JPH01195659A - Manufacture of storage battery - Google Patents

Abstract

PURPOSE:To secure the liquid-tightness of an inter-cell junction and industrialize the production of a mono-block type storage battery by pressing a pushing bar to both sides of the fin section of a connector, heating the connector and the fin section, then pushing the connector in when an electrode plate group is inserted into each cell chamber of a mono-block type battery jar. CONSTITUTION:An integrally connected electrode plate group 2 is inserted into each cell chamber 5 of a mono-block type battery jar 1 to the middle, the polarity of the electrode plate group 2 and the conductivity of a separator 8 are checked, then a pushing bar 3 is pressed to both sides of the fin section 10 of a connector 9 to heat the connector 9 and the fin section 10. The connector 9 is pushed in with the pushing bar 3, the electrode plate group 2 is inserted into each cell chamber 5, the connector 9 is pushed into a notch section 6, the peripheral bulkhead section 11 of the notch section 6 is melted by the heated connector 9 and the fin section 10, the connector 9 and the fin section 10 are closely stuck to the peripheral bulkhead section 11. The liquid-tightness of a bulkhead through section can be secured, thereby the production of a mono- block type storage battery can be industrialized.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a method for manufacturing a so-called Knoblock type storage battery, in which several 2V+L/V batteries are housed in a battery case through partition walls and connected through each partition wall.

2. Regarding the conventional technology and the point of difference between the two. Connecting the adjacent cells 1vI15 with a flat plate-shaped nutfude
It is considered to be an ideal connection method because it connects the cells over a short distance and the electrical resistance between the cells can be maximized, and various proposals have been made in the past.

In the old days, there was Tokusushi Hashi 47-27336, followed by JP-A-50-49635 and JP-A-50-4714.
Publication No. 0, Japanese Patent Publication No. 152254/1983, Japanese Patent Application Publication No. 1973
6-114279, JP-A-58-19858, and the like. However, in these cases, the electrical resistance welding method, which does not ensure sufficient liquid tightness in the partition wall passages, requires 51i! Qualitatively 1! There are problems with the welding itself in order to apply pressure during air resistance welding, there are some that require extra auxiliary parts, there are some that inject sealant, but it takes a lot of assembly time, and each can be used individually or It has some serious drawbacks and has not been industrialized.

Recently, as an improvement of the above conventional one, JP-A-62-15
No. 7674 has been proposed. This is a strap (
While the residual heat temperature when forming the connection body (connection body) by welding is higher than the softening temperature of the stacked bulkhead, push the electrode plate group into the electrical phase,
The residual heat from the straps is used to melt and press-fit the partition wall.

However, there are the following drawbacks in industrializing this method.

(1) If the production fin stops while the product is flowing through the production fin, all products whose residual heat from the strap has fallen below the softening temperature of the wall of the container gA will be unable to be assembled.

(2) Since the cooling rate of the remaining heat of the strap depends on the ambient temperature, the production fin must be installed in a constant temperature room or the tact speed of the production fin must be controlled in accordance with the ambient temperature.

(5) Production fins are typically designed to produce multiple battery models. The cooling rate of the strap's residual heat temperature also depends on the strap's volume, so the takt speed of the production fins must be controlled each time the battery model to be produced changes or the strap's volume changes.

(4) In (2) and (6) above, controlling the tuft spittle of a production fin means that all the equipment that makes up the entire fin must be controlled, which is a very difficult task. (because if there is only one section, the product will stagnate at a certain point). Related to this, all the equipment that makes up the entire line is 7
The structure must be designed to allow speed control.

(5) Normally, after forming a strap on the production fin of a Ki storage battery and storing the electrode plate group in a battery case, the polarity of the electrode plate group and the continuity of the separator (the whiteout of the electrode plate group) are checked. The defective products discovered in this way were pulled out, reworked, and cooled to the fins again, but all of these items could no longer be reworked.

OBJECTS OF THE INVENTION The present invention provides a method for manufacturing a battery that eliminates all of the above-mentioned drawbacks.

1jji composition of the invention The present invention is a monoblock type T made of thermoplastic synthetic resin.
11: Equipped with a fu, a counting electrode plate group, and a pushing bar with a heating function, the monoblock type electric cup is partitioned into a plurality of chambers by partition walls, and the 17J' fx
is provided with a notch, and the electrode plate group is composed of a plurality of positive and negative electrode plates and separators, and has seven to seven positive and negative electrodes in contact with each other.
The 11 questions are integrally connected to each other by a connecting body, and the connecting body is provided with a fin portion projecting upward at a position corresponding to the notch of the partition wall, and the width dimension of the connecting body and the groove is equal to the notch. It is formed to be larger than the width of the cell, and the integrated cell is formed in each cell chamber of the monochrome battery case. l! When inserting the connected electrode plate group, the pushing bar is pressed against both sides of the fin of the connecting body to heat the connecting body and the fin, and then the pushing bar is used to make a loose connection. By pushing the body, the electrode plate phase is inserted into each of the seven chambers, and the connecting body is pushed into the notch, and the heated connecting body and the fin portion melt the peripheral part of the notch. This method of manufacturing a storage battery is characterized in that the connection body and the fin portion are brought into close contact with the peripheral partition.

Embodiment One embodiment of the present invention will be described based on the drawings. FIG. 1 is a sectional front view of a main part of a storage battery being manufactured according to the present invention, and FIG. 2 is a cut-away view of the main part.

