bent to fasten the bolts B to the end plate 130, The insulating plate 120, the end plate 130, and the insert 150 are fixed.

The current interrupter 200 is provided inside the end plate 130 to prevent current leakage from the stack 100.

The insert 150 includes a first insert 151 formed of a metal material and a second insert 152 formed of a metal and provided inside the current cutoff portion 200. The insert 150 is disposed outside the current cutoff portion 200, .

At this time, the current interrupting part 200 is installed in the first insert 151 inside the first insert 151 inside the end plate 130 by inserting the bolt B into the inside of the first insert 151, The space of the current blocking portion 200 can be independently secured.

The current blocking portion 200 is formed of a polymer plastic by injection so that the inside of the current blocking portion 200 and the first insert 151 made of a metal are electrically separated.

That is, as shown in FIG. 4, the end plate 130 is divided into a current blocking portion 200 into which the bolts B are inserted, a first insert 151 and a second insert 152 The current blocking portion 200 is made of a polymer plastic and the first insert 151 is made of metal so that the current blocking portion 200 and the first insert 151 can be electrically separated from each other.

In addition, the second insert 152 is made of a metal material to increase rigidity and fastening force when bolts B are fastened.

In the related art, there is no problem in the case where the stack is in a normal operation state. However, when the stack is in an abnormal operation state due to condensation or condensation, moisture generated in the cell rises along the bolt However, in the present invention, as shown in FIG. 3, the moisture generated in the cell 110 rises on the surface of the end plate 130 to form a bolt B to prevent the leakage of moisture to the metal of the first insert 151 by blocking the leakage current by the nonconductive current blocking part 200 formed on the end plate 130, . ≪ / RTI >

5 and 6, the locking part 210 may be formed outside the current blocking part 200 so that when the bolt B is coupled, the current blocking part 200 contacts the end plate 130, It is preferable to prevent the phenomenon of being detached.

At this time, the latching part 210 of the current blocking part 200 may be formed at a right angle as shown in FIG. 5, or may be formed obliquely as shown in FIG.

7, unevenness 220 may be formed on the inner surface of the current blocking portion 200 to prevent the current blocking portion 200 from separating from the bolt B when the bolt B is coupled, .

At this time, it is preferable that the concavity and convexity 220 of the current interruption portion 200 is shaped like a thread, burring and sanding.

As described above, according to the present invention, an insulating plate 120 provided outside a plurality of cells 110 to insulate the cells 110, an end plate 130 provided at both ends of the cells 110 to support the cells 110, An insert 150 provided on the inner side of the end plate 130 and a bolt B connected to the end plate 130 and the insert 150 at both ends of the insulator 120 to form a cell 110, A stack 100 including an insulating plate 120, an end plate 130, and a fastening bar 140 for fixing the insert 150; And a current interrupter 200 disposed on the inner side of the insert 130 to prevent leakage of current generated in the stack 100. The moisture generated in the fuel cell stack is supplied to the end plate 130, thereby preventing leakage of current, and satisfying the insulation resistance standard of the vehicle even in a humid environment of the stack 100.

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: Stack 110: Cell
120: insulating plate 130: end plate
140: fastening bar 150: insert
151: first insert 152: second insert
200: Current interruption part B: Bolt

Claims (9)

An end plate for supporting the cell, an insert provided inside the end plate, and both ends being bolted to the end plate and the insert so that the cell, the insulating plate, and the end plate A stack for fastening the insert;
And a current blocking unit provided in the insert to prevent leakage of current generated in the stack.
The method according to claim 1,
The insert
A first insert disposed outside the current blocking portion and made of a metal;
And a second insert formed on the inner side of the current cut-off portion and made of a metal material.
The method of claim 2,
Wherein the second insert is made of a metal material to increase rigidity and tightening force when the bolt is fastened.
The method of claim 2,
Wherein the end plate is made of polymer plastic by injection molding.
The method of claim 4,
Wherein the current blocking portion is formed of a polymer plastic by injection so that the inside of the current blocking portion and the first insert are electrically separated from each other.
The method of claim 2,
And a stopping portion is formed on the current blocking portion.
The method of claim 2,
And a concavity and convexity is formed on an inner surface of the current blocking portion.
An insulating plate provided outside the plurality of cells to insulate the cells;
An end plate provided at both ends of the cell to support the cell;
An insert disposed inside the end plate;
A fastening bar provided outside the insulating plate and having both ends bolted to the end plate and the insert to fix the cell, the insulating plate, the end plate, and the insert;
And a current blocking portion provided on an inner surface of the insert to insert the bolt to prevent leakage of current generated in the stack.
The method of claim 8,
The insert includes a first insert formed on the outside of the current blocking portion and made of a metal material, and a second insert formed on the inside of the current blocking portion and made of a metal material into which the bolt is inserted,
And the current blocking portion is formed of a polymer plastic by injection so that the inside of the current blocking portion and the first insert are electrically separated from each other. A stack of fuel cells.

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