JP2004127780A - Connector fixing device for cell voltage measurement - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a connector fixing device for cell voltage measurement evaluating reliability of a connector. <P>SOLUTION: The connector fixing device 1 for cell voltage measurement comprises blocks 13, 13 having a surface capable of holding the connector 2 arranged on the upper surface thereof, a mounting surface located at an lower surface of the blocks 13, 13, a dummy fuel cell laminated body (a fuel cell stack 4) equipped with a cell terminal 3 for the cell voltage measurement, and a test terminal (an insulator terminal) 12 electrically connected with the cell terminal 3. The two blocks 13, 13 pinch the fuel cell laminated body 4 from right side and left side, and the connector 2 is arranged to be connectable with the cell terminal 3 for the cell voltage measurement. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a connector fixing device for evaluating connection between a connector and a cell terminal for measuring cell voltage for measuring a cell voltage of a fuel cell stack.
[0002]
[Prior art]
The fuel cell stack is usually configured by stacking many single cells. In order to evaluate the connection of these cell terminals, there are many evaluation items, and each time these evaluations are performed, a dummy fuel cell stack is attached to the evaluation device.
[0003]
As such a continuity inspection jig for inspecting the connection of a connector, a continuity inspection jig for a connector which can easily inspect whether or not a terminal of a lead wire constituting a wire harness is normally connected to a connector terminal. A tool is disclosed (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP 2001-267032 A (page 2, FIG. 2C)
[0005]
[Problems to be solved by the invention]
However, there are many evaluation items for performing the connection evaluation of the cell terminals, and there is a problem that the work of attaching the dummy fuel cell stack to the evaluation device requires a great deal of time and labor.
[0006]
The present invention has been made to solve the above-described problem, and has as its object to provide a connector fixing device for measuring a cell voltage, which efficiently evaluates the reliability of a connector.
[0007]
[Means for Solving the Problems]
An invention according to claim 1 of the present invention that solves the above-mentioned problem is a cell voltage measuring device having two blocks having upper surfaces that can hold a connector in contact with the upper surface and a mounting surface on the lower surface of the two blocks. A connector fixing device, comprising: a dummy fuel cell stack including a cell voltage measuring terminal and a test terminal electrically connected to the cell voltage measuring terminal, wherein the two blocks include the fuel cell The laminated body is sandwiched from the left and right, and the connector is provided so as to be connectable to the cell voltage measuring terminal.
[0008]
According to the first aspect of the present invention, the two blocks sandwich the dummy fuel cell stack from the left and right, and furthermore, the connector is disposed so as to be connectable to the cell voltage measuring terminal, thereby improving the reliability of the connector. Can be evaluated efficiently.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of a connector fixing device for cell voltage measurement according to the present invention will be described with reference to the drawings. FIG. 1 is a perspective view schematically showing a connector fixing device for cell voltage measurement according to one embodiment of the present invention. As shown in FIG. 1, a connector fixing device 1 for measuring a cell voltage has two blocks 13, 13 having a surface capable of contacting and holding a connector 2 on an upper surface, and a mounting surface on a lower surface of the two blocks 13, 13. A fuel cell stack (fuel cell stack 4) having connector contacts (see FIG. 2) and test terminals (insulator terminals) electrically connected to the connector contacts (cell voltage measurement terminals). It has.
[0010]
The dummy fuel cell stack 4 is sandwiched between blocks 13, 13, and each cell terminal 3 of the fuel cell stack 4 (fuel cell stack) is connected to the connector 2. The connector fixing device 1 is fixed to an evaluation device 30 (described later) by bolts 16, 16,.
[0011]
FIG. 2 is a perspective view schematically showing a connection portion of the connector fixing device 1 for cell voltage measurement. As shown in FIG. 2, inside the connector 2, the cell terminal 3 provided at the upper end of the separator 10 (see FIG. 1) is sandwiched in the U-shaped space of the connector contact 9, and the connector contact 9 is connected to the cell terminal 3. Is connected to
[0012]
A dummy voltage is applied to the insulator terminal 12 of the dummy fuel cell stack 4 or a lead wire is connected thereto. Further, since the dummy fuel cell stack 4 is merely a test piece, the insulator terminals 12 are buried with an adhesive or the surface is hardened with an epoxy resin to prevent external influences such as salt water. Insulated from
[0013]
The hole 7 provided on the upper surface of the connector 2 is a long hole, and when the bolt 6 is turned, it moves slightly up, down, left, and right in a horizontal plane, and absorbs variations in the stack of the single cells 5 of the fuel cell stack 4. can do. One of the two long holes 7, 7 is used for vertical position adjustment, and the other is used for horizontal position adjustment. Note that a connector is provided for each of a certain number of unit cells 5, 5,... For position adjustment.
