JPH10116602A - Lead-acid battery terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To secure fastening strength in a lead-acid battery terminal. SOLUTION: In a lead-acid battery terminal 1 for combining a lead-acid battery and an external load, the lead-acid battery terminal 1 is provided with a metal-made terminal member 2 equipped with a bolt head portion 2b, a brass- made conductive member 3 into which the bolt head portion 2b is fitted, and a lead bush 4 equipped with a fitting portion 41 into which the conductive member 3 is fitted and a bush portion 42 electrically contacting an electrode pole 5 in the lead-acid battery. The bolt head portion 2b and the conductive member 3 are fitted into each other in an intricate state.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lead storage battery, and more particularly to a structure of a lead storage battery terminal for connecting a lead storage battery to an external load.

[0002]

2. Description of the Related Art A lead-acid battery terminal has a terminal portion for taking out output and a lead bush connected to the terminal portion. The lead bush is in electrical contact with the pole in the lead-acid battery, so that electric energy inside the lead-acid battery can be taken out. In such a terminal for a lead-acid battery, particularly for a terminal for a lead-acid battery for a hybrid electric vehicle (HEV), the terminal portion thereof is JEV in view of securing fastening strength.
SD001 (Japan Electric Vehicle Standard) specifies that “M8 stud bolt” is used.

[0003]

In the "M8 stud bolt", the outer peripheral shape of the bolt head portion is hexagonal, and the hexagonal bolt head and the lead bush are fitted. With such a structure, when a predetermined tightening torque is applied to the terminal portion, the hexagonal bolt head will slip and slip,
Does not satisfy the tightening strength.

[0004] The present invention has been made in view of the above-mentioned circumstances, and an object thereof is to secure tightening strength in a lead-acid battery terminal.

[0005]

Means for Solving the Problems In order to solve the above-mentioned technical problems, the technical means taken in claim 1 of the present invention is a lead-acid battery terminal for connecting a lead-acid battery and an external load. The lead-acid battery terminal includes a metal terminal member having a bolt head portion, a conductive member fitted to the bolt head portion, a fitting portion fitting the conductive member, and a pole in the lead-acid battery. A lead bush having a bush portion that is in electrical contact with the pillar, wherein the bolt head portion and the conductive member are fitted in an intricate state to form a lead-acid battery terminal. .

[0006] According to the above technical means, the bolt head portion formed on the terminal member and the conductive member are fitted in an intricate state. Therefore, even if a tightening torque is applied to the terminal member, a problem such as the bolt head coming off and the terminal portion slipping does not occur.

[0007] In this case, "fitting in a complicated state" means "vector in which force is applied in a surface where a member to apply force (bolt head portion) and a member to which force is applied (conductive member) are in contact. And the contact angle with the contact surface is 45 °
It fits in the state described above. " That is, referring to FIG. 10 exemplarily illustrating the concept of the present invention, when a tightening torque is applied to a terminal unit (not shown), the bolt head unit
For example, in FIG. 10, a force is applied to rotate clockwise. At this time, the angle between the direction vector B to which the force is applied and the contact surface A on the contact surface A between the conductive member and the bolt head portion is represented by θ. The direction vector B of the force is decomposed into a direction vector C in which the force acts in the direction in which the bolt head is turned and a direction vector D in which the force acts in the direction in which the bolt head slides, as shown in FIG. Here, if θ is 45 ° or less, the direction vector D in which a force acts in the direction in which the bolt head slides increases, and the bolt head tends to slide. On the other hand, when θ is 45 ° or more, the direction vector C in which a force acts in the direction in which the bolt head is turned increases, and the sliding force is small. Therefore, θ is 45 °
If the fitting is performed in the complicated state as described above, the sliding and the sliding are reduced, and the tightening strength can be secured.

In solving the above technical problem, it is preferable that the conductive member is made of brass, as in the technical means taken in claim 2 of the present invention.

According to this, since a brass conductive member to be fitted to the terminal portion is employed, slipping does not occur when a tightening torque is applied to the terminal portion, and the tightening strength is securely ensured. You can do it.

In solving the above technical problem, a plurality of arms are formed on the bolt head portion, and the conductive member is adjacent to the conductive member, as in the technical means taken in claim 3 of the present invention. A plurality of convex portions corresponding to the gap between the arm portions are formed, and the bolt head portion and the conductive member are fitted in a complicated state by the convex portion entering the gap between the adjacent arm portions. Is preferred.

According to this, a plurality of arms are formed in the bolt head, and the conductive member is formed with a projection corresponding to a gap between adjacent arms of the bolt head. And
The protrusion enters the gap between the arms, and the bolt head and the conductive member are fitted. For this reason, even if a tightening torque is applied to the terminal portion, there is no problem such as the bolt head coming off and the terminal portion slipping.