First, the monoglock type Danyu 1 made of thermoplastic synthetic resin,
A plurality of electrode plate groups 2 and a pushing bar 6 with a heating function
and prepare. Monoblock type 11! The altar 1 is partitioned into a plurality of cell IV chambers 5 by partition walls 4t, and each partition wall 4 is provided with notches 6 at staggered positions. The electrode plate 1n2 is composed of a plurality of positive and negative electrode plates 7 and separators 8, and the positive and negative electrode plate groups 20 of cells in contact with each other are integrally connected to each other by a connecting body 9. The connecting body 9 is provided with a fin portion 10 projecting upward at a position corresponding to the notch portion B.
The width A of the fin 10 is larger than the width B of the notch 6 (A>B). Next, the integrally connected electrode plate group 2 is connected to each cell/l of the monoblock electric board 1.
'Insert halfway into chamber 5. At this time, the polarity of the electrode plate group 2 and the continuity of the separator 8 are checked. If there is any abnormality, pull out the electrode plate rn2 and repair it. Thereafter, the pushing bar 3 is pressed against both sides of the fin part 10 of the connecting body 9 to heat the connecting body 9 and the fin part 10 (see FIGS. 1 and 2).
figure). The temperature of the pushing moon J bar 3 is 500 to 600℃
It is desirable to set it to . Thereafter, by pushing the connecting body 9 using the pushing bar 3, the electrode plate group 2 is inserted into each of the seven to chambers 5, and the connecting body 9 is pushed into the notch 6, and the heated connecting body 9 and the fin part 10, the peripheral partition part 11 of the cutout part 6 is melted, and the connecting body 9 and the fin part 10 are brought into close contact with the peripheral partition part 11 (fifth FA). After R, the upper surface of the monogram type electric board 1 and the electric conductor Iu are
1 and the lower part of the lid 12 made of the same material are thermally welded (heat cooled lv) (FIG. 4).

In addition, in the above-mentioned examples, a flat plate-like shape was used as the shape of the connecting body 9, but the present invention is not limited to this, and various modifications can be considered.

Effects of the Invention Since the present invention is a method for manufacturing a 1" battery as described in the claims, it has the following effects.

(1) Since the entire peripheral edge of the connecting body including the fins is tightly sealed by the melted thermoplastic synthetic resin, the inter-cell connecting portion can be completely kept liquid-tight.

(2) Since no electric resistance welding method is used, the connection body itself is connected to the cell! There is no risk of being left out in the club.

(3) Not only does it not require any auxiliary parts to form inter-cell connections, but it is also possible to add filler material later using the injection four-mold method or fill it with thermosetting filler, etc. Since there is no need to do anything, it is possible to greatly reduce the cost of auxiliary parts, the cost of equipment for the injector mode, and the number of assembly steps.

(4) Since the connecting body is heated by a push-in bar with a heating function, the push-in bar can be designed so that the temperature of the push-in bar can be set automatically using a heat sensor.

Therefore, it is a good idea to incorporate the set temperature of the push bar into the work standard in advance according to the ambient temperature or the body temperature (specific heat) of the connected body, and when installing a production line in a tPl greenhouse or controlling the tact nubide one by one. There is no need to do a -7y.

(5) Check the polarity of the electrode plate group and the continuity of the separator.
This can only be done after the connection body has been formed. As mentioned in the main text, in the present invention, this can be done after the connecting body is formed and when the electrode plate group is inserted halfway into T and TL, and it can be done using a push-in bar with a heating function. Since the step of heating the connection body comes next, refurbishment of the reworked product can be achieved. By the way, in the conventional proposal, it is essential that the temperature at the time of forming the connection body be kept higher than the melting temperature of the partition wall, so the process order is that after forming the connection body, the electrode plate group is placed in the battery case. If you push into it, it will be decided for you. (If the check process is performed during that time, the temperature of the connected body will drop too much, making it impossible to perform the check process.) Therefore, the check process is necessarily performed after pushing the electrode plate group into the battery case, and in this ++=,a, the connection body is already in close contact with the melted partition wall, and if it is forcibly removed from the battery case. Even if you take out the electrode plate group and rework it, it is impossible to regenerate it because the connection body has already cooled down.

(6) Because the process procedure of the present invention described in item (5) above can be performed, even if the production fins are temporarily stopped, production can be carried out without affecting the product.

4. Simple visit to the drawings Figure 1 is a cross-sectional front view of a storage battery being manufactured according to the present invention, Figure 2 is a cross-sectional side view of the same main part, and Figure 3 is a view of the electrode plate group being completely inserted into the cell chamber. A cross-sectional side view of the main part in the inserted state, Figure 4 is 'F
FIG. 4 is a cross-sectional side view of a main part in a state where Mt4 and a lid are thermally welded.

Claims (1)

[Claims] A monoblock battery case made of thermoplastic synthetic resin, a plurality of electrode plate groups, and a pushing bar with a heating function are prepared, and the monoblock battery case is partitioned into a plurality of cell chambers by partition walls, The partition wall is provided with a notch, and the electrode plate group is composed of a plurality of positive and negative electrode plates and separators, and the positive and negative electrode plate groups of adjacent cells are integrally connected to each other by a connecting body. is provided with a fin portion projecting upward at a position corresponding to the notch portion of the partition wall, and the width of the connecting body and the fin portion is formed to be larger than the width dimension of the notch portion, and each of the monoblock type battery case When inserting the integrally connected electrode plate group into the cell chamber, the pushing bar is pressed against both sides of the fin of the connecting body to heat the connecting body and the fin, and then the pushing bar is pressed against both sides of the fin of the connecting body and heated. By pushing the connecting body using a bar, the electrode plate group is inserted into each cell chamber, and the connecting body is pushed into the notch, and the heated connecting body and the fins are used around the notch. 1. A method of manufacturing a storage battery, comprising melting a partition wall portion and bringing the connecting body and the fin portion into close contact with the peripheral partition wall portion.