JPH11238501A - Storage battery - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a storage battery capable of easily mounting a connecting component for connecting batteries to each other. SOLUTION: A power generating element is housed in a battery container 3. An output terminal 4A of the power generating element is arranged facing one surface of the battery container 3. A connection component positioning means 7 for positioning a connecting component 6 for connecting batteries to the output terminal 4A is formed in the battery container 3. The connecting component positioning means 7 is constituted with a holding member 9 for holding the connecting component 6, so as to have a connecting hole 8 of the connecting component 6 made of a plate-shaped conductor match with a connecting hole 5 of the output terminal 4A and upstanding on the outer surface of the battery container 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a storage battery capable of easily performing an electrical connection operation between storage batteries.

[0002]

2. Description of the Related Art Conventionally, a plurality of storage batteries are electrically connected as follows.

(1) A general method is to use a connecting part such as a copper plate having connection holes for passing bolts at both ends or a conducting wire with a crimp terminal or the like attached to an end, and to provide an output terminal of a storage battery. Is a method in which a connection hole for passing a bolt is provided, the bolt is passed through the connection hole, and the connection component is fixed by a nut.

(2) Another method is called a bolt insert or a nut insert, in which a bolt or a nut is previously embedded in an output terminal of the storage battery in order to simplify the work on site where the storage battery is installed. Is the way.

[0005]

However, in the above-mentioned conventional method, in the above-mentioned cases (1) and (2), the output terminal and the connection parts are simultaneously held during the work on site where the storage battery is installed. However, there is a problem that a combined work of passing bolts is required, and it hinders improvement of work efficiency due to the flow work.

[0006] An object of the present invention is to provide a storage battery that can easily attach a connecting part for connecting batteries.

[0007]

According to the present invention, a power generating element is housed in a battery case, and an output terminal of the power generating element is connected to the battery case.
The present invention is to improve a storage battery provided on one side.

The storage battery according to the present invention is characterized in that the battery container is provided with connection component positioning means for positioning the connection component for connecting the storage batteries with respect to the output terminal.

As described above, when the connection part positioning means is provided on the battery container and the connection part is positioned with respect to the output terminal, the composite work of holding the output terminal and the connection part at the same time and passing the bolt through can be easily performed. As a result, the work efficiency of attaching the connecting parts can be improved as compared with the related art. For this reason, according to the present invention, in the connection work between the storage batteries, the work of arranging the connection parts and the work of tightening with the bolts can be separated, and the efficiency can be improved, that is, the work time can be shortened by performing the work flow. Become.

In the storage battery according to the present invention, when the output terminal has a plate shape having a connection hole, the connection component positioning means determines that the connection hole of the connection component made of a plate conductor is connected to the connection hole of the output terminal. It is preferable that the connecting member be constituted by a holding member that holds the connecting component in an upright state with respect to one surface of the battery container.

According to such a storage battery, when the connecting part made of the plate-like conductor is positioned by the connecting part positioning means, the connecting part made of the plate-like conductor rises its plate surface with respect to the upright plate-like output terminal. In this state, the positioning is performed with the mutual connection holes facing each other, and furthermore, since that state is maintained, even in the case of a connection component made of a plate-like conductor, the output terminal and the connection component are simultaneously held. Can be easily done in the complex work of passing bolts,
The work efficiency of connecting parts can be improved as compared with the related art.

[0012] In the storage battery according to the present invention, when the output terminal has a protruding shape in which a connection hole formed of a screw hole is opened on the top surface, the connection component positioning means is provided for the connection component of the plate-shaped conductor. A connection member is formed by a holding member that aligns the connection hole with the connection hole of the output terminal, and holds the connection component on the top surface of the output terminal with the plate surface facing one surface of the battery container. Is preferred.

According to such a storage battery, when the connection component made of the plate-like conductor is positioned by the connection component positioning means, the connection component is positioned so that the connection hole faces the connection hole of the output terminal, and the top of the output terminal is positioned. It is placed on the surface and the plate surface is opposed to one surface of the battery container, and is maintained in that state. Therefore, even in the case of a connection part made of a plate-like conductor, the output terminal and the connection part Can be easily performed, and the efficiency of the work of attaching the connecting parts can be improved as compared with the related art.

[0014]

FIG. 1 shows a first example of an embodiment of a storage battery according to the present invention.