In solving the above technical problem, as in the technical means taken in claim 4 of the present invention, four arms are formed in the bolt head portion, and the bolt head portion is formed from the axial direction of the terminal portion. The conductive member has four protrusions corresponding to the shape of the gap between the adjacent arms, and the protrusion is formed in the gap between the adjacent arms. It is preferable that the bolt head portion and the conductive member be fitted in a complicated state by entering.

According to this, the bolt head is formed in a substantially cross shape by the four arms, and the conductive member is formed with a convex portion corresponding to a gap between the adjacent arms of the bolt head. Then, a convex portion enters the gap between the arm portions, and the bolt head portion and the conductive member are fitted. For this reason,
Even if a tightening torque is applied to the terminal portion, a problem such as the bolt head coming off and the terminal portion running idly does not occur.

According to another aspect of the present invention, there is provided a bolt head having two arm portions formed therein, and a shaft of the terminal portion. The projection is formed in a substantially one-letter shape as viewed from the direction, and the conductive member is formed with two projections corresponding to the shape of the gap between the two arms, and the gap between the two arms is formed. It is preferable that the bolt head portion and the conductive member are fitted in a complicated state by entering the convex portion into the groove.

According to this, the bolt head is formed in a substantially one-letter shape by the two arms, and the conductive member is formed with a projection corresponding to the gap between the two arms of the bolt head. . Then, a convex portion enters the gap between the arm portions, and the bolt head portion and the conductive member are fitted. For this reason,
Even if a tightening torque is applied to the terminal portion, a problem such as the bolt head coming off and the terminal portion running idly does not occur.

[0016] More preferably, claim 6 of the present invention.
The conductive member and the lead bush are fitted in an intricate state as in the technical means taken in the above.

According to this, the conductive member and the lead bush are also
They are fitted in a complicated state. For this reason, even when a predetermined tightening torque is applied between the conductive member and the lead bush, a problem such as slippage does not occur.

Still more preferably, claim 7 of the present invention
In the lead bush, a plurality of protrusions are formed below, as in the technical means taken in the above.

According to this, a plurality of projections are formed below the lead bush. Under the lead bush is a resin cover that forms the housing of the lead storage battery. Therefore,
When the lead-acid battery terminal is attached to the lead-acid battery, the resin cover comes into contact with the lead bush. At this time, the projections formed below the lead bush bite into the resin cover to stop the lead storage battery terminal from rotating.

[0020] More preferably, the fitting portion and the bush portion are connected by a smooth curve as in the technical means taken in claim 8 of the present invention.

According to this, the lead bush is provided with a fitting portion to be fitted to the conductive member and a bush portion to be in contact with the pole,
The fitting portion and the bush portion are connected by a smooth curve. For this reason, when tightening torque is applied to the terminal,
This is to prevent local stress concentration in the lead bush.

[0022]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a front view of a lead-acid battery terminal 1 according to an embodiment of the present invention, FIG. 2 is a bottom view of the lead-acid battery terminal 1, and FIG. 3 is a sectional view taken along line AA in FIG. In FIG. 1, reference numeral 2 denotes a terminal member for transmitting the output of the lead storage battery to the outside. As is apparent from the cross-sectional view of FIG. 3 and FIG.
a and a bolt head 2b. The diameter of the bolt portion 2a is 8 mm. The material of the terminal member 2 is stainless steel.

FIG. 5 is a view taken in the direction of arrow B in FIG. In FIG. 5, the bolt head 2b is formed with four arms (a first arm 21, a second arm 22, a third arm 23, and a fourth arm 24), and the shaft of the terminal 2a. It is formed in a substantially cross shape when viewed from the direction. This is a commercially available M8
A bolt head of a hexagonal bolt is provided with four counterbores to form a cross shape as shown in FIG.

FIGS. 1 to 3 show the outer periphery of the terminal member 2.
As shown in FIG. 3, the conductive member 3 is arranged so as to fit with the terminal member 2. The conductive member 3 is used to improve conductivity.
In addition, in order to secure a tightening strength when a tightening torque is applied to the terminal portion 2a, brass, which is more advantageous in strength than lead, is selected as a material. FIGS. 6 to 9 show a fitting state of the terminal member 2 and the conductive member 3. Here, FIG. 6 is a front view of a state where the terminal member 2 and the conductive member 3 are fitted, FIG. 7 is a bottom view, FIG. 8 is a cross-sectional view taken along the line CC in FIG. 7, and FIG. It is D sectional drawing.

6 and 7, the conductive member 3 is fitted to the head portion 2b of the terminal member 2 as shown in the drawings. As shown in detail in FIG. 7 in particular, the fitting state is such that each arm portion (first arm portion 21, second arm portion 22, third arm portion 23, third arm portion 23) of the bolt head portion 2b formed in a cross shape. 4 arms 24)
Of the conductive members (the first convex portion 31, the second convex portion 32, and the third convex portion 3) so as to fill the gap between the adjacent arm portions.
3, the fourth convex portion 34) is fitted, and the terminal member 2 and the conductive member 3 are fitted in a complicated state. For such a configuration, a cross-sectional view (C-
In the C sectional view, see FIG. 8, each arm of the head portion 2 a is exposed to the outside, and is a sectional view (DD sectional view, see FIG. 9) divided by a straight line passing between the arms in FIG. 7. )
The structure is such that the protrusions of the conductive member are arranged outside the head portion 2a. As described above, since the terminal member 2 and the conductive member 3 are fitted in an intricate state, even if a tightening torque is applied to the terminal member 2, the terminal member 2 slips on the conductive member 3, Or not. Therefore, when a predetermined tightening torque is applied to the terminal member 2, the terminal member 2 can be securely tightened, and a predetermined tightening strength can be secured.

Returning to FIG. 3, the outer periphery of the conductive member 3 is covered with a lead bush 4 in FIG.
The lead bush 4 has a fitting portion 41 fitted with the conductive member 3.
And a bush portion 42 that is in electrical contact with the pole 5 in the lead-acid battery.

As is apparent from FIG.
A concave portion having a shape corresponding to the external shape of the conductive member 3;
The recess and the conductive member 3 are fitted in a complicated state. Therefore, a predetermined tightening torque can be more reliably secured.

A plurality of projections 43 are formed below the fitting portion 41 in the figure. And this projection 43,
It penetrates into the upper part of the resin cover 6 constituting the housing of the lead storage battery. Therefore, even if a tightening torque is applied to the terminal member 2, it is possible to prevent the entire lead-acid battery terminal 1 from turning due to the bite of the protrusion 43.

The bush portion 42 is formed with a hole 43 into which the pole 5 in the lead-acid battery is inserted, and the pole 43 is inserted into this hole 43.
When the inner wall of the hole 43 comes into contact with the outer periphery of the pole 5,
It will be in the state of electrical contact. With this electrical contact,
Electric energy generated in the lead storage battery is transmitted to the terminal 1 so that electric power can be supplied to the outside.

The fitting portion 41 and the bush portion 42
As can be seen from FIG. 2, the curved portions 43 are connected by a smooth curve. Thus, even if a torque is applied to the fitting portion 41 by the load of the tightening torque on the terminal portion 2, the stress is dispersed. On the other hand, as shown by the dotted line in FIG. 2, when there is a corner at the connecting portion between the fitting portion 41 and the bush portion 42, the stress is locally concentrated at the corner. In this example, since such stress concentration does not occur, the life of the lead-acid battery terminal 1 can be extended.

Although the embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment. For example, in the present embodiment, the bolt head portion 2b has a cross shape. However, even if the bolt head portion 2b has a one-letter shape, the bolt head portion 2b and the conductive member 3 are fitted in a complicated state. It is also possible to secure a predetermined tightening strength. The fundamental purpose of the present invention is to secure a predetermined tightening strength by fitting the bolt head portion and the conductive member in an intricate state, as long as it does not deviate from such a purpose of the present invention. Is applicable.

[0033]

The invention of claim 1 has the following effects.

Since the bolt head and the conductive member are fitted in a complicated state, even if a predetermined tightening torque is applied to the terminal portion, the bolt head does not slip or slip, and the predetermined tightening strength is ensured. Can be secured.

The invention of claim 2 has the following effects.

Since brass, which is stronger in strength than lead, is used as the material of the conductive member, the conductive member is not plastically deformed even if a predetermined tightening torque is applied to the terminal portion.
For this reason, a predetermined tightening strength can be secured.

The invention of claim 3 has the following effects.

Since the plurality of arms formed on the bolt head and the plurality of projections formed on the conductive member are fitted in an intricate state, even if a tightening torque is applied, the bolt may be tightened. There is no problem that the head is dropped and the terminal portion runs idle. For this reason, a predetermined fastening strength can be reliably ensured.

The invention of claim 4 has the following effects.

Since four arms are formed on the bolt head to form a cross, and the four arms are fitted together with the protrusions formed on the conductive member in a complicated manner, the tightening torque is increased. Does not cause a problem such as the bolt head dropping and the terminal portion slipping. For this reason, the predetermined fastening strength can be more reliably ensured.

The invention of claim 5 has the following effects.

Since two arms are formed on the bolt head to form a single character, and the two arms and the protrusion formed on the conductive member are fitted in a complicated manner, the tightening torque is increased. Does not cause a problem such as the bolt head dropping and the terminal portion slipping. For this reason, the predetermined fastening strength can be more reliably ensured.

According to a sixth aspect of the present invention, since the conductive member having the following effects and the lead bush are fitted in a complicated state, when a predetermined tightening torque is applied,
Slipping or slipping between the conductive member and the lead bush can be prevented, and a predetermined tightening torque can be more reliably secured.

The invention of claim 7 has the following effects.

The lead bush has a plurality of projections below it, and the projections bite into a resin cover constituting a housing of the lead storage battery. Thereby, the rotation of the lead storage battery terminal can be reliably stopped.

The invention of claim 8 has the following effects.

The fitting portion of the lead bush and the bush portion are connected by a smooth curve. For this reason, when a predetermined tightening torque is applied, there is no place where stress is locally concentrated, and the life of the lead-acid battery terminal can be extended.

[Brief description of the drawings]

FIG. 1 is a front view of a lead-acid battery terminal according to an embodiment of the present invention.

FIG. 2 is a bottom view of the lead storage battery terminal according to the embodiment.

FIG. 3 is a sectional view taken along line AA in FIG. 2;

FIG. 4 is a front view of a terminal member according to the embodiment.

FIG. 5 is a top view of the terminal member according to the embodiment.

FIG. 6 is a front view showing a state in which the terminal member and the conductive member in the embodiment are fitted together.

FIG. 7 is a bottom view showing a state in which the terminal member and the conductive member in the embodiment are fitted together.

8 is a sectional view taken along the line CC in FIG. 7;

FIG. 9 is a sectional view taken along the line DD in FIG. 7;

FIG. 10 is a diagram showing the concept of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Lead-acid battery terminal 2 ... Terminal member 2a ... Terminal part, 2b ... Bolt head part 21 ... 1st arm part, 22 ... 2nd arm part, 23
..Third arm, 24... Fourth arm 3... Conductive member 31... First projection, 32.
3 ... 3rd projection part, 34 ... 4th projection part 4 ... lead bush 41 ... fitting part, 42 ... bush part, 43
..Curved portion 5 ... Pole column 6 ... Resin cover

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Muneya Munetani 2-1-1 Asahi-cho, Kariya City, Aichi Prefecture Inside Aisin Seiki Co., Ltd.

Claims (8)

[Claims] 1. A lead-acid battery terminal for connecting a lead-acid battery and an external load, wherein the lead-acid battery terminal is fitted to a metal terminal member having a bolt head part and the bolt head part. And a lead bush having a fitting portion for fitting the conductive member and a bush portion for making electrical contact with the pole in the lead storage battery, wherein the bolt head portion and the conductive member are A lead-acid battery terminal, which is fitted in a complicated state. 2. The lead-acid battery terminal according to claim 1, wherein the conductive member is made of brass. 3. The bolt head according to claim 2, wherein a plurality of arms are formed on the bolt head, and a plurality of protrusions corresponding to gaps between the adjacent arms are formed on the conductive member and are adjacent to each other. A terminal for a lead storage battery, wherein the bolt head portion and the conductive member are fitted in an intricate state by the convex portion entering the gap between the arm portions. 4. The bolt head according to claim 3, wherein the bolt head is formed with four arms, and is formed in a substantially cross shape as viewed from the axial direction of the terminal, and is adjacent to the conductive member. Four convex portions corresponding to the shape of the gap between the arm portions are formed, and the bolt head portion and the conductive member are in a complicated state by the convex portion entering the gap between the adjacent arm portions. A lead-acid battery terminal characterized by being fitted. 5. The bolt head according to claim 3, wherein the bolt head is formed with two arms, and is formed substantially in a character when viewed from the axial direction of the terminal, and the conductive member is formed with two arms. Two convex portions corresponding to the shape of the gap between the arm portions are formed, and the bolt head portion and the conductive member are intertwined when the convex portion enters the gap between the two arm portions. A lead-acid battery terminal, which is fitted in a state. 6. The terminal for a lead storage battery according to claim 1, wherein the conductive member and the lead bush are fitted in an intricate state. 7. The lead-acid battery terminal according to claim 1, wherein the lead bush has a plurality of protrusions formed below the lead bush. 8. The lead-acid battery terminal according to claim 1, wherein the fitting portion of the lead bush and the bush portion are connected by a smooth curve.