JP3636603B2 - Connection plate and connection method of connection plate - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a connection plate for electrically connecting batteries to each other and a method for connecting the connection plates.
[0002]
[Prior art]
As conventional connection plates between batteries, those shown in FIGS. 6 and 7 are known. The connection plate 1 is a rectangular thin plate made of a nickel (Ni) material, a nickel plating material of an iron plate, or a (Ni—Cu—Ni) clad material in which a nickel plate is bonded to both sides of a copper plate, and has a central portion. Reference numeral 3 denotes a stepped shape that rises in parallel with the main surface as shown in FIG. In addition, a slit 4 that is parallel to the long side is formed from the center of the short side of the connecting plate 1 to a position that reaches the central portion 3. A dome-shaped welding bead 5 protruding downward is formed on both sides of these slits 4.
[0003]
[Problems to be solved by the invention]
By the way, the material of the connection plate 1 is originally preferably a material having a low electrical resistance value, for example, a copper (Cu) material. However, the connection plate made of copper material is difficult to resistance weld, and thus is stably manufactured on a mass production basis. It is difficult.
[0004]
That is, in the case of resistance welding, a copper material is used for the electrode of the welding machine, and normally, materials having lower conductivity than the copper material are connected. That is, a large current is passed between the welded bodies, the Joule heat generated by the contact resistance therebetween generates heat between the welded bodies, the welded bodies reach their melting points, and are fixed to each other. By the way, when the conductivity of the welded body is good, the resistance value of the welded body is small, so that the welding current flows through the welded body and hardly flows into the welded portion, and heat generation due to contact resistance becomes insufficient. . Therefore, usually, the welding current is simply increased. However, by doing so, since the welding current is large, the temperature of the electrode of the welding machine is increased, the life of the electrode is shortened, and it is necessary to frequently replace the electrode. On the other hand, if a copper material is simply used as the connection plate, when the welding machine electrode is made of copper material, both have the same conductivity, so if the welding current is simply increased, both are heated and the electrode and the object to be welded are heated. Will stick.
[0005]
For the reasons described above, there has been a problem that a nickel (Ni) material or a very expensive nickel / copper / nickel (Ni—Cu—Ni) clad material must be used as the material of the connection body.
[0006]
The present invention has been made to solve such a problem, and an object of the present invention is to provide a connection plate mainly made of a copper material capable of resistance welding and a connection method of the connection plate.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problems of the prior art, the connection plate of the present invention is a connection plate for electrically connecting a plurality of batteries, and is made of a copper material, and is slit so as to approach each other from both longitudinal ends. The slits are opposed to each other with a narrow gap between them, and a gap is formed on both sides of the slit. A welding bead is formed on both sides of the slit and is closer to one of the longitudinal ends. A welding bead on both sides straddling the slit is brought into contact with the battery to be connected, and each of the pair of electrodes of the welding machine is applied to a portion on the opposite side of the welding bead to pass a current between the pair of electrodes. In some cases, the spacing portion is formed so as to be capable of fusing.
Further, a plurality of the spacing portions are formed. Further, the surface of the copper material is nickel-plated. The height of the welding bead is 0.5 to 2 times the plate thickness of the connection plate, and the diameter is 1 to 10 times the plate thickness.
The connection plate connection method of the present invention is a connection plate connection method for connecting a connection plate for electrically connecting a plurality of batteries using a welding machine, and the connection plate is made of a copper material. The slits are formed so as to approach each other from both ends in the longitudinal direction, the end portions of the slits are opposed to each other with a narrow interval, and the interval portions are formed, and the welding beads are formed on both sides across the slit. A step of bringing the welding beads on both sides of the slit into contact with the battery to be connected, and the welding beads on both sides of the pair of electrodes of the welding machine straddling the slit closer to one of the longitudinal ends. Applying a current between the pair of electrodes against the opposite side of the electrode, connecting the welding beads on both sides across the slit near the one end to the battery to be connected, and fusing the gap And said Each of the pair of electrodes is applied to a portion on the opposite side of the welding bead on both sides across the slit near the other end in the longitudinal direction, and a current is passed between the pair of electrodes, and the other end And a step of connecting the welding beads on both sides straddling the slit near the portion to the battery to be connected.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the connection plate of the present invention will be described with reference to FIGS.
[0009]
The connection plate 10 is a rectangular thin plate made of a copper (Cu) material and has curved corner portions 11. The connection plate 10 is plated with nickel (Ni) having a thickness of 3 to 20 μm by electroplating or chemical plating. Moreover, the longitudinal direction center part 12 of the connection board 10 is made into the shape which protruded in parallel with respect to the main surface part, as shown in FIG. A pair of slits 13 parallel to the long side from the central part of both ends in the longitudinal direction of the connecting plate 10 hold a narrow spacing part 14 having a thickness of, for example, 0.5 times the plate thickness at the center of the central part 12, for example. It is formed to do. In addition, the position of the slit 13 may not be the center part of the width | variety of the connection board 10, and the narrow space | interval part 14 may also remove | deviate from the center part 12. FIG. Further, near the both ends of the connecting plate 10, a dome-shaped welding bead 15 protruding downward along both sides of the slits 13 is formed at least at one place (two places in the figure) on one side of each end. ing. As shown in FIG. 3, the height a of the bead 15 is 0.5 to 2 times, for example, 2 times the plate thickness, and the diameter b is 1 to 10 times, for example, 5 times the plate thickness. Yes.
[0010]
Next, welding of the connection plate 10 to the battery 16 will be described with reference to FIGS.
[0011]
First, a welding machine that can flow a large current in a short time is used as the welding machine. This is because when a copper (Cu) material is welded using a normal welding machine, heat is generated and welding cannot be performed. The welding current is a large current of about 1 KA (min).
[0012]
In welding, in the conventional connection plate shown in FIG. 6, since the electrical resistance of copper itself is low, current does not flow to the welding bead, and even if there is a slit 4, it flows around the connection plate itself. Since the reactive current at the time of welding increases, the connection plate 10 having the slit 13 that penetrates deeply as shown in FIG. 1 is used. When one end of the connection plate 10 shown in FIG. 1 is brought into contact with the electrode of the battery 16 and the electrode of the welding machine is applied to one end of the connection plate 10 and a large current (1 KA or more) flows for a short time (100 msec or less), A current flows as indicated by A from one side of the slit 13 to the other side through a narrow interval portion 14, and the narrow interval portion 14 generates heat and melts. This is the first stage.
[0013]
In the next second stage, since the pair of slits 13 and 13 are continuously separated and the connecting plate 10 is completely divided into two pieces, only B is passed through the welding bead 15 without any current wraparound. As shown, current flows and resistance welding is performed. Two or more narrow spaces 14 may be provided. Further, the location is not limited to the central portion as described above. Since the connecting plate portions on both sides of the slit 13 are integrally connected by the gap portion 14 at the beginning, the connecting plate 10 can be handled as an integrated connecting plate until just before connecting the connecting plate 10 to the battery. However, once a welding current is passed, the connecting plate is divided across the slit 13 to prevent current from wrapping around.
[0014]
As shown in FIG. 4, after one end of the connection plate 10 is connected to the battery 16, the other end of the connection plate 10 is connected to another battery 16a as shown in FIG. The welding current C at this time also flows without wraparound, and resistance welding is performed without any trouble.
[0015]
In the resistance welding as described above, the nickel plating layer enables resistance welding, and the main copper gives a low electric resistance value. The nickel layer improves rust prevention and corrosion resistance. Further, the nickel-plated copper plate connection plate is less expensive than the above-described clad material.
[0016]
【The invention's effect】
As described above, since the connection plate of the present invention is mainly made of a copper material, it is inexpensive, and this copper material is plated with nickel, and nickel has no problem like copper during resistance welding. The connection between the electrode and the connection plate, which is the object to be welded, can be prevented, and since nickel has corrosion resistance, there is no risk of corrosion due to the electrolytic solution of copper.
[0017]
If a pair of slits are formed so that the connection plate is directed from the both longitudinal ends to the center and a narrow gap is formed between the tips, the connection body eliminates current flow to the connection plate during final welding. It is possible to reduce the generation of heat of itself, effectively generate heat in the welding bead, and complete welding.
[0018]
The height of the welding bead is 0.5 to 2 times the plate thickness of the connection plate, and the diameter is 1 to 10 times the plate thickness, thereby reducing the reactive current during welding.
[Brief description of the drawings]
FIG. 1 is a bottom view showing an embodiment of a connection body according to the present invention.
FIG. 2 is a side view of FIG.
FIG. 3 is an enlarged sectional view of a welding bead.
FIG. 4 is an explanatory view of an action of welding the connection plate to the first battery.
FIG. 5 is an explanatory diagram of an action of welding a connection plate to another battery.
FIG. 6 is a bottom view of a conventional connection plate.
7 is a side view of FIG. 6. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Connection board 11 Curved corner part 12 Center part 13 Slit 14 Narrow space | interval part 15 Bead 16 Battery 16a Battery