[0014]
The two blocks 13 have an end plate 15 and are made of stainless steel (SUS). The end plate 15 is provided with two holes 19 and 20, into which a shaft 21 is inserted. The hole 19 is a round hole, which is a knock hole. Further, the hole 20 is a long hole, and the mounting position of the dummy fuel cell stack 4 can be adjusted.
[0015]
The resin or separator 10 of the dummy fuel cell stack 4 has a round hole on one side (a hole corresponding to the hole 19), but has an elongated hole on the other side (a hole corresponding to the hole 20). Corresponding to the holes 19 and 20 of the end plate 15.
[0016]
Next, the operation of the connector fixing device 1 for measuring cell voltage having the above configuration will be described. FIG. 3 is a perspective view schematically showing a usage state of the connector fixing device 1 for cell voltage measurement. As shown in FIG. 3, the connector fixing device 1 fixed on the fixing stand 35 of the evaluation device 30 with four bolts 16, 16,... Is connected to the measuring device 31 by the connection cable 34 connected to the connector 2. Then, the electric signal output from the connector 2 is measured. The connector fixing device 1 is connected to an electric signal supply device 32 by a lead wire (connection cable) 33 connected to the insulator terminal 12, and is supplied with a predetermined electric signal.
[0017]
In this case, the evaluation device 30 is a vibrator that gives vibration to the connector fixing device 1 and evaluates the reliability of the connection state between the connector contact 9 and the cell terminal 3 at that time. Many evaluation test devices are applied. For this reason, when the evaluation device 30 sprays salt water or the like to perform a test on the state of the contacts such as the cell terminals 3 and the connector contacts 9, a dummy electric signal is supplied to the insulator terminals 12 of the dummy fuel cell stack 4. After connecting the lead wire (connection cable) 33 to be loaded, the periphery of the insulator terminal 12 is embedded with an adhesive or the surface is solidified with an epoxy resin to insulate it from the outside so as not to be affected by salt water or the like. deep.
[0018]
1 and 2, a connector fixing device 1 for cell voltage measurement connects each cell terminal 3, 3,... Of a dummy fuel cell stack 4 (fuel cell stack) as a test piece to a connector 2. The voltage is monitored from the portion of the cell terminal 3 to monitor whether or not the single cell 5 of the fuel cell stack 4 is in a good state.
[0019]
The portion of the connector 2 to be monitored is turned by turning a bolt 21 provided on the side surface of the connector 2 to deform the U-shaped plate of the connector contact 9 so as to sandwich the cell terminal 3 so that the connector contact 9 becomes a cell. Connect to terminal 3. The connector contact 9 is a U-shaped plate, and the cell terminal 3 of the separator 10 can be sandwiched and fixed between the U-shaped plate of the connector contact 9. When the connection with the cell terminal 3 sandwiched between the connector contacts 9 is loosened, the bolt 21 is loosened, and the U-shaped contact is opened, so that almost no insertion force is required.
[0020]
As a result, even the thin cell terminals 3 are not deformed, and many cell terminals 3, 3,... Can be fitted at once. After fitting, the cell terminals 3 can be sandwiched and connected by tightening the bolts 21. Further, bolts 21 are used so that the pressure contact between the cell terminals 3 and the connector contacts 9 can be finely adjusted.
[0021]
In addition, the pitch of the cell terminals 3 and the pitch of the connector contacts 9 are initially coincident and can be connected without any problem. However, since the fuel cell stack 4 is a laminate, there is a possibility that a deviation occurs. In addition, some clearance is provided between the connector contacts 9 to correct the displacement. Therefore, even if a shift occurs due to thermal expansion or the like, the cell terminal 3 is lengthened to absorb the shift, and the single cell 5 is not directly brought into contact with the lower surface of the connector 2, and the connector contact 9 of the connector 2 and the single cell Some space is provided between the main body and the main body. This makes it possible to absorb a shift in the pitch or position of the cell terminals 3.
