JPH0256852A - Manufacture of lead-acid battery - Google Patents

Abstract

PURPOSE:To improve the productivity and the reliability of a battery by screwing a screw inserted through a hole in a connecting member in an electrode column from the end plane of which so as that the fitted portion between the electrode column and the through hole in a cover is filled with lead and lead alloy of the said column and they are contacted to each other with pressure airtightly and simultaneously the connecting member is connected to the end plane of the column. CONSTITUTION:A screw 7 is screwed in an electrode column 3 with pressure while tapping the column with the top acute angle portion 5 and the threads 6 of the screw 7, so that the expanded portion 3'' is formed on the electrode column 3, and lead and lead alloy of the column 3 are filled up in the fitted portion 3' between the column 3 and the through hole 2 in a cover to be contacted to the through hole 2 with pressure, and a connector 8 is fixed to the cover 1. On the other hand, the electrode column 3 and its end plane 4 are pulled toward the connector 8 and contacted to the connector 8 with pressure, and the said fitted port ion 3' is made airtight with the pressure of lead and lead alloy filled up in the said portion 3', and at the same time the connector 8 is connected to the column 3 as an output terminal. Thereby the reliability and the productivity of the battery can be improved for the sake of the completion of the process in a same process.

Description

[Detailed description of the invention] Industrial applications The present invention relates to a method for manufacturing a lead-acid battery.

Conventional technology and its problems In the conventional small pot sealed ship storage battery, an O-ring is inserted between the pole pole's through hole in the lid and the pole pole as a method for connecting the pole pole and the 1111 body serving as the output terminal. The solder-plated brass connection body is brazed with solder to ensure airtightness.

Another method is to expand the base hole with a 71 snare rivet inserted into the base hole of the pole pole, and then connect the pole pole to the inner surface of the pole pole fitting part on the lid, and then touch the end face of the pole pole. There is a method of keeping the lid airtight and fixing it at the same time by gathering lead or lead alloy in the direction of the lid material and pressing the lid material together.

The former requires an adhesive to make it liquid-tight, so the reliability of the adhesive, the amount dispensed by the dispenser, and the measurement balance between the curing agent and the main agent are unstable, so manual measurement, mixing, stirring, etc. Since it requires injection and is an adhesive, it complicates the process and requires time and effort for curing.

This has resulted in problems of poor productivity and increased battery production costs.

In the latter fastener rivet method, in order to maintain airtightness, it is essential that the end face of the pole column and the lid material come into contact with each other, so that the lead or lead alloy is pressed against the lid material. However, in the case of lead-acid batteries, lead and lead alloys are soft, especially immediately after casting, and the dimensional accuracy of the poles, such as the position and height of the poles immediately after the cast-on strap manufacturing process, is poor, making them difficult to match with the lid material described above. There are cases where there is a gap of 1 to 5 square meters without contact, and poor airtightness often occurs, resulting in the same problem as the former.

OBJECTS OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and it is an object of the present invention to provide a lead-acid battery that is highly productive, highly reliable, and inexpensive.

Structure of the Invention In order to achieve the above-mentioned object, the present invention involves fitting a pole pole made of lead or a lead alloy onto a through hole installed in a lid, and inserting a screw with an acute tip into a connecting body from the outside, which is the end face of the pole pole. through the hole, and drilled into the pole column in the axial direction, and the end face of the pole column and the pole column of the fitting portion expand, and the inner surface of the through hole of the lid, which is the fitting portion, is filled with lead and lead alloy of the pole column. This is a method for manufacturing a lead-acid battery, in which it is arranged in advance that the poles and the connecting bodies are connected in a tight manner to make the fitting portion airtight.

In addition, a connecting body that is interposed opposite to the through-hole of the lid, or a connecting body that is connected to the lid, and a puff ring on both sides or either side of the stepped part of the pole column, and a lid on the fitting part of the through-hole of the pole column and the lid. Packing on either the side or the pole column side, a tapered pole column that fits into the through hole in the lid, and the above screw on the end face of either pole column to fit the pole column and the through hole in the lid. By expanding the part and tapping the screw, lead is added to the inner surface of the through hole of the lid.
This is a manufacturing method of the lead-acid battery, in which the lead-acid battery is filled with a lead alloy to make it airtight by pressure-welding, and at the same time, the connecting body is firmly fastened.

Example Hereinafter, one embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a perspective cross-sectional view of an embodiment of the present invention, and FIG.
The figure is a cross-sectional view of the main part of the battery, in which the pole pillar is fitted into the through hole of the lid, the metal connector is placed on the lid, and the screws are placed in order to make an electrical connection from the inside of the storage battery to the outside. Insert the screw shown in Figure 2 through the hole in the connecting body, insert the screw from the end face of the pole column, expand the pole column, and fill the fitting part with the through hole in the lid with lead and lead alloy of column 441. Fig. 4 is a cross-sectional view of the main part of the connection body which is connected to the end face of the pole pole by pressure contact to make it airtight, and at the same time, the connecting body and the stepped part of the pole pole are connected to the through hole of the lid, and the stepped part of the pole pole is screwed in. Press the pole into contact with the lid by tapping the screw, and expand the pole post to fill the fitting part with the through hole of the pole with the lead or lead alloy of the pole to make the pressure contact and airtight, and at the same time attach the connecting body to the end face of the pole. Fig. 5 is a sectional view of the main parts of the connected body, and the packing material is placed in the part where the connecting body and the stepped part of the pole pole face the through hole of the lid, and the packing material is removed by drilling and tapping the screw. In addition, the pole pole is expanded to fill the fitting part with the through hole of the pole with the lead or lead alloy of the pole pole, and the contact is made airtight by pressure welding, and at the same time, the connecting body is fastened to the end face of the pole pole. Fig. 6 is a cross-sectional view of the lid, where the packing material is placed in the concave groove installed in the through hole of the lid, the pole pillar is expanded by driving the screw, and the fitting part with the through hole of the lid is inserted into the lead of the pole pillar. , a sectional view of the main part filled with lead alloy and pressure-welded to make it airtight, and at the same time a connecting body is fastened to the end face of the pole pole; Figure 7 is a perspective view of the main part of the pole pole tapered from the end face of the pole pole; The figure is a perspective view of the main parts of the airtight fitting portion disposed on the battery case side according to the present invention, and the structure of the connecting body fastened to the pole pole by screws.

At the knee, 1 is the lid, 2 is the through hole in the lid, 3 is the pole column, 3' is the fitting part between the through hole in the lid and the pole column, 3' is the pole column expansion part, 4 is the pole column end face, and 5 is the pole column. The sharp end of the screw, 6 is the thread, 7 is the screw,
8 is a connection body, 9 is a hole for a screw, 10 is a stepped part of a pole column, 11 is an inner end face of the battery in a through hole of a lid, 12 is a packing, 13 is a groove for packing, 14 is a concave groove for packing, and 15 is an electrical Tank,
16 is a tapered part of the pole column.

As shown in Fig. 1, a pole pole 3 for electrical connection from the inside of the storage battery to the outside and a metal connecting body 8 serving as an output terminal
The head 7' of the screw 7 is pressed against the pole end face 4 and fastened. Additionally, the expansion part 3' of the pole post is generated by the drilling of the groove 7, and the lead and lead alloy of the pole post 3 fills the through hole 2 of the lid and press against each other, causing the through hole 2 of the lid and the pole post 3 The fitting portion 5' is made airtight.

As shown in FIG. 2, the through hole 2 of the lid installed in the lid 1
Fit the pole post 3 to
Align the centers of the screw holes 9, and then align the centers of the screws 7 and the screws.

In FIG. 3, the sharp end 5 of the screw 7 is pressed against the pole end face 4, and the sharp end 5 of the screw 7 and the thread 6 are used to drive the screw 7 and tap it.

