KR20150116265A - Separaing apparatus of separator for tesing device of fuel cell separator - Google Patents

Abstract

The present invention relates to separator separating apparatus for a test device of a fuel cell stack separator, comprising; a base on which a separator is disposed; a press plate disposed to be spaced apart from an upper part of the base to be able to ascend and pressurizing a region excepting a dummy on one side of the separator disposed on the base; a clamp installed to one side of the press plate to be able to ascend and disposed to pressurize the dummy on one side of the separator disposed on the base when descending; and an upper part separating cutter installed to progress from one side to the other side of the press plate along a lower surface of the press plate at an ascending position of the press plate toward one side of the press plate wherein when the press plate is ascending, the separator clamp maintains a pressing state of the dummy on one side of the separator and thus makes one side of the separator to be separated from the press plate, and the upper part separating cutter is able to separate the separator by progressing from one side to the other side of the press plate through a space between the separator and the press plate, formed on one side of the separator.

Description

TECHNICAL FIELD [0001] The present invention relates to a separator plate separator for a test apparatus of a fuel cell stack separator,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a test apparatus for a fuel cell stack separator, and more particularly to a test apparatus for a fuel cell stack, such as a separator plate airtight inspecting apparatus, To a separator plate separating apparatus for a test apparatus of a separator plate.

The fuel cell stack includes end plates at both ends and a plurality of separators laminated therebetween. The separator serves to supply the reaction gas to the unit cells in the fuel cell stack, to supply the cooling water for cooling the stack, and to serve as a passage for moving the electric current. In the past, separator plates made of graphite were mainly used, but metal separator plates have recently been developed and used because of the high brittleness and manufacturing cost of graphite.

1 is a view showing an example of a metal separator plate of a fuel cell stack. The separator plate 1 is manufactured by forming a thin metal plate having a thickness of about 0.1 mm by forming a flow path of a reaction gas and a cooling water through a molding method such as stamping or the like. On one or both surfaces of the separator plate 1, (5) are integrally formed so that the hermeticity of the reaction gas and the cooling water is maintained. At one end of the separator plate 1, a dummy 3 is formed on the base of the test instrument, in which a reference hole 4 is formed so that the separator plate 1 is positioned at a predetermined position.

When the reaction gas (hydrogen, air) reacts directly or the hydrogen flows out to the outside because the reaction gas flow path and the cooling water flow path are not independent from each other in the fuel cell stack, there is a risk of ignition as well as the performance of the stack. .

Therefore, the separation plate of the fuel cell stack is subjected to a sealing process that is essential. The test apparatus for the airtightness inspection of the separator includes a base on which the separator is placed and a press plate for pressing the separator. The pressurized gas is supplied through the injection hole formed on the press plate under pressure, By measuring the change, the air-tightness of the hydrogen-air period, the coolant-hydrogen, the coolant-air period, and the entire outward direction is measured.

However, there is a case in which a separation plate is attached to the base or the press plate after the airtightness inspection in the separation plate airtightness inspection apparatus, and does not fall off. This is caused by the pressure of the rubber, which causes the rubber gasket to stick to the base or the press plate.

Generally, it is common to use a vacuum adsorber to move a separation plate subjected to airtightness inspection and to introduce a new separation plate into the inspection apparatus for continuous progress of the airtight inspection. When the separation plate is attached to the base, a vacuum adsorber However, it is difficult to introduce such a method when the separating plate is attached to the lower surface of the press plate. In some cases, the gasket may not be separated from the base only by the suction force of the vacuum adsorber.

In such a case, the worker has to manually remove the separator plate, thereby delaying the process, and there is a fear that the separator plate may be damaged in the process of manually separating the separator plate.

Korean Patent No. 10-969066 (issued on July 9, 2010)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a fuel cell stack test apparatus capable of easily separating a separator plate attached to a press plate or a base by pressurization after press- And to provide a separation plate separating apparatus for a test apparatus of a fuel cell stack separator.

According to an aspect of the present invention, there is provided a press plate, comprising: a base on which a separator plate is placed; a press plate that is spaced apart from the upper portion of the base and is capable of elevating and lowering, A separating plate clamp which is installed so as to be able to ascend and descend to one side of the press plate and which presses one side of the separating plate placed on the base at the time of descending; And an upper separating cutter installed to advance from one side of the press plate to the other side so that when the press plate is lifted, the separator plate clamp holds the dummy on one side of the separator plate so that one side of the separator plate is separated from the press plate Wherein the upper separating cutter comprises a separating plate formed at one side of the separating plate, The proceeds from the side to the other side of the press plates to provide a bipolar plate separating apparatus for testing equipment for the separation plate separable from the fuel cell stack separator plates.