In this storage battery, an opening of a battery case 1 for accommodating a power generation element (not shown) is closed by a lid 2 and a battery container 3
Is configured. The output terminal 4A of the power generating element has a plate shape in this example, and penetrates the lid 2 which is a part of the battery container 3, and faces the upper surface (one surface of the battery container) 2a of the lid 2. Is provided. At both ends of the output terminal 4A, connection holes 5 for passing bolts (not shown) for connection are provided. The lid 2 is provided with connection component positioning means 7 for positioning the connection component 6 made of a plate-like conductor for connecting the storage batteries with respect to the output terminal 4A.
The connection component 6 is also provided with a connection hole 8 for passing a bolt (not shown) for connection.

The connection part positioning means 7 of this embodiment is arranged such that the connection hole 8 of the connection part 6 made of a plate-like conductor matches the connection hole 5 of the output terminal 4A, and
And a holding member 9 for holding an upright state with respect to the upper surface 2a of the lid 2, which is one of the surfaces. The holding member 9 is constituted by a continuous convex wall 11 forming an insertion space 10 formed by an upward groove into which the connection component 6 made of a plate-like conductor can be inserted. In the insertion space 10,
An opening 10 a is provided on the side surface 3 a of the battery container 3 so that the connection component 6 can be protruded to the side of the battery container 3. The height of the groove bottom of the insertion space 10 is determined so that the connection hole 8 of the connection component 6 matches the connection hole 5 of the output terminal 4A when the connection component 6 is inserted. Furthermore, after inserting the connection component 6 into the insertion space 10 in the direction of the arrow, the connection hole 8 is connected to the connection hole 5.
A stopper 11 a is provided at the end of the insertion space 10 by a part of the convex wall 11 so that the insertion can be easily performed.

According to such a storage battery, when the connecting part 6 made of a plate-like conductor is positioned by the connecting part positioning means 7, that is, the connecting part 6 is inserted in the insertion space 10
And the stopper 11a is brought into contact with the distal end, the connection hole 8 is positioned so as to match the connection hole 5, and the state is held by the convex wall 11.
Even in the case of the connection part 6 made of a plate-like conductor, the composite work of holding the output terminal 4A and the connection part 6 at the same time and passing a bolt (not shown) can be easily performed, and the connection part 6 is attached. Work efficiency can be improved as compared with the conventional case. For this reason, the connection work between storage batteries
The work of arranging the connecting parts 6 and the work of tightening with bolts can be separated, and the work efficiency can be improved by performing the flow work.

FIG. 2 shows a second embodiment of the storage battery according to the present invention. The parts corresponding to those in the first example shown in FIG. 1 are denoted by the same reference numerals.

Also in this storage battery, the output terminal 4A has a plate shape, and the upper surface 2a of the lid 2, which is one surface of the battery container 3.
Are the same as in the first example. In the case of this example, the configuration of the connection component positioning means 7 for positioning the connection component 6 made of a plate-shaped conductor with respect to the output terminal 4A is slightly different from that of the first example. Also in this example, the insertion space 10 is provided so that the plate-shaped connection part 6 can be inserted.
Are provided only at both ends in the longitudinal direction of the insertion space 10 and are different from the first example. In the convex wall 11 at one end of the insertion space 10, after inserting the connection component 6 into the insertion space 10 from the direction of the arrow as in the first example, the connection hole 8 can be easily matched with the connection hole 5. Is provided with a stopper portion 11a.

With the storage battery having such a structure, the same operation and effect as those of the first example can be obtained.

FIG. 3 shows a third embodiment of the storage battery according to the present invention. The parts corresponding to those in the first example shown in FIG. 1 are denoted by the same reference numerals.

In the storage battery of this example, the output terminal 4B of the power generation element has a protruding shape in which a connection hole 12 made of a screw hole is opened in the top surface 4Ba, and the lid 2 which is one surface of the battery container 3 is formed. Is provided so as to face the upper surface 2a. The connection hole 12 formed of a screw hole is formed by embedding a nut (not shown) in the raised output terminal 4B. Although not shown, this nut is electrically connected to the pole of the power generation element.

The connection part positioning means 7 of this embodiment is arranged such that the connection hole 8 of the connection part 6 made of a plate-like conductor matches the connection hole 12 of the output terminal 4B so that the connection part 6 is positioned on the top surface of the output terminal 4B. A holding member 9 ′ is placed on 4Ba to hold a state where the plate surface is opposed to the upper surface 2 a of the lid 2 which is one surface of the battery container 3. Holding member 9 '
Are formed by hooks 13a, 13b and 13c which form an insertion space 10 'into which the connection component 6 made of a plate-like conductor can be inserted.

