JP2007165177A - Battery terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a battery terminal capable of fractionating a battery terminal body and a stud bolt. <P>SOLUTION: The battery terminal 31 comprises the stud bolt 6 having a shaft part 16 and a head part 13; and the battery body 32 having a shaft part insertion hole 17 for inserting the shaft part 16. The battery terminal 31 furthermore has a side opening 36 to the head part 13; a head part housing space 35 continuing to the side opening 36; a slit 39 being cut out from the side opening 36 to the shaft part insertion hole 17; and a locking projection 40 narrowing spaces between the slits 39 than the diameter of the shaft part 16, in the battery terminal body 2. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a battery terminal attached to a battery post of a battery.

  In FIG. 3, reference numeral 1 indicates a battery terminal attached to a battery post provided on the battery. The battery terminal 1 includes a battery terminal body 3 having a battery post insertion hole 2 for inserting a battery post, a bolt 4 and a nut 5 for reducing the diameter of the battery post insertion hole 2, and an external terminal connection. The stud bolt 6 and a nut (not shown) are provided (see, for example, Patent Document 1).

  For example, a cable for supplying electric power to a fusible link or a starter is connected to the stud bolt 6 via a terminal.

  Hereinafter, a specific structure of the battery terminal body 3 will be described. 3 to 6, the battery terminal body 3 has a pair of connecting portions 7 and 7. A first annular portion 8 and a second annular portion 9 are coupled to both sides of the connecting portions 7 and 7. Battery post insertion holes 2 and 2 are formed through the first annular portion 8 and the second annular portion 9, respectively.

  A first bonding plate 10 is coupled to the first annular portion 8. The first joining plate 10 is formed with a pair of side walls 11 and 11 and a plurality of rotation restricting portions 12. The plurality of rotation restricting portions 12 are arranged and formed so as to face the side surface 14 of the head 13 of the stud bolt 6.

  A second bonding plate 15 is coupled to the second annular portion 9. The second joint plate 15 is formed with a shaft portion insertion hole 17 and a pair of side walls 18 and 18 into which only the shaft portion 16 of the stud bolt 6 can be inserted. The interval between the side walls 18 and 18 is formed wider than the interval between the side walls 11 and 11 of the first bonding plate 10. Piece-like bent portions 19 and 19 are coupled to the protruding tips of the side walls 18 and 18.

  In the above configuration, the battery terminal body 3 is manufactured through the following first to third steps.

  In the first step, an operation of inserting the shaft portion 16 of the stud bolt 6 into the shaft portion insertion hole 17 is performed. At this time, the stud bolt 6 is in a state of being dropped in the direction of the arrow, and the shaft portion 16 is inserted from the inside to the outside of the second joining plate 15. When the first step is completed, the process proceeds to the second step.

  In the second step, an operation is performed in which the connecting portions 7 and 7 are bent and the first bonding plate 10 is stacked on the second bonding plate 15 side. At this time, the first joining plate 10 is disposed on the top surface 20 of the head 13 of the stud bolt 6, and the plurality of rotation restricting portions 12 are disposed to face the side surface 14 of the head 13. When the second step is completed, the process proceeds to the third step.

In the third step, an operation of bending the bent portions 19 and 19 of the second bonding plate 15 toward the first bonding plate 10 is performed. This completes a series of work steps. When the bent portions 19 and 19 are bent toward the first bonding plate 10 side, the first bonding plate 10 and the second bonding plate 15 are prevented from being opened carelessly.
JP 2003-317700 A

  In the above prior art, it is easy to remove the bolt 4 and the nut 5 from the battery terminal body 3, but the stud bolt 6 has a structure that is very difficult to remove. Therefore, it is difficult to separate the battery terminal body 3 made of copper and the stud bolt 6 made of iron from a structural viewpoint even if it is to be recycled. is doing. The conventional battery terminal 1 has a problem that it does not have a structure considering recycling.

  This invention is made | formed in view of the situation mentioned above, and makes it a subject to provide the battery terminal which can separate a battery terminal main body and a stud bolt.

  The battery terminal of the present invention according to claim 1, which has been made to solve the above problems, includes a stud bolt having a shaft portion and a head portion, and a battery terminal main body having a shaft portion insertion hole for inserting the shaft portion. In the battery terminal comprising: the battery terminal main body, a side opening with respect to the head, a head storage space continuous to the side opening, a slit cut out from the side opening to the shaft insertion hole, It is characterized in that a locking projection that narrows the interval between the slits smaller than the diameter of the shaft portion is formed.

  According to the present invention having such a feature, when the head of the stud bolt is pushed into the head storage space through the side opening of the battery terminal body, the shaft of the stud bolt moves through the slit and the locking projection. Abut. When the shaft portion forcibly passes through the locking projection, the shaft portion is received in the shaft portion insertion hole. Thereby, the stud bolt is fixed to the battery terminal body. According to the present invention, the battery terminal body and the stud bolt can be separated by pushing the stud bolt to the side.

  A battery terminal according to a second aspect of the present invention is the battery terminal according to the first aspect, characterized in that the locking protrusion is arranged along an opening edge of the shaft portion insertion hole. According to the present invention having such a feature, the fixing position of the stud bolt is stabilized.

  According to the first aspect of the present invention, there is an effect that the battery terminal main body and the stud bolt can be separated. There is an effect that a battery terminal having a structure considering recycling can be provided. According to the second aspect of the present invention, there is an effect that the fixing position of the stud bolt can be stabilized.

