KR20140010241A - Voltage terminal arrangement of separator for fuel cell - Google Patents

Abstract

The present invention relates to a voltage terminal stand alignment device of a separator for a fuel cell stack and, more specifically, to a voltage terminal stand alignment device of a separator for a fuel cell stack capable of preventing the deformation phenomenon of the voltage terminal stand formed on the separator of the fuel cell stack. The present invention is to provide the voltage terminal alignment device of the separator for the fuel cell stack capable of effectively preventing the deformation phenomenon, such as that the voltage terminal stand formed on the separator of the fuel cell stack is curved, by supporting both sides of a voltage measurement terminal stand with an alignment guide pin by individually inserting the alignment guide pins between the voltage measurement terminal stands combined with an outer end of the separator by including the alignment guide pins which have a comb shape.

Description

Voltage terminal arrangement of separator for fuel cell stack

The present invention relates to an arrangement of voltage terminal blocks of a separator plate for a fuel cell stack, and more particularly, to separation of a fuel cell stack capable of preventing deformation such as bending of a voltage terminal block formed on a separator plate of a fuel cell stack. Voltage terminal block aligner of plate

The fuel cell system of hydrogen fuel cell vehicles is mainly composed of fuel cell stacks that generate electrical energy, fuel supply systems that supply fuel (hydrogen) to fuel cell stacks, and oxidants required for electrochemical reactions in fuel cell stacks. It is divided into an air supply system for supplying oxygen in the air and a heat and water management system for controlling the operating temperature of the fuel cell stack.

Referring to FIG. 7, which is a block diagram of a cell unit of the fuel cell stack, a polymer electrolyte membrane 10 capable of transferring hydrogen cations at the innermost position and hydrogen and oxygen An electrode membrane assembly (MEA: membrane-electrode assembly) including a cathode (anode) 12 and a fuel electrode (anode) 14 is disposed.

In addition, a gas diffusion layer (GDL) 16 and a gasket 18 are sequentially stacked on the outer portions of the air electrode 12 and the fuel electrode 14, and outside the gas diffusion layer 16. A separation plate 20 having a flow field is formed to supply fuel and discharge water generated by the reaction, and at the outermost end plate 30 for supporting and fixing the above components. ) Are combined.

Accordingly, the oxidation reaction of hydrogen proceeds in the anode 14 of the fuel cell stack to generate hydrogen ions (Proton) and electrons (Electron), and the generated hydrogen ions and electrons are separated from the electrolyte membrane 10, respectively. It moves to the cathode 12 through the plate 20, and generates water through an electrochemical reaction in which hydrogen ions, electrons, and oxygen in the air participate in the cathode 12 from the anode 14. In addition, the final electrical energy generated from the flow of electrons is supplied to a load requiring electrical energy through a current collector plate (not shown) of the end plate 30.

On the other hand, the separation plate 20 is a land portion (Land) that is a flat portion directly bonded to the gas diffusion layer 16, and a channel that serves as a passage between hydrogen and air (oxygen), which is fuel as a space between the land portions. It has a function of removing the water generated from the air electrode toward the gas diffusion layer, as well as supplying the reaction gas such as hydrogen and air, and also flowing electricity to an external circuit to measure the voltage of each cell of the stack. do.

To this end, at the outer end of the separator plate of the fuel cell stack, a voltage measuring terminal block protrudes integrally as a means for measuring the voltage generated in the stack.

The voltage measuring terminal block is a portion extending from a thin separator plate having a thickness of 0.1 ~ 0.2mm, there is a disadvantage that it is easily bent by an external force during the manufacturing process of the separator plate and the assembly of the stack, as the voltage measuring terminal block is bent After completion of stack fabrication, there is a disadvantage in that voltage measurement terminal blocks of adjacent separation plates are in contact with each other or are arranged at irregular intervals.

Currently, the terminal block connector is adopted in a modular structure so that it can be simultaneously connected to six voltage measuring terminal blocks. The terminal block connector is simultaneously connected to the six voltage measuring terminal blocks to measure cell voltages for stack activation and performance evaluation. .

However, if the voltage measurement terminal block is already arranged in a bent state and the stack manufacturing step as described above, the bent voltage measurement terminal block should be aligned at equal intervals in order to mount the terminal block connector.

Therefore, there is an inconvenience of flattening the voltage measuring terminal block bent by manual labor of the worker, and there is a disadvantage that a lot of defect rate and work time are required according to the skill of the operator.

