KR100821767B1 - A cell voltage monitoring device for fuel cell stack - Google Patents

Abstract

The present invention is a fuel cell stack for measuring the voltage of each cell of the stack through a method of fixing the two end plates for supporting the both ends of the plurality of stacked separator plate to the top of the fuel cell stack consisting of a fastening rod A device for measuring voltage for a cell, comprising: a plurality of voltage terminal pins in contact with each separator plate of the stack; A support coupled to the stack through a fixing hole, the support supporting the voltage terminal pins so that the supported position is movable within a predetermined range; And a rubber member installed at both ends of the support to be firmly compressed when fixed to the stack, wherein the end of the voltage terminal pin is made of a metal leaf spring.

Fuel Cell, Stack, Separator, Cell, Voltage Terminal Pins

Description

A cell voltage monitoring device for fuel cell stack}

1 is a side view showing a typical fuel cell stack.

2 is a perspective view showing a conventional cell voltage measuring device for a fuel cell stack.

Figure 3 is a side view showing a cell voltage measuring device for a fuel cell stack according to the present invention.

Figure 4 is a plan view showing a cell voltage measuring device for a fuel cell stack according to the present invention.

Figure 5 is a side view showing a voltage terminal pin of the cell voltage measurement device for a fuel cell stack according to the present invention.

* Brief description of symbols for the main parts of the drawings *

1: Separator 10: Voltage terminal pin

12: leaf spring 20: support

22: fixed hole 24: play hole

30: rubber member

The present invention relates to a cell voltage measuring device for a fuel cell stack, and more particularly, by using a method of easily attaching and detaching a voltage terminal pin on an upper portion of a fuel cell stack, thereby reducing work time and labor, and The present invention relates to a cell voltage measuring device for a fuel cell stack that can reduce wear and improve durability, and prevent a safety accident caused by a short circuit of a wire or separation of a pin.

In general, a fuel cell is composed of an electrode which largely causes an electrochemical reaction, and an electrolyte membrane which transfers hydrogen ions generated by the reaction, and a separator that supports the electrode and the electrolyte.

The polymer electrolyte fuel cell has advantages such as high efficiency, high current density, high output density, short start-up time, and solid electrolyte, compared to other types of fuel cells, and thus do not require corrosion and electrolyte control.

In addition, since it is an environmentally friendly power source that discharges only pure water as exhaust gas, active research is being conducted in the global automobile industry.

A polymer electrolyte fuel cell is a device that generates electricity while generating water and heat through an electrochemical reaction between hydrogen and oxygen.

The supplied hydrogen is separated into hydrogen ions and electrons in the anode electrode catalyst, and the separated hydrogen ions are transferred to the cathode through the electrolyte membrane, where they are combined with the supplied oxygen and electrons from the external conductor. It generates electric energy while generating water.

The ion potential generated at this time is about 1.3V and the reaction formula is as follows.

Anode: H ₂ → 2H + + 2e

Cathode: 1 / 2O ₂ + 2H + + 2e → H ₂ O

In actual fuel cells for vehicles requires a potential higher than the above-described potential, in order to obtain a higher potential, the individual unit cells must be stacked by the required potential. This stack is called a stack, and as shown in FIG. 1, the stack 100 includes a separator 1, an electrolyte membrane and an electrode 2, a current terminal 3, and a fastening bolt 4. ), And the end plate 5.

Evaluation of the stack 100 consists of measuring current and voltage generated in the stack. In particular, voltage measurement of each cell may be an important data indicating performance and characteristics of each cell during stack operation.

Therefore, in order to operate the stack 100 stably in an optimal state and to prevent operation stop due to sudden decrease in performance, the voltage of each cell must be accurately monitored and the accuracy of the cell voltage measuring device is required accordingly.

As an example of a conventional cell voltage measuring method, as shown in FIG. 1, an electrode pin 6 to be fixed to a groove by making a groove having a thickness of 0.4 mm next to the separator 1 of the stack 100, Each terminal consisting of a wire (7) for supporting the electrode pin (6) and connecting to the connector (9), and a resistor installed for the purpose of cutting off the current generated by the electrochemical reaction, is first integrated and then manually pin (6). I insert it and use it.