[0022]
Although this is a test piece, it is not mounted on an actual vehicle. However, when the fuel cell stack 4 is mounted on an actual vehicle, a slight vibration may be applied. I have.
[0023]
The difference between the dummy single cell 5 used in the connector fixing device 1 and the real single cell is that the battery portion constituting the single cell 5 is formed of resin or the like. It is easier to obtain a higher accuracy by using a resin than a MEA (Membrane Electrode Assembly) of the stacked body of the fuel cell stack 4, and it may be suitable for some evaluation items. Of course, instead of using a dummy fuel cell stack, an experiment may be performed with a part of the real fuel cell stack sandwiched between the connectors 2 as long as the pitch is matched.
[0024]
As described above, the hole 19 provided in the end plate 15 has an elliptical or long hole on one side in consideration of the difference in the thermal expansion and contraction rate of the fuel cell stack 4. Various colors are applied to the resin portion of the dummy fuel cell stack 4 to indicate a difference in thickness depending on the color. The difference in thickness confirms the fit.
[0025]
Further, the connector fixing device 1 is sprayed with salt water or the like to test the state of the contacts such as the cell terminals 3 and the connector contacts 9. The dummy terminals are supplied with the dummy voltage to the insulator terminals 12 of the dummy fuel cell stack 4. After applying a load or connecting a lead wire (connection cable) 33, it is embedded with an adhesive or the surface is hardened with an epoxy resin to insulate it from the outside so as not to be affected by salt water or the like.
[0026]
Connector evaluation items include machine evaluation, operating force (tightening), contact life (fatigue of springs for attaching and detaching contacts), shock resistance, earthquake resistance (attached to a shaker), salt spray Evaluation data such as (two types of plating differences), corrosion resistance (sulfur, etc.), moisture resistance (conservativeness), heat resistance, low temperature storage, and thermal shock (switch between high and low temperature at once) can be taken.
[0027]
Although the preferred embodiment has been described above, the present invention is not limited to the above-described embodiment, and appropriate changes can be made without departing from the scope of the present invention. For example, in the present embodiment, the material of the block that sandwiches the fuel cell stack is stainless steel, but is not particularly limited to aluminum or resin.
[0028]
【The invention's effect】
As described above, according to the invention described in claim 1, a dummy fuel cell stack including a cell voltage measurement terminal and a test terminal electrically connected to the cell voltage measurement terminal is provided. Since the two blocks sandwich the fuel cell stack from the left and right, and furthermore, the connector is disposed so as to be connectable to the cell voltage measuring terminal, the reliability of the connector can be efficiently evaluated.
[Brief description of the drawings]
FIG. 1 is a perspective view schematically showing a connector fixing device for measuring a cell voltage according to an embodiment of the present invention.
FIG. 2 is a perspective view schematically showing a connection part of a connector fixing device for cell voltage measurement.
FIG. 3 is a perspective view schematically showing a usage state of a connector fixing device for measuring cell voltage.
[Explanation of symbols]
1 Connector Fixing Device 2 Connector 3 Cell Terminal 4 Fuel Cell Stack (Fuel Cell Stack)
5 Single cell 6 Bolt 7 hole (long hole)
8 piece 9 connector contact 10 separator 11 confirmation hole 12 insulator terminal 13 block 14 hole (knock hole)
15 End plate 16, 17, 21 Bolt 18 Nut 19 Hole 20 Hole (Elongated hole)
21 Shaft 30 Evaluation device 31 Measurement device 32 Electric signal supply device 33 Lead wire (connection cable)
34 Connection cable 35 Fixed base

Claims (1)

A connector fixing device for cell voltage measurement, comprising two blocks having surfaces that can hold a connector in contact with an upper surface, and a mounting surface on a lower surface of the two blocks,
A dummy fuel cell stack having a cell voltage measurement terminal and a test terminal electrically connected to the cell voltage measurement terminal,
The two blocks sandwich the fuel cell stack from left and right, and furthermore, the connector is disposed so as to be connectable to the cell voltage measurement terminal.

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