In addition, in the case of stack fabrication, the voltage measurement terminal block of a cell in which a terminal block connector is not mounted has a problem in that an electric short occurs while contacting an adjacent cell while being bent by an external impact, which may result in fire and healing damage. .

The present invention has been made in order to solve the above problems, and provided with a plurality of alignment guide pins in the shape of a comb, by inserting each of the plurality of voltage measurement terminal blocks integrated at the outer end of the separation plate, Since the alignment guide pins support both sides of the measurement terminal block, the voltage terminal block alignment device of the separator plate for fuel cell stack can easily prevent deformation such as bending of the voltage terminal block formed on the separator plate of the fuel cell stack. The purpose is to provide.

The present invention for achieving the above object is: a guide bar of a predetermined length mounted on the upper end of the stack; A plurality of alignment guide pins integrally formed at equal intervals at the bottom of the alignment guide bar and inserted between the voltage measuring terminal blocks of the separation plate; It provides a voltage terminal block alignment device of the separator plate for a fuel cell stack comprising a.

Preferably, the front of the alignment guide bar is characterized in that a plurality of clip fastening holes are formed at equal intervals along the longitudinal direction so that the connector mounting clip for mounting the voltage measurement terminal block connector is inserted and fastened.

More preferably, the alignment guide bar is composed of a plurality of detachable or assembled, one side of one of the alignment guide bar is formed with a fastening groove, one side of the other alignment guide bar is formed with a fastening protrusion It features.

In addition, the most positioned on both sides of the alignment guide bar is characterized in that the bolt mounting hole for mounting fixing to the stack is formed.

In particular, the alignment guide pin is characterized in that it is formed in a shape bent toward the voltage measuring terminal block at the bottom of the alignment guide bar.

Through the above-mentioned means for solving the problems, the present invention provides the following effects.

According to the present invention, by inserting a plurality of alignment guide pins in the shape of a comb between the plurality of voltage measurement terminal blocks integrally at the outer end of the separation plate, the alignment guide pins support and support both sides of the voltage measurement terminal block The deformation phenomenon such as bending of the voltage terminal block formed on the separator can be easily prevented.

Therefore, it is possible to solve the inconvenience of correcting the conventional voltage measuring terminal block by manual operation, and to completely prevent a phenomenon in which an electric short or the like occurs by contacting adjacent voltage measuring terminal blocks.

1 is a perspective view showing an arrangement of the voltage terminal block of the separator plate for a fuel cell stack according to the present invention;
2a and 2b are assembled perspective views showing the voltage terminal block alignment device of the separator plate for fuel cell stack according to the present invention;
3 is a front view showing the voltage terminal block alignment device of the separator plate for fuel cell stack according to the present invention;
Figure 4 is a side cross-sectional view showing a voltage terminal block alignment device of the separator plate for a fuel cell stack according to the present invention;
5 is a plan view showing the voltage terminal block alignment device of the separator plate for a fuel cell stack according to the present invention;
6 is an image showing a state where the conventional voltage terminal block is bent,
7 is a schematic diagram illustrating a configuration of a fuel cell stack.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a voltage terminal arrangement of the separator plate for maintaining the voltage measuring terminal block in its original shape in order to prevent the voltage measuring terminal block extending from the separation plate to bend to measure the voltage of each cell of the fuel cell stack. It would be.

To this end, as shown in FIGS. 1 to 5, the voltage terminal block alignment device of the present invention is integrally formed at equal intervals on a straight alignment guide bar 100 having a predetermined length and at the bottom of the alignment guide bar 100. Consisting of a plurality of alignment guide pins 102.

The alignment guide bar 100 is mounted and fixed at an upper end of the stack, that is, at a position where the voltage measuring terminal block 22 is arranged, and the alignment guide pin 102 is placed on the bottom surface of the alignment guide bar 100. It is formed integrally at intervals and is inserted and arranged between the voltage measuring terminal blocks 22 of the separating plate 20.

That is, the alignment guide bar 100 is fixed to the upper end of the stack by bolting, and the alignment guide pin 102 is inserted between the voltage measuring terminal blocks 22 to support and support both sides of the voltage measuring terminal blocks 22. By zooming in, the voltage measuring terminal block 22 protruding from the separating plate is not bent left or right, and the original straight shape can be maintained.

Preferably, the alignment guide pin 102 is formed to be bent toward the voltage measuring terminal block 22 so as to be easily inserted into the voltage measuring terminal block 22.