Since each terminal fixing work must be done manually as described above, the workability is very bad and when the detachment is carried out by repeated experiments, the groove next to the separating plate 1 is worn by the pins 6 and the size of the grooves is increased. Since the contact force between the pin 6 and the separator 1 is weakened because of the increase in phenomena, the accurate cell voltage cannot be measured.

In addition, when the vehicle is mounted on the vehicle, the contact between the pin 6 and the separator 1 is not smooth due to the vibration of the vehicle along the road surface, resulting in a phenomenon that the voltage swings up and down.

In addition, as the number of cells in the stack 100 increases, a lot of time and labor are consumed in inserting the voltage terminal pin 6 when using a conventional voltage measuring apparatus.

Due to the above problems, the performance of each cell in the stack cannot be accurately measured, and if the performance of each cell is suddenly degraded due to lack of supply gas or short circuit, the stack cannot be shut down quickly. There was a problem causing deterioration.

An object of the present invention for solving the problems as described above, by using a method of easily attaching and detaching the voltage terminal pin on the top of the fuel cell stack can reduce the wear of the separator plate to improve the durability of the wire An object of the present invention is to provide a cell voltage measuring device for a fuel cell stack, which can prevent a safety accident caused by a short circuit or a disconnection of a pin.

In the cell voltage measuring apparatus for a fuel cell stack for measuring each cell voltage of the stack by a method of fixing to the top of the fuel cell stack in accordance with an embodiment of the present invention for achieving the above object, the stack of the A plurality of voltage terminal pins in contact with each separator; A support coupled to the stack through a fixing hole, the support supporting the voltage terminal pins so that the supported position is movable within a predetermined range; And a rubber member installed at both ends of the support to be firmly compressed when fixed to the stack, wherein the end of the voltage terminal pin is made of a metal leaf spring.

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According to an embodiment of the present invention, a clearance hole is formed in an upper portion of the support to which the voltage terminal pin is coupled.

According to an embodiment of the invention, the size of the clearance hole is preferably 0.5 to 2mm.

According to an embodiment of the invention, the size of the clearance hole is preferably 1mm.

According to an embodiment of the present invention, the material of the support is preferably made of Teflon.

Hereinafter, a preferred embodiment of a cell voltage measuring device for a fuel cell stack according to the present invention will be described with reference to the accompanying drawings.

Figure 3 is a side view showing a cell voltage measuring device for a fuel cell stack according to the present invention, Figure 4 is a plan view showing a cell voltage measuring device for a fuel cell stack according to the present invention, Figure 5 is a fuel according to the present invention It is a side view which shows the voltage terminal pin of the cell voltage measuring device for battery stacks.

As shown in FIG. 3, the cell voltage measuring apparatus for a fuel cell stack according to the present invention includes a voltage terminal pin 10, a support 20, and a rubber member 30.

As shown in FIG. 3, the voltage terminal pins 10 are configured in plural so as to be in contact with each separator plate 1 of the stack 100 (see FIG. 1).

The end of the voltage terminal pin 10, as shown in Figure 5, is made of a metal plate spring 12.

Therefore, since the surface of the voltage terminal pin 10 in contact with the separating plate 1 is made of a small leaf spring 12, the cell voltage measuring device is fixed by a fixing screw (not shown) through the fixing hole 22. When pressed it securely contacts the separator plate 1 of the stack and increases the contact surface.

As described above, there is no fear that the separating plate 1 is damaged by the voltage terminal pin 10 that is compressed by making the end of the voltage terminal pin 10 the leaf spring 12.

In addition, in the case of using the cell voltage measuring device in which the end of the voltage terminal pin 10 is the leaf spring 12, even if the voltage measuring device is detached from the stack several times, the voltage terminal pin 10 is separated from the separating plate 1. Since it is not in the form of plugging in, the phenomenon that the separator 1 is worn or broken does not occur.