According to the present invention, a base is provided on one side of the base so as to be able to ascend and descend, and the base plate is disposed on the base with the reference pin inserted into a reference hole formed in the dummy.

According to the present invention, the other side of the base includes a lower separating cutter having a cutter for separating the base and the separating plate placed on the base from one side to the other side of the base along the upper surface of the base.

According to the present invention, the cutter of the lower separation cutter is disposed in the width direction of the separation plate and is made of a pair of cutters.

According to the present invention, at least one of the base and the press plate is provided with a gasket peripheral air spray hole for spraying air adjacent to the outer gasket inside the gasket attachment position on the outer periphery of the separating plate attached to the base or the press plate do.

1 is a view showing an example of a separator plate for a fuel cell stack.
2 is a schematic view of a gas-tightness inspection apparatus for a fuel cell stack to which a separator separating apparatus according to the present invention is applied.
3 is a view for explaining a press plate in the separating plate separating apparatus according to the present invention.
4A to 4F are views for explaining the operation of the separating plate separating apparatus according to the present invention.

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

FIG. 2 is a schematic view of a gas-tightness testing apparatus for a fuel cell stack to which the separating plate separating apparatus according to the present invention is applied, and FIG. 3 is a view for explaining a press plate in the separating plate separating apparatus shown in FIG.

Referring to the drawings, a separation plate separating apparatus for a test apparatus of a fuel cell stack separator according to the present invention includes a base 10, a press plate 20, a separator plate clamp 30, And a lower separating cutter 50. As shown in Fig.

The base plate 10 is provided with a separator plate 1 for testing. A reference pin 12 inserted into the reference hole 4 formed in the dummy 3 of the separator 1 protrudes on one side of the upper surface of the base 10. The reference pin 12 functions to position the separator plate 1 placed on the base 10 so that the separator plate 1 is inserted into the base 10 in such a manner that the reference hole 4 is inserted into the reference pin 12, (10).

The reference pin 12 is installed so as to be elastically movable in the height direction. Therefore, when the separator plate clamp 30 is lowered to press the dummy 3 of the separator plate 1, the reference pin 12 descends to the inside of the base 10 and the force of the separator plate clamper 30 When removed, it rises again. A reference pin mounting hole 14 is formed in the base 10 and a spring 15 is provided in the reference pin mounting hole 14 to support the reference pin 12 movably in the up and down direction 4g).

On the other side of the base 10, a lower separation cutter 50 is installed so as to be movable along the base 10 in contact with the base 10.

In addition, the base 10 is provided with an air blowing hole 18 at the periphery of the gasket, so that when the separating plate 1 needs to be separated after the airtightness inspection, the air is jetted under a strong pressure so that the separating plate 1 can be smoothly separated do. The gas jet peripheral hole 18 is formed adjacent to the gasket 5 inside the gasket 5 at the outer periphery of the separator plate 1. Further, a center air jet hole 19 is further formed inside the gas jet peripheral area air jet hole 18 so that air is jetted together with the gas jet peripheral jet air hole 18.

The press plate 20 is installed on the upper portion of the base 10 so as to be movable up and down by a drive actuator 22. Injection pipes 24a, 24b and 24c are connected to the press plate 20 so as to inject gas for reaction gas / cooling water flow test for separator plate airtightness test, and injection holes (not shown) formed on the lower surface of the press plate 20 So that the test gas can be injected to perform the tightness test. The gas injection through the injection holes 24a, 24b and 24c is controlled by various valve devices to perform a test operation, and pressure change is sensed to test the airtightness.

Referring to FIG. 3, a separation plate clamp groove 25 is formed at one side of the press plate 20. One end (32) of the separator plate clamp (30) is inserted into the separator plate clamp groove. When the press plate 20 presses the separation plate 1 with the separation plate 1 interposed therebetween with the base 10, the separation plate clamp 30 presses the separation plate 1 together with the press plate 20, So that the dummy 3 can be pressed. When the separating plate clamp 30 is lifted up after the press plate 20 has been lifted up, the one end 32 of the separating plate clamp 30 is raised to the position where it is inserted into the separating plate clamping groove 25, And functions to set the rising position of the plate clamp 30.

A gasket peripheral air spouting hole 28 is formed in the lower surface of the press plate 20 in the same manner as the gas jet peripheral air spouting hole 18 formed in the lower surface of the base 10 so that separation of the separating plate 1 So that the separation plate 1 can be smoothly separated. The central portion air ejection hole 29 is also formed in the press plate 20 similarly to the central portion air ejection hole 19 of the base 10. [

The reason why the separator plate 1 is attached to the press plate 20 or the base 10 in a pressurized state by the press is that the rubber gasket 5 is attached to the press plate 20 or the base 10. According to the present invention, since air is jetted adjacent to the gasket 5 inside the gasket 5 by the air jet holes 18 and 28 around the gasket periphery, the air can be adhered to the base 10 or the press plate 30 The gasket 5 is separated from the base 10 or the press in a manner that the separating plate 1 starts to separate from the attaching position adjacent to the gas jet peripheral holes 18 and 28 among the portions of the gasket 5 of the separator 1, And is separated from the plate 20. Since the attaching portions of the gasket 5 and the base 10 or the press plate 20 are separated from one side and then the separation is diffused to the other side, So that the gasket can be more effectively separated from the press plate 20 or the base 10 by the small ejection pressure. The air ejected by the central air ejection holes 19, 29 promotes the separation of the gasket 5.

The air ejection holes 18, 19, 28 and 29 are ejected when the press plate 20 is lifted from the base 10 after the airtightness inspection is performed so that the gasket 5 is pressed against the base 10 or the press plate 20, The separating operation of the upper separating cutter 40 and the lower separating cutter 50 can be performed more smoothly.

 As shown in Figs. 2 and 3, a separating plate clamp 30 for clamping the dummy 3 of the separating plate 1 is installed on one side of the press plate 20 so as to be movable up and down.

During the airtightness inspection, the press plate 20 is lowered with the separator plate 1 placed on the base 10, and the press plate 20 is raised after the airtightness inspection is performed. At this time, the gasket 5 of the separation plate 1 is closely attached to the base 10 and the press plate 20 by the pressure applied by the press plate 20. When the press plate 20 is lifted, The plate 1 is attached to the lower surface of the press plate 20 and is raised together.

The separating plate clamp 30 descends together when the press plate 20 descends and presses the dummy 3 of the separating plate 1. When the press plate 20 ascends, the separating plate clamp 30 presses the dummy 3 ). Therefore, even if the separator plate 1 is lifted up when the press plate 20 is lifted, only one side of the separator plate 1 is held by the base 10, And attached to the plate 20 (see Fig. 4B). Thus, one side of the separating plate 1 is separated from the press plate 20, and a spacing space is formed therebetween.

The separating plate clamp 30 then rises to the raised position of the press plate 20 and the upper separating cutter 40 advances through the spacing space to separate the separating plate 1 and the press plate 20.

The upper separating cutter 40 is installed on one side of the press plate 10 so as to move from one side to the other side along the lower surface of the press plate 10 at the raised position of the press plate 10. The upper separation cutter 40 returns to the original position at a predetermined time after the separation plate 1 is separated.

The upper separation cutter 40 is supported by a guide 42 and advances from one side of the press plate 20 to the other side by a driving unit (not shown). The upper separating cutter 40 separates the separating plate 1 while proceeding in the space between the press plate 20 and the separating plate 1.

On the other side of the base plate 10, a lower separating cutter 50 is installed along the upper surface of the base 10 and extends from the other side between the base 10 and the separating plate 1 to one side.

The lower separation cutter 50 is for separating the separation plate 1 from the base 10. As the lower separation cutter 50 proceeds from one side of the base 10 to the other side, (10).

According to the present invention, the lower separation cutter (50) includes a pair of cutters (52) separated in the width direction of the separation plate (1). The length of the cutter 52 is formed such that it does not come in contact with the reference pin 12 even if the lower separating cutter 50 advances to the other side. The cutter 52 is preferably formed to have a small thickness.

The lower separator cutter 50 moves from one side to the other side to separate the separator plate 1 from the base 10 and return to the original position.

Hereinafter, the operation of the separator separating apparatus according to the present invention will be described with reference to FIGS. 4A to 4G.

4A, the press plate 20 is lowered in a state where the separation plate 1 is placed on the base 10, and the separation plate 1 is pressed in a pressed state. At this time, the separation plate clamp 20 is lowered together to press the dummy 3 of the separation plate 1. The reference pin 12 inserted in the reference hole 4 of the dummy 3 is kept pressed by the separator plate clamp 20. In this state, a gas tightness test is performed while injecting the test gas.

4B shows a state in which the press plate 20 is raised after the airtightness inspection is performed. The separation plate 1 is attached to the press plate 20 or the base 10 via the gasket 5 when the press plate 20 presses the separation plate 1 for airtightness inspection, The press plate 20 tries to rise together with it attached to the press plate 20 when the press plate 20 is lifted. However, since the separator plate clamp 30 presses the dummy 3 located at one side of the separator plate 1, one side of the separator plate 1 is held on the base 10 and only the other side of the separator plate 1 Is attached to the press plate 20, and the press plate 20 is raised.

Air is blown out through the air ejection holes at the time of rising of the press plate 20 to help the separating plate 1 to be separated from the base 10 or the press plate 20. [

The upper separating cutter 40 is inserted between the lower surface of the press plate 20 and the separating plate 1 as the separating plate clamp 30 presses the dummy of the separating plate 1, A spacing space can be formed.

 4C and 4D show an operation of separating the separator plate 1 from the lower surface of the press plate 20 while the upper separator cutter 40 advances from one side of the press plate 20 to the other side, The separating plate 1 is separated from the press plate 20 while the upper separating cutter 40 proceeds and the upper separating cutter 40 is completely moved to the other position as shown in FIG. 1 are separated from the press plate 20 and placed on the base 10.

After the separator plate 1 is separated from the press plate 20, the separator plate clamp 30 is lowered to press the dummy 3 of the separator plate 1 as shown in Fig. 4E.

4E, an operation of separating the separator plate 1 from the base 10 is performed while the lower separator cutter 50 is moved from the other side of the base 10 to one side, as shown in Fig. 4F. As a result, the separation plate 1 is completely separated from both the base 10 and the press plate 20.

4G shows a state in which the separator plate 1 is separated from the press plate 20 and the base 10. The upper separator cutter 40 and the lower separator cutter 50 are returned to their original positions, The plate (1) is placed on the base (1) with the gasket (5) in an unfastened state ready for the next process.

The separation plate separating apparatus of the present invention is installed in the airtightness testing apparatus of the separating plate. However, the present invention can be applied to a test apparatus of various fuel cell stack separator plates which perform a test operation while being pressurized by a press plate of a separator plate placed on the same base as an elasticity test apparatus of a gasket without being limited to the gas tightness test apparatus.

1: separator plate 5: gasket
3: Pile 4: Reference hole
10: base 12: reference pin
18, 28: Perforations of gasket peripheral air
20: press plate 30: separator plate clamp
40: upper separation cutter 50: lower separation cutter
52: Cutter

Claims (5)

A base on which the separator plate is placed,
A press plate disposed so as to be able to move up and down above the base and to press a part of the separating plate placed on the base excluding one side pile;
A separator plate clamp which is installed on one side of the press plate so as to be able to move up and down,
And an upper separating cutter provided on one side of the press plate to advance from one side of the press plate to the other side along a lower surface of the press plate at a raised position of the press plate,
Wherein the separating plate clamp holds the dummy on one side of the separating plate so that one side of the separating plate is separated from the press plate when the press plate is lifted,
Wherein the upper separating cutter moves from one side of the press plate to the other side through a space between a separating plate formed on one side of the separating plate and the press plate. The method of claim 1,
Wherein the reference pin is protruded at one side of the base so as to be able to ascend and descend, and the separator is disposed on the base with the reference pin inserted into a reference hole formed in the dummy. A separator plate separating device. The method according to claim 1,
And a lower separating cutter provided on the other side of the base with a cutter for separating the separating plate attached to the base from the base while advancing from the other side of the base along the upper surface of the base. Separator plate separator for test equipment of separator plate. The method of claim 3,
Wherein the cutter of the lower separation cutter is formed of a pair of spaced apart cutters arranged in the width direction of the separation plate. The method according to claim 1,
Wherein at least one of the base and the press plate is provided with a gasket peripheral air spray hole for spraying air adjacent to the gasket at a position inside the gasket attachment position on the outer periphery of the separating plate attached to the base or the press plate. Separator plate separator for test equipment in stacked separator plates.

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