At this time, the lower end of the alignment guide pin 102 is positioned about the middle of the voltage measurement terminal block 22 so that the terminal block connector 200 for measuring the cell voltage of the stack can be easily contacted. The lower end of the voltage measuring terminal block 22 in which no contact with 102 is generated is substantially a portion in which the terminals of the connector are in electrical contact.

On the other hand, since the stack thickness of the fuel cell stack varies depending on the number of stacked cells, the alignment guide bar 102 is manufactured in a structure that can be separated or assembled into a plurality.

More specifically, the alignment guide bar 102 is composed of a plurality of detachable or assembled, one side of the alignment guide bar 102 of the plurality of fastening grooves 106 is formed, the other alignment guide bar One side of the 102 is formed with a fastening protrusion 108 is inserted into the fastening groove 106.

Therefore, by inserting the fastening protrusion 108 of the other alignment guide bar 102 into the fastening groove 106 of one of the alignment guide bar 102, it is possible to assemble several alignment guide bars 102 into one. .

In addition, in order to assemble and fix the assembled alignment guide bar 102 to the stack with bolts, bolt mounting holes 110 for mounting and fixing to the stack are formed at ends of the alignment guide bars 102 positioned at both ends.

In particular, the front of the alignment guide bar 102 as a fastening hole for mounting the terminal block connector 200 using the clip 202, a plurality of clip fastening holes 104 are formed at equal intervals along the longitudinal direction. .

Therefore, in the state where the alignment guide bar 102 is bolted to the stack and the alignment guide pin 102 is inserted between the voltage measuring terminal blocks 22 to support both sides of the voltage measuring terminal block 22 without bending. By inserting and fastening the connector mounting clip 202 integrally formed at the upper end of the terminal block connector 200 to the clip fastening hole 104 formed at the front of the guide bar 102, the terminal block connector 200 is electrically connected.

Accordingly, as shown in FIG. 4, the voltage measuring pin 204 formed at the lower end of the terminal block connector 200 is in a state in which the lower end of the voltage measuring terminal block 22 is electrically conductively contacted. Can be measured.

As such, as the alignment guide pins 102 support and support both side surfaces of the voltage measuring terminal block 22, it is possible to easily prevent deformation such as bending of the voltage measuring terminal block and always provide a terminal block connector 200. Can be easily connected to the voltage measuring terminal block 22, the cell voltage measurement can be carried out more easily.

10 polymer electrolyte membrane 12 air cathode
14: fuel electrode 16: gas diffusion layer
18: gasket 20: separator
22: voltage measurement terminal block 30: end plate
100: alignment guide bar 102: alignment guide pin
104: clip fastening hole 106: fastening groove
108: fastening protrusion 110: bolt mounting hole
200: terminal block connector 202: connector mounting clip
204: voltage measurement pin

Claims (6)

An alignment guide bar 100 of a predetermined length mounted on an upper end of the stack;
A plurality of alignment guide pins 102 formed integrally at equal intervals at the lower end of the alignment guide bar 100 and inserted between the voltage measuring terminal blocks 22 of the separation plate 20;
Arrangement of the voltage terminal block of the separator plate for a fuel cell stack comprising a.
The method according to claim 1,
A plurality of clip fastening holes 104 are formed at equal intervals along the longitudinal direction on the front of the alignment guide bar 102 so that the connector mounting clip 202 for mounting the terminal block connector 200 for voltage measurement is inserted and fastened. Voltage terminal block aligning device for a fuel cell stack separator.
The method according to claim 1,
The alignment guide bar 102 is a voltage terminal block aligning device of a separator plate for a fuel cell stack, characterized in that the plurality is detachably assembled.
The method according to claim 3,
Among the plurality of alignment guide bars 102, one side of the alignment guide bar 102 has a fastening groove 106 formed therein, and one side of the other alignment guide bar 102 has a fastening protrusion 108 formed therein. Characterized in that the voltage terminal block of the separator plate for fuel cell stack.
The method according to claim 3,
Arrangement of the voltage terminal block of the separator plate for the fuel cell stack, characterized in that located on the most two sides of the alignment guide bar (102) has a bolt mounting hole (110) for mounting fixing to the stack.
The method according to claim 1,
The alignment guide pin 102 is a voltage terminal block alignment device of the separator plate for the fuel cell stack, characterized in that formed in the shape bent toward the voltage measurement terminal block 22 on the bottom surface of the alignment guide bar (102).

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