The support 20 is coupled to the stack 100 through a fixing hole 22, and supports the voltage terminal pins 10 so as to support the supported position so that the supported position is movable within a predetermined range. .

The support 20 is made of a Teflon-based material to withstand the operating temperature of the stack 100, the gap hole 24 in the upper portion of the support 20 to which the voltage terminal pin 10 is coupled. ) Is formed.

Therefore, when the position of the voltage terminal pin 10 does not coincide with the separating plate 1 by using the gap hole 24 corresponding to the plurality of voltage terminal pins 10 at the upper end, the contact position is adjusted to the left and right directions. To determine.

Here, since the thickness of the separating plate 1 is about 2.4 mm, the size of the clearance hole 24 formed in the support 20 is preferably 0.5 to 2 mm, more preferably 1 mm.

The rubber member 30 is installed at both ends of the support 20 to serve to be firmly compressed when the rubber member 30 is fixed to the stack 100.

That is, when the cell voltage measuring device is fixed through the rubber member 30 inserted at both ends of the support 20, the voltage terminal pin 10 can be securely seated on the stack 100.

The cell voltage measuring device for a fuel cell stack having the above configuration has the following advantages compared to the conventional one.

In the conventional cell voltage measuring apparatus, a small hole is processed on the side of the separator plate 1, and a phenomenon that the separator is not worn by inserting and removing an electrode pin into the hole does not occur, and when the number of cells in the stack increases. Edo no longer required much time and labor, such as plugging and unplugging all dividers.

In addition, in the case of using the cell voltage measuring apparatus of the present invention, unlike the conventional cell voltage measuring apparatus in which electrode pins are soldered to the wires, the voltage terminal pins 10 are not directly connected to the wires, but are directly supported. Because it is connected with (20), it is possible to prevent the short-circuit accident in advance.

In addition, since it is possible to reduce the number of wires used, it is possible to reduce the volume of the device and to prevent safety accidents caused by the wires.

Although the above has been shown and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiment, in the technical field to which the present invention pertains without departing from the spirit of the invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes will fall within the scope of the claims set forth.

According to the fuel cell stack cell voltage measuring apparatus according to the present invention as described above, the following effects can be obtained.

First: it reduces the volume of the device by reducing the use of wires in the connection of the voltage terminal pins.

Second: Since the voltage terminal pins are not inserted directly into the stack's divider, the wear of the divider can be reduced and the durability of the stack can be improved.

Third: By fixing the support to the stack without plugging the voltage terminal pins one by one into the separator, it saves time and labor.

Fourth: By using the clearance hole in the support, it is possible to adjust the position of the voltage terminal pins, thereby improving work efficiency.

Fifth: Since the voltage terminal pins are not connected to the wires, it is possible to prevent safety accidents due to short circuits or disconnection of the voltage terminal pins.

Claims (6)

In the cell voltage measuring device for a fuel cell stack for measuring the voltage of each cell of the stack by fixing to the top of the fuel cell stack, A plurality of voltage terminal pins 10 in contact with each separator plate 1 of the stack 100; A support 20 coupled to the stack 100 through a fixing hole 22 to support the voltage terminal pins 10 so as to support the supported position so as to be movable within a predetermined range; And And a rubber member 30 installed at both ends of the support 20 to be firmly compressed when fixed to the stack 100. An end of the voltage terminal pin (10) is a cell voltage measuring device for a fuel cell stack, characterized in that made of a metal leaf spring (12). delete The apparatus of claim 1, wherein a clearance hole 24 is formed in an upper portion of the support 20 to which the voltage terminal pin 10 is coupled. 4. The cell voltage measuring apparatus of claim 3, wherein the clearance hole 24 has a size of 0.5 to 2 mm. 4. The cell voltage measuring apparatus for a fuel cell stack according to claim 3, wherein the clearance hole (24) has a size of 1 mm. The apparatus of claim 1 or 3, wherein the support 20 is made of Teflon.

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