  Hereinafter, description will be given with reference to the drawings. FIG. 1 is an exploded perspective view showing an embodiment of a battery terminal of the present invention. FIG. 2 is a perspective view of the battery terminal. In addition, the same code | symbol is attached | subjected to the same structural member as a prior art example, and detailed description is abbreviate | omitted.

  1 and 2, reference numeral 31 indicates a battery terminal of the present invention. The battery terminal 31 includes a battery terminal body 32 having a battery post insertion hole 2 for inserting a battery post, a bolt 4 and a nut 5 for reducing the diameter of the battery post insertion hole 2, and an external terminal connection. The stud bolt 6 and the nut (not shown) are provided.

  The battery terminal main body 32 has a pair of connecting portions 7 and 7, and a first annular portion 8 and a second annular portion 9 are coupled to both sides of the connecting portions 7 and 7. Battery post insertion holes 2 and 2 are formed through the first annular portion 8 and the second annular portion 9, respectively.

  A first bonding plate 33 is coupled to the first annular portion 8. Side walls 34 and 11 and a plurality of rotation restricting portions 12 are formed on the first bonding plate 33. A head storage space 35 for storing the head 13 of the stud bolt 6 is formed between the side walls 34 and 11 and the rotation restricting portion 12. The side wall 34 is formed with a notch that opens the head storage space 35. This notch is formed in accordance with the shape of a side opening 36 described later.

  A second bonding plate 37 is coupled to the second annular portion 9. The second joint plate 37 is formed with a shaft insertion hole 17, side walls 38 and 18, side openings 36, a slit 39, and locking protrusions 40 and 40. The shaft portion insertion hole 17 is formed so that only the shaft portion 16 of the stud bolt 6 can be inserted. The interval between the side walls 38 and 18 is formed wider than the interval between the side walls 34 and 11 of the first bonding plate 33. Bending portions 19 and 19 are coupled to the protruding tips of the side walls 38 and 18.

  The side opening 36 is formed so as to penetrate the side wall 38. The side opening 36 is formed so that the head 13 of the stud bolt 6 can be inserted. The side opening 36 is arranged and formed so that the head storage space 35 continues in the back. The slit 39 is formed so as to be cut out straight from the side opening 36 to the shaft insertion hole 17. The slits 39 are formed so that the interval is slightly larger than the diameter of the shaft portion 16 of the stud bolt 6 (for example, formed in accordance with the diameter of the shaft portion insertion hole 17).

  The locking protrusions 40 and 40 are formed as portions that slightly narrow the interval between the slits 39 than the diameter of the shaft portion 16 of the stud bolt 6. The locking projections 40 are arranged and formed along the opening edge of the shaft portion insertion hole 17. The locking projections 40, 40 are formed with a taper that facilitates passage of the shaft portion 16 of the stud bolt 6. The number of the locking protrusions 40 is not limited to two, but may be one.

  In the above configuration, the battery terminal body 32 is manufactured through the following first to second steps.

  In the first step, an operation of bending the connecting portions 7 and 7 and stacking the second bonding plate 37 on the first bonding plate 33 side is performed. Moreover, the operation | work which bend | folds the bending parts 19 and 19 of the 2nd joining board 37 to the 1st joining board 33 side is performed. The bent portions 19, 19 press the side walls 34, 11 of the first bonding plate 33, thereby preventing an inadvertent opening of the first bonding plate 33 and the second bonding plate 37. When the first step is completed, the process proceeds to the second step.

  In the second step, an operation of fixing the stud bolt 6 to the battery terminal main body 32 is performed. The head 13 of the stud bolt 6 is pushed into the head storage space 35 through the side opening 36 of the battery terminal main body 32, and the shaft portion 16 of the stud bolt 6 moves through the slit 39 to move the locking projections 40, 40. Abut. Then, when the shaft portion 16 forcibly passes through the locking protrusions 40, the shaft portion 16 is received in the shaft portion insertion hole 17, whereby the stud bolt 6 is fixed to the battery terminal main body 32. A series of work steps is completed.

  For example, when there is a need for recycling, the battery terminal body 32 and the stud bolt 6 can be separated by pushing the stud bolt 6 to the side. The battery terminal 31 has a structure considering recycling.

  In addition, it goes without saying that the present invention can be variously modified without departing from the spirit of the present invention.

It is a disassembled perspective view which shows one Embodiment of the battery terminal of this invention. It is a perspective view of a battery terminal. It is a perspective view of the battery terminal of a prior art example. It is a structure and manufacture explanatory drawing of the battery terminal of a prior art example. It is a structure and manufacture explanatory drawing of the battery terminal of a prior art example. It is a perspective view of the battery terminal of a prior art example.

Explanation of symbols

6 Stud Bolt 13 Head 16 Shaft 17 Shaft Insertion Hole 31 Battery Terminal 32 Battery Terminal Body 33 First Joining Plate 35 Head Storage Space 36 Side Opening 37 Second Joining Plate 38 Side Wall 39 Slit 40 Locking Projection

Claims (2)

In a battery terminal comprising a stud bolt having a shaft portion and a head portion, and a battery terminal body having a shaft portion insertion hole for inserting the shaft portion,
The battery terminal body has a side opening with respect to the head, a head storage space continuous to the side opening, a slit cut out from the side opening to the shaft insertion hole, and an interval between the slits. A battery terminal characterized by forming a locking projection narrower than the diameter of the shaft portion. The battery terminal according to claim 1,
The battery terminal, wherein the locking protrusion is disposed along an opening edge of the shaft portion insertion hole.

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