At the same time, by being press-fitted into the pole post 3, the pole post 3 forms a pole post expansion part 3', and the lead of the pole post 3 and the lead of the pole post 3 form a pole post expansion part 3'. The alloy is filled and presses into the through hole 2 of the lid, and the connecting body 8 is stopped by the lid 1.

One pole post 5 and the pole post end face 4 are drawn toward the connecting body 8 and come into pressure contact with the connecting body 8. Furthermore, the pole pillar 3 is attached to the fitting part 4.
The fitting portion 3 is filled with lead and lead alloy and is further pressure-welded.
' is made airtight, and at the same time, the connecting body 8 which becomes the output terminal is fastened.

In addition to the above, the fitting part between the pole column and the through hole of the lid is made airtight,
Another embodiment that also serves as an output terminal will be described.

As shown in FIG. 4, the pole post 3 is fitted into the through hole 2 of the lid, the connecting body 8 and the pole pole stepped part 10 are arranged to face each other, and the screw 7 is inserted into the screw of the connecting body 8. Pole column end face 4 through hole 9
is pressed, and the sharp end portion 5 of the screw 7 is driven into the screw 7 to form a screw. At the same time, the pole post 3 is press-fitted, forming a pole post expansion part 3', and a fitting part 3' between the through hole 2 of the lid and the pole post 3.
is filled with lead and lead alloy of the pole post 3 and presses against the through hole 2 of the lid. At the same time, since the connecting body 8 is fixed to the lid and the screw 117' is fastened to the connecting body 8, the pole pole 3 As the pole column stepped portion 10 is drawn toward the connecting body 8, the pole column stepped portion 10 and the battery inner end surface 11 of the through hole of the lid are brought into pressure contact. Further, the connecting body 8 and the pole column end face 4 are pressed together, and the fitting portion 4 is filled with the lead alloy of the pole column 3 and further press-bonded, thereby making the fitting portion 3' airtight. At the same time, connect the connecting body that will become the output terminal.

As shown in FIG. 5, a puffing groove 13 in which the packing 12 can be accommodated is installed in the lid 1. First, the pole post 3 with the packing 12 inserted up to the pole post stepped portion 10 is fitted into the through hole 2 of the lid. After that, the packing groove 15 on the lid 1 and the pole post 3
The packing 12 is pushed between the connecting bodies 8, and the connecting bodies 8 are arranged so that the centers of the screw holes 9 of the connecting bodies 8 and the centers of the pole posts 3 are aligned, and the screws 7 are inserted. Similarly to the above, the pole post 3 forms a pole post expansion part 3' and a fitting part 3' between the through hole 2 of the lid and the pole post 3.
The pole pillar 3 is filled with lead and lead alloy, and is pressed against the through hole 2 of the lid. Since the head 7' of the lid 1 screw is fastened to the connecting body 8, the pole post 3 and the pole post stepped part 10 are drawn toward the connecting body 8, and the packing 12 on the pole post stepped part 10 side is pulled. Pressure contact is made with the battery inner end surface 11 of the through hole in the lid.

In the same way, the packing 12 on the lid 1 side is also pressed into contact.

Further, the connecting body 8 and the pole column end face 4 are pressed together, and the fitting portion is filled with lead and lead alloy of the pole column 3, and the fitting portion 3' is made airtight, and at the same time, an output is generated. The connecting body 8, which becomes a terminal, is fastened.

As shown in FIG. 6, a packing groove 14 that can accommodate the packing 12 is installed in the through hole 2 of the lid, and the packing groove 1
4, the packing 12 is placed in advance. The connecting body 8, the pole post 3, and the screw 7 are arranged in the same manner as above, and the screw 7 forms the pole post expansion part 3' of the pole post 3, so that the lead and lead alloy of the pole post 3 are connected to the fitting part 3. ’ is filled with through hole 2 of the lid and packing 1
2 are pressed together to make the fitting portion 5' airtight, and at the same time, the connecting body 8 which becomes the output terminal is fastened.

Also, in the same manner as above, Figures 2 and 3v! J, connection body 8, lid 1, through hole 2 in the lid, and screw 7 in Figures 4, 5, and 6
, as shown in FIG.
By combining the pole posts 3 having the numbers 6 and 6, it is possible to further improve the reliability of airtightness by forming a wedge shape and press-fitting the tapered portion 16 into the through hole 2 of the lid.

In addition, it is also possible to easily arrange in the battery case 15 the structure of the connecting body 8 which is fastened to the fitting part between the pole pole that is installed in the lid 1 to ensure airtightness and the through hole of the pole pole.

The screws used in the present invention can be obtained at low cost with a degree of processing equivalent to applying solder plating for rust prevention to iron-based alloy or Ryōkaikin wood screws or self-tapping screws, which are commercially available for boat fishing, and are of high quality. It is recommended to use this method as it is highly reliable.

The pole material is pure lead, lead-soot alloy, or just-cast lead-soot alloy.
A material with excellent malleability and low hardness, such as a calcium alloy, is suitable. This method does not require preparation of holes required for tapping, and is suitable for forming an expanded portion of a pole column.

According to the manufacturing method of the present invention, the airtightness of the fitting portion between the pole pole for electrical connection from the inside of the storage battery to the outside and its through hole is ensured, and at the same time, the connecting body and the pole pole that become the output terminal are connected. It is highly reliable because it can be fastened, and since the processing is completed in the same process, it takes less time than conventional methods, and there is no defective rate. Therefore, productivity is high and it is inexpensive.

Effects of the Invention As described above, the present invention can provide a lead-acid battery with high productivity, excellent reliability, and low cost, so its industrial value is extremely large.

[Brief explanation of the drawing]

Fig. 1 is a sectional perspective view of the main part showing one embodiment of the present invention, Fig. 2 is a sectional view of the main part before screwing, and Fig. 3 is the main part after making the fitting part airtight and fastening the connecting body. FIG. 4, FIG. 5, and FIG. 6 are cross-sectional views of main parts showing other embodiments. FIG. !
! ! I is a perspective view of the main parts of the connecting body arranged on the battery case side according to the present invention.
Pole post 3'... Fitting portion between the through hole of the lid and the pole post 3'... Pole post expansion part 4... Pole post end face 5...
・Sharp end of screw 6... Thread 7... Screw 8... Connection body 10... Stepped part of pole column 12... Packing 14... Recessed groove for puffing 16... Pole Part of the taper of the column

Claims (1)

[Claims] (1) A pole pole made of lead or a lead alloy is fitted over a through hole installed in the lid, and a screw with an acute tip is passed through the hole of the connecting body from the outside, which is the end face of the pole pole. , the end face of the pole pillar is drilled into the pole pillar in the axial direction, and the pole pillar of the fitting part expands, and the inner surface of the through hole of the lid, which is the fitting part, is filled with the lead and lead alloy of the pole pillar and pressed together, A method for manufacturing a lead-acid battery, comprising making the fitting portion airtight and connecting the pole pole and the connecting body. (2) The method for manufacturing a lead-acid battery according to claim 1, wherein the connecting body and the pole column stepped portion, which are interposed in opposition to the through-hole of the lid, are placed in pressure contact with the lid by screwing. (3) A claim in which a packing is disposed on both sides or on either side of the portion where the connecting body facing the through hole of the lid and the stepped portion of the pole come into pressure contact with the lid by the screw. A method for manufacturing a lead-acid battery according to item 1. (4) A lead according to claim 1, wherein a ring-shaped groove is installed in either the through hole of the lid or the pole column that fits into the through hole, and a packing material is placed in advance in the groove. Method of manufacturing storage batteries. (5) The method for manufacturing a lead-acid battery according to claim 1, wherein pole columns are arranged with tapered end faces of the pole columns. (6) A patent for making the fitting part between the pole pole and the through hole of the lid airtight and arranging the fastening part for fastening the pole pole and the connecting body in the lid or battery case in order to make an electrical connection from the inside of the storage battery to the outside. A method for manufacturing a lead-acid battery according to claim 1.