JP2016100098A - Battery terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery terminal capable of preventing improper deformation of the battery terminal, ensuring connection reliability with a battery post.SOLUTION: A battery terminal 10 that is connected and fixed to a battery post P arranged to a battery body BT, comprises: a metal post fitting part 12 that is fitted to a circumference of the battery post P; a pair of fastening pieces 14 that is integrally arranged to a front end part of the post fitting part 12 so as to face to a vertical direction; a bracket 30 that is assembled into the pair of fastening pieces 14 from an upper side, and allows the post fitting part 12 to adhere to the battery post P by fastening a horizontal part 16 arranged in the pair of fastening pieces 14 from both sides of a left oblique upper side and a right oblique upper side in a longitudinal direction so as to be closed each other; and a deformation suppression part 24 that supports the horizontal part 16 in the pair of fastening pieces 14 form both sides in a vertical direction.SELECTED DRAWING: Figure 6

Description

  The technology disclosed by this specification is related with a battery terminal.

  For example, JP-A-2002-184389 (Patent Document 1 below) is known as a battery terminal connected and fixed to a battery post provided in a battery mounted on a vehicle or the like. The battery terminal has a terminal body having a pair of left and right fastening pieces at the tip and sandwiching the battery post, a bracket for fastening the pair of left and right fastening pieces from both the left and right sides, and attaching the terminal body to the battery post, and a bracket And a bolt and a nut for tightening a pair of tightening pieces.

The bracket is configured to have a pair of side pieces that are formed on both side edges of a flat central piece, and each side piece has a pair of tapered surfaces that are inclined away from each other toward the upper side. It is formed to face.
On the other hand, each of the pair of fastening pieces of the terminal body is formed in a substantially rectangular shape in which the outer end of each of the substantially rectangular metal plates is turned inward in the left-right direction, and the pair of fastening pieces is attached to the bracket. The center piece of the bracket and the pair of fastening pieces are sandwiched from above and below by bolts and nuts, and the outer edges of the pair of fastening pieces are pressed from both the left and right sides by the pair of tapered faces. By doing so, the terminal body is brought into close contact with the battery post.

JP 2002-184389 A

  By the way, according to the above configuration, when the outer edges of the pair of fastening pieces are pressed from the left and right sides by the pair of tapered surfaces, the inner edge portions of the pair of fastening pieces facing each other are opposite to the tapered surface. There is a possibility that the pair of fastening pieces may be illegally deformed so as to open upward. If the pair of fastening pieces is deformed improperly, the terminal body cannot be brought into close contact with the battery post, and the connection reliability of the battery terminal to the battery post is lowered.

  The present specification discloses a technique for preventing unauthorized deformation of a battery terminal and ensuring connection reliability with a battery post.

  The technology disclosed in this specification is a battery terminal that is connected and fixed to a battery post provided in a battery main body, and is made of a metal post fitting portion that is fitted to the outer periphery of the battery post; and the post A pair of tightening portions integrally provided so as to face the end portions of the fitting portions and the pair of tightening portions are assembled so that the pair of tightening portions are brought closer to each other in the facing direction. A tightening member that tightly attaches the post fitting portion to the battery post by tightening from both sides, and a deformation suppressing portion that supports the pair of tightening portions from an orthogonal direction orthogonal to the opposing direction. Has characteristics.

  According to the battery terminal having such a configuration, when the pair of tightening portions are tightened from both sides by the tightening member, the pair of tightening portions are supported from the orthogonal direction by the deformation suppressing portion. It is possible to suppress the portion from being deformed in an unauthorized direction such as an orthogonal direction. Thereby, a post fitting part can be stuck closely to a battery post, and connection reliability between the battery post and the battery terminal can be ensured.

As an aspect of the technology disclosed by this specification, the following configurations are preferable.
Each of the pair of tightening portions is formed to extend in a plate shape so as to be horizontal to the end portion of the post fitting portion, and is arranged so that the edges of the plate surfaces adjacent to each other face each other. And the said deformation | transformation suppression part is good also as a structure distribute | arranged to the both sides of the said orthogonal direction in a pair of said clamping part so that the extended edge part of the said pair of clamping part may be wrapped.
According to such a configuration, since the pair of fastening portions having a flat plate shape can be supported from both sides in the orthogonal direction, the pair of fastening portions having a flat plate shape can be further suppressed from being deformed in an unauthorized direction. .

The deformation suppressing portion may be formed of a metal having higher rigidity than the pair of tightening portions.
According to such a configuration, since the pair of tightening portions are supported by the highly rigid deformation suppressing portion, for example, the tightening portion is improper compared to the deformation suppressing portion formed of the same metal as the tightening portion. It is possible to further suppress deformation in any direction.

An end portion of the post fitting portion different from the end portion provided with the pair of tightening portions is held and fixed, and the post fitting portion is held in a normal posture by being placed on the battery body. A pedestal portion may be provided, and the deformation suppressing portion may be provided on the pedestal portion.
According to such a configuration, since the deformation suppressing portion is provided in the pedestal portion that holds the post fitting portion in a normal posture, for example, the deformation suppressing portion provided separately from the pedestal portion is tightened. Compared with the case of assembling, the positioning accuracy of the deformation suppressing portion with respect to the pair of tightening portions can be improved, and the pair of tightening portions can be reliably supported from the orthogonal direction. Thereby, it can prevent supporting a pair of fastening part from the direction inclined with respect to the orthogonal direction, and can suppress reliably that a pair of fastening part deform | transforms into an improper direction.

The fastening member is clamped by a fastening bolt and a fastening nut together with the pair of fastening parts, thereby fastening the pair of fastening parts from both sides, and the fastening bolt or the fastening nut Any one of them may be configured to be prevented from rotating by fitting into a fitting concave portion provided in the deformation suppressing portion.
According to such a configuration, the rotation can be prevented by fitting either one of the fastening bolt or the fastening nut into the fitting recess provided in the deformation suppressing portion. In addition, since it is not necessary to separately provide a rotation preventing portion for preventing the fastening bolt or the fastening nut from rotating around the battery terminal, it is possible to prevent the battery terminal from becoming complicated.

The inner peripheral shape of the fitting recess may be the same as the outer peripheral shape of the portion into which the fastening bolt or the fastening nut is fitted.
According to such a configuration, since the fastening bolt or the fastening nut can be prevented from rotating on the entire inner surface of the fitting recess, the deformation suppressing portion is deformed due to the force concentrated on a part of the fitting recess. Can be prevented.

  According to the technology disclosed in this specification, unauthorized deformation of the battery terminal is prevented, and connection reliability with the battery post is ensured.

Battery terminal perspective view Front view Plan view Bottom view Perspective view of battery terminal upside down Side view showing the battery post assembled to the battery post AA line sectional view of FIG. BB sectional view of FIG. Sectional drawing equivalent to the cross section of FIG. 8 which shows the state which fastened the bolt to the nut Battery terminal exploded perspective view

<