A connecting part 6 made of a plate-like conductor is inserted into the insertion space 10 'in such a manner that its plate surface faces the upper surface 2a of the lid 2, which is one surface of the battery container 3, and the other part is the battery container. An opening 10a 'is provided so as to be able to protrude outward from the side surface 3a side of 3. In a state where the connection component 6 is inserted into the insertion space 10 ', the connection hole 8 of the connection component 6 matches the connection hole 12 of the output terminal 4B, and the plate surface of the connection component 6 becomes the top surface 4Ba of the output terminal 4B. , The height of each hook 13a, 13b, 13c is determined. Further, a hook 13c at the end of the insertion space 10 'also serves as a stopper so that the connection hole 8 can be easily matched with the connection hole 12 after being inserted into the insertion space 10' in the direction of the arrow.

According to such a storage battery, when the connection component 6 made of a plate-shaped conductor is positioned by the connection component positioning means 7, the connection component 6 is positioned with its connection hole 8 facing the connection hole 12 of the output terminal 4B. Then, the plate-like conductor is placed on the top surface 4Ba of the output terminal 4B so that the plate surface faces the upper surface 2a of the lid 2, which is one surface of the battery container 3, and is kept in that state. Even in the case of the connecting part 6, the composite work of holding the output terminal 4B and the connecting part 6 at the same time and passing the bolts can be easily performed, and the mounting work efficiency of the connecting part 6 can be reduced. Can be improved compared to

In the above description, the portion described as the top surface or the side surface is for convenience of explanation, and does not specify the orientation of the storage battery according to the present invention or the direction in which the present invention functions. .

In order to verify the effects of the present invention, a first example, a second example, and a third example of the embodiment, a comparative example 1 having the same output terminal 4A as the first and second examples, and a third example Using Comparative Example 2 having the same output terminal 4B as in the example, working time required for connection between 22 batteries in 23 battery packs was examined.

Table 1 shows a comparison result of the connection work time between batteries. Note that the first example, the second example, and the comparative example 1 are the results of upright use in which the output terminal 4A is the upper surface of the storage battery, and the third example and the comparative example 2 are that the output terminal 4B is the side surface of the storage battery. Is the result of horizontal use.

[0029]

[Table 1] As is clear from Table 1, according to the present invention, the operation time in the inter-battery connection operation can be reduced by 40% or more.

[0030]

As described above, in the storage battery according to the present invention, since the connection part is positioned with respect to the output terminal by providing the connection part positioning means in the battery container, the output terminal and the connection part are simultaneously held. In this case, the compound work of passing bolts can be easily performed, and the efficiency of the work of attaching the connecting parts can be improved as compared with the related art. For this reason, according to the present invention, in the connection work between the storage batteries, the work of arranging the connection parts and the work of tightening with the bolts can be separated, and the efficiency can be improved, that is, the work time can be shortened by performing the work flow. Become.

[Brief description of the drawings]

FIG. 1 shows a first embodiment of a storage battery according to the present invention.
It is a principal part perspective view which shows an example.

FIG. 2 shows a second embodiment of the storage battery according to the present invention.
It is a principal part perspective view which shows an example.

FIG. 3 shows a third embodiment of the storage battery according to the present invention.
It is a principal part perspective view which shows an example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Battery case 2 Lid 2a Top surface 3 Battery container 3a Side surface 4A, 4B Output terminal 4Ba Top surface 5 Connection hole 6 Connection part 7 Connection part positioning means 8 Connection hole 9, 9 'Holding member 10, 10' Insertion space 10a, 10a ' Opening 11 Convex wall 11a Stopper 12 Connection hole 13a, 13b, 13c Hook

Claims (3)

[Claims] 1. A storage battery in which a power generation element is housed in a battery container and an output terminal of the power generation element is provided facing one surface of the battery container, wherein the battery container has a connection for connecting the storage batteries. A storage battery comprising a connection component positioning means for positioning a component relative to the output terminal. 2. The method according to claim 1, wherein the output terminal has a plate shape having a connection hole, and the connection component positioning means adjusts a connection hole of the connection component formed of a plate-like conductor to match the connection hole of the output terminal. 2. The storage battery according to claim 1, further comprising a holding member that holds the connection component upright with respect to one surface of the battery container. 3. 3. The output terminal has a protruding shape in which a connection hole formed of a screw hole is opened at a top surface, and the connection component positioning means is configured such that the connection hole of the connection component formed of a plate-like conductor is connected to the output terminal. The connection component is formed by a holding member that is placed on the top surface of the output terminal so as to match with the connection hole and holds a state in which a plate surface faces one surface of the battery container. The storage battery according to claim 1, wherein: