JP3512722B2 - Charging / discharging device for polymer batteries - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging / discharging device for a polymer battery, and more particularly to a charging / discharging device for a polymer battery which takes measures for batteries of different types.

[0002]

2. Description of the Related Art Conventionally, a charging / discharging device for a polymer battery is generally constructed as a structure corresponding to a battery of a specific kind or type. Therefore, in order to support batteries of different types or models, it is necessary to change the setup accordingly.

In order to replace the set-up, a method of preparing a charging / discharging device for each product type or replacing it with a mechanism equipped with a probe corresponding to each product type has been generally adopted conventionally. ing.

Prior invention example 1 similar in technical field to the present invention
As an example, there is "Secondary battery charging device with movable terminal" in Japanese Patent Application No. 7-13968 (utility model registration No. 3027867). The first invention example of the present application includes a variable voltage generation section, a voltage setting section, a polarity switching section, a terminal position setting section for moving the connection terminal, an operating terminal, etc. Can be moved.

[0005]

However, in the above-mentioned conventional method, there is a problem that the investment cost of the equipment increases or that the setup change time for the product type change takes a long time.

The above-mentioned invention 1 of the prior application is effective in changing the lot correspondence, but shows a countermeasure when the secondary batteries of different types, especially the batteries of various types are mixed. Absent.

In the polymer battery charging / discharging device to which the present invention relates, it is an important object of improvement to shorten the setup change time when the outer shape of the battery, which varies depending on the product type, particularly the width and position of the electrode tab, varies. It is required as one of the factors.

An object of the present invention is to provide a charging / discharging device for a polymer battery which is capable of firstly improving the setup time for product type change and secondly suppressing the capital investment that occurs during product type change. To do.

[0009]

In order to achieve the above object, the polymer battery charging / discharging device of the present invention comprises at least 2 units.
A tray on which a predetermined number of polymer batteries are mounted at a predetermined interval, an electrode probe that electrically connects to the positive electrode tab and the negative electrode tab of the polymer battery, and the positive electrode tab and the negative electrode tab are independently provided. It has an electrode probe moving mechanism that holds the electrode probe whose position is movable, and by using the electrode probe moving mechanism to move the electrode probe left and right with respect to the electrode tab, tabs due to differences in the types of polymer batteries can be obtained. It is characterized by easily responding to the difference in position and shortening the time required for setup change due to this difference in product type.

Further, the above-mentioned electrode probe moving mechanism has a drive source for moving the position of the electrode probe, a drive power source for supplying a drive power source to the drive source, and an electric power source.
It is preferable to have a switching means for switching the connection between the pole probe and the power supply, and the drive source be a stepping motor.

The polymer battery charging / discharging device described above is
It is necessary to move the electrode probe moving mechanism for connecting to each electrode tab by inputting the model of the polymer battery to this computer, which further comprises a computer that serves as a control unit for controlling the driving of the driving source. indexing an amount to allow automatic positioning, furthermore, is configured to have a sensor for sensing an electrode tab to the electrode probe moving mechanism, it is preferable to allow positioning the sensor to the sensing.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of a charging / discharging device for a polymer battery according to the present invention will be described in detail with reference to the accompanying drawings. 1 to 7, there is shown one embodiment of a charging / discharging device for polymer batteries of the present invention.

FIG. 1 is a conceptual block diagram showing an embodiment of a charging / discharging device for polymer batteries according to the present invention. The charging / discharging device for polymer batteries applied to this embodiment is shown in FIG.
As shown in FIG. 3, it comprises a polymer battery 1, a tray 2, an electrode probe 3, a first electrode probe moving mechanism 4 and a second electrode probe moving mechanism 5. It should be noted that the tray 2 part is indicated by diagonal lines.

In the above structure, in this embodiment, the polymer battery 1 is mounted on the tray 2 so that the electrode tab faces downward. Further, the electrode probes 3 are mounted by being classified into a first electrode probe moving mechanism 4 and a second electrode probe moving mechanism 5 according to their polarities.

FIG. 2 is a conceptual diagram showing the structure in more detail for explaining the relationship between the first electrode probe moving mechanism 4 and the second electrode probe moving mechanism 5 for each polarity. In FIG. 2, the polymer battery charging / discharging device according to the present embodiment includes a polymer battery 1, a tray 2, an electrode probe 3, a first electrode probe moving mechanism 4, a second electrode probe moving mechanism 5, and a first driving source. 6, a second drive power source 7, a first supply power source 8, and a second supply power source 9.

As shown in FIG. 2 described above, by moving the first electrode probe moving mechanism 4 and the second electrode probe moving mechanism 5 left and right, it is possible to easily cope with the difference in the tab positions due to the difference in the product type. Play a role. Therefore, it is possible to obtain the effect that the time required for setup change due to the difference in product type can be shortened.

(Example of Operation) FIG. 1 shows a polymer battery 1 ,.
1 shows an attached state, FIG. 2 shows an arrangement example of the electrode probe moving mechanisms 4 and 5 with respect to the electrode probe 3, and FIG. 3 shows an arrangement example of the polymer batteries 1, ..., 1 based on the configuration example of the tray 2. .

1 and 2, the polymer battery 1 is mounted on the tray 2 with the electrode tab facing downward. The electrode probes 3 are connected to the power supply in pairs, and the (+) pole side is mounted on the first electrode probe moving mechanism 4 and the (−) pole side is mounted on the second electrode probe moving mechanism 5. Tray 2 is
As shown in FIG. 3, batteries are mounted one by one in the white parts. Therefore, as a method of mounting the electrode probe 3 on the electrode probe moving mechanisms 4 and 5, the electrodes are mounted at the same intervals as the battery mounting intervals d shown in FIG. 1 in the Y-arrangement direction of FIG.

According to the present invention, when the electrode tab position of the polymer battery 1 changes depending on the type, the electrode probe moving mechanisms 4 and 5 are used to move the electrode probe 3 to the position corresponding to the electrode tab. The drive sources 6 and 7 corresponding to the electrode probe moving mechanisms 4 and 5 are, for example, stepping motors or the like. Further, the type of the polymer battery 1 to be adjusted is input to a computer or the like that serves as a control unit. With this, the moving amount of the electrode probe moving mechanisms 4 and 5 can be calculated and the position can be automatically determined.

FIG. 3 is a plan view conceptually showing an arrangement configuration example of the polymer batteries 1 ,. In FIG. 3, the polymer batteries 1, ..., 1 are shown in white, and the blacked out portion is the tray 2 portion. The first electrode probe moving mechanism 4 and the second electrode probe moving mechanism 5 are required for the battery rows of the tray 2 in the X direction. The polymer batteries 1 in the X direction are mounted at intervals w. Therefore, the electrode probe moving mechanisms 4 and 5 in each row are separated by the distance w.
By connecting the positions of the electrode tabs in one row and the positions of the electrode probes 3 by connecting with each other, the type correspondence regarding the tab positions with respect to the batteries in one tray is completed. Therefore, there is an effect that the setup change work time when there is a difference in the tab position depending on the product type can be significantly improved.

This will be further described with reference to FIGS. 4 and 5. These FIGS. 4 and 5 show the positioning operation of the electrode tabs for the polymer batteries of product type Q and product type R, respectively.

In the polymer battery of the type Q shown in FIG. 4, due to the existence of the electrode probe moving mechanisms 4 and 5 of the present embodiment, the electrode probe moving mechanisms 4 and 5 are closer to the origin of the type Q than the driving origin O. When the distance to the (+) pole tab of the battery is p1 and the distance to the (−) pole is m1, the electrode probe moving mechanism 4 is moved from the origin O to p1 and the electrode probe moving mechanism 5 is moved from the origin O to m1. This completes the positioning of all electrode tabs and electrode probes.