Claims (6)

A connection plate for electrically connecting a plurality of batteries, made of copper,
Slits are formed so as to approach each other from both ends in the longitudinal direction, and the end portions of these slits are opposed to each other with a narrow interval, and an interval portion is formed,
Welding beads are formed on both sides of the slit,
A welding bead on both sides straddling a slit near one end of both ends in the longitudinal direction is brought into contact with a battery to be connected, and each of the pair of electrodes of the welding machine is applied to a portion opposite to the welding bead. The connection plate according to claim 1, wherein when the current is passed between the pair of electrodes, the gap portion is formed so as to be meltable. The connection plate according to claim 1, wherein the surface of the copper material is nickel-plated. 2. The connection plate according to claim 1, wherein the height of the welding bead is 0.5 to 2 times the plate thickness of the connection plate, and the diameter is 1 to 10 times the plate thickness. A connection plate connecting method for connecting a connection plate for electrically connecting a plurality of batteries using a welding machine,
The connection plate is made of a copper material,
Slits are formed so as to approach each other from both ends in the longitudinal direction, and the end portions of these slits are opposed to each other with a narrow interval, and an interval portion is formed,
Welding beads are formed on both sides across the slit,
Contacting the welding beads on both sides of the slit with the battery to be connected;
Applying a current between the pair of electrodes by applying each of the pair of electrodes of the welder to the opposite side of the welding bead on both sides across the slit near one end of both ends in the longitudinal direction, Connecting the welding beads on both sides straddling the slit near one end to the battery to be connected and fusing the gap portion;
Each of the pair of electrodes is applied to a portion on the opposite side of the welding bead on both sides across the slit near the other end of both ends in the longitudinal direction, and a current is passed between the pair of electrodes. Connecting the welding beads on both sides across the slit closer to the end to the battery to be connected;
The connection method of the connection board characterized by comprising. The method for connecting connection plates according to claim 4, wherein the surface of the copper material is nickel-plated. The height of the welding bead is 0.5 to 2 times the plate thickness of the connection plate, and the diameter is 1 to 10 times the plate thickness. Connection method.

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