Similarly, in the polymer battery of type R, when the distance to the (+) electrode tab of the battery closest to the origin is p2 (-), the electrode probe moving mechanism 4 is set to the origin O. By moving p2 and the electrode probe moving mechanism 5 by m2 from the origin O, positioning of all electrode tabs and electrode probes is completed.

Moreover, in this embodiment, a stepping motor is used as a driving source for the electrode probe moving mechanisms 4 and 5, and if the distance from the origin O is step-controlled, the positioning can be automatically performed, and only the kind of product is designated. This has the effect of completing the setup change.

In the above embodiment, the drive sources of the electrode probe moving mechanisms 4 and 5 may be set by the operator. Further, a sensor for sensing the electrode tab may be provided on the electrode probe moving mechanisms 4 and 5, and the positioning may be performed by this sensing sensor.

(Other Examples) In the above-described examples, the present embodiment is applied to the method in which the electrode probe 3 and the power source are paired, but a method for switching the connection between the electrode probe and the power source can also be applied. . The configuration is shown in FIGS. 6 and 7 show the electrode tab width and the polymer battery 1,
... The case where the relationship with the mounting interval w of 1 is different is shown. FIG. 6 shows a case where the relationship of electrode tab width <W is satisfied. Further, FIG. 7 shows a case where there is a relationship of electrode tab width> W. In the relationship between electrode tab width and W,
It has a function of switching the power supply source of the electrode probe 3. The switching of the power supply source of the electrode probe 3 is performed by the changeover switches SW1 and SW2.

In many cases the tray size is limited,
Batteries are placed on the tray at a predetermined pitch m × n. The higher the number of batteries mounted on the tray, the better the production efficiency. Therefore, the tray is designed so that the distance between the batteries on the tray and the adjacent batteries is as small as possible. As a result, since the electrode probe moving mechanism is connected at equal intervals w, when (battery width> w) is satisfied, the tray is designed by designing the battery mounting interval as a multiple of w.

However, there are cases where the width of the electrodes is widened (interval between electrode tabs> w). In this case, any mechanism can be used as long as the distance between the electrode probe moving mechanisms 4 and 5 can be operated at a distance w or more, but it is often difficult to make the distance w or more due to physical collision or the like. Therefore, as shown in FIGS. 6 and 7, the electrode probe 3 and a mechanism for switching the power supply are provided, and the electrode probe 1 is connected to the (−) pole of the power supply 8.
By connecting the (-) pole of 3, the battery can be charged or discharged.

An example of the operation is shown in FIG. 6 (width of electrode tab <
In the case of w), SW1 is the upper contact and SW2 is the lower contact. By doing so, the electrode probe 10 and the electrode probe 11 are connected to the power supply 8, and the electrode probe 12 and the electrode probe 13 are connected to the power supply 9. In the case of FIG. 7 (width of electrode tab> w), SW1 is the lower contact and S
Make W2 the upper contact.

With the above configuration, the electrode probe 1
0 and the electrode probe 13 are connected to the power supply 8. Therefore, by adopting this electrode switching method, the number of batteries mounted on the tray is increased, and the effect of improving the production efficiency can be obtained.

A feature of the present invention is that the electrode probe of the charging / discharging device is moved in parallel to the electrode tab position according to the tray on which the electrode tab of the polymer battery is mounted downward and the electrode tab position of the polymer battery which varies depending on the product type. By having a mechanism, it is easy to change the product type.

The above-mentioned embodiment is an example of a preferred embodiment of the present invention. However, it is not limited to this,
Various modifications can be made without departing from the scope of the present invention.

[0033]

As is apparent from the above description, in the polymer battery charging / discharging device of the present invention, the polymer batteries are mounted on the tray at a predetermined interval, and the positive electrode tab and the negative electrode of the polymer battery are attached by the electrode probe. In order to make an electrical connection with the electrode tab, it has an electrode probe moving mechanism that holds the electrode probe and moves the position independently of the positive electrode tab and the negative electrode tab. By using this electrode probe moving mechanism to move the electrode probe left and right with respect to the electrode tab, it is possible to easily respond to the difference in the tab position due to the difference in the type of polymer battery, and to mount different types of batteries in one tray. Enables shortening of all charging / discharging work time.

[Brief description of drawings]

FIG. 1 is a conceptual block diagram showing an embodiment of a charging / discharging device for polymer batteries of the present invention.

FIG. 2 is a conceptual diagram showing a more detailed configuration example of an electrode probe moving mechanism for each polarity.

FIG. 3 is a plan view showing an arrangement example of polymer batteries based on a tray configuration example.

FIG. 4 is a diagram for explaining a positioning operation for positioning an electrode tab of a polymer battery for each product type.

FIG. 5 is a diagram for explaining a positioning operation of the polymer battery for each type on an electrode tab.

FIG. 6 is a diagram for explaining an operation example when the electrode tab width and the mounting interval w of the polymer battery have a relationship of electrode tab width <W.

FIG. 7 is a diagram for explaining an operation example in the case where the electrode tab width and the mounting interval w of the polymer battery have a relationship of electrode tab width> W.

[Explanation of symbols]

1 polymer battery 2 trays 3, 10, 11, 12, 13 electrode probe 4, 5 electrode probe moving mechanism 6, 7 drive source 8, 9 power supply Q, R polymer battery type O electrode probe moving mechanism drive origin p1 type Distance to the (+) pole tab of the battery closest to the origin of Q p2 Distance to the (+) pole tab of the battery closest to the origin of product R m1 p1 (-) Distance to the pole m2 p2 (-) Distance w to pole w

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP 2001-291531 (JP, A) JP 2000-299135 (JP, A) JP 11-83960 (JP, A) JP 10-189059 ( JP, A) JP-A-3-78971 (JP, A) Special Table 2002-523872 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) H02J ^7/ 00-7/12 H02J 7/34-7/36 H01M 2/10 H01M 10/44

Claims (6)

(57) [Claims] 1. A tray on which at least two predetermined polymer batteries are mounted at predetermined intervals, an electrode probe electrically connected to a positive electrode tab and a negative electrode tab of the polymer battery, and the positive electrode tab. And an electrode probe moving mechanism for holding the electrode probe whose position is independently movable with respect to the negative electrode tab, and using the electrode probe moving mechanism to move the electrode probe to the left and right with respect to the electrode tab. The charging / discharging device for polymer batteries is characterized in that it is possible to easily cope with the difference in the tab position due to the difference in the type of the polymer battery and to shorten the setup change time due to the difference in the type. 2. The electrode probe moving mechanism comprises a drive source for moving the position of the electrode probe, and a drive power source for supplying drive power to the drive source. Item 1. A charging / discharging device for polymer battery according to item 1. Wherein the electrode probe moving mechanism, said electrode Pro
A switching means for switching the connection between the probe and the power source, and the switching means has a tab width of the electrode tab and the polymer electrode.
Depending on the mounting interval of the pond,
The switching according to claim 1 or 2, wherein the switching is performed.
Charge / discharge device for polymer batteries. 4. The charging / discharging device for polymer battery according to claim 1, wherein the drive source is a stepping motor. 5. The polymer battery charging / discharging device further includes a computer that serves as a control unit that controls the driving of the drive source, and inputs the model of the polymer battery to the computer. The charging / discharging for polymer battery according to any one of claims 1 to 4, wherein a necessary movement amount of the electrode probe moving mechanism for connecting to each electrode tab is determined and automatically positionable. apparatus. 6. A rechargeable device for the polymer battery, and wherein is configured to have electrodes probe moving mechanism further a sensor for sensing the electrode tab, and enabling the positioning sensor for the sensing The charging / discharging device for polymer battery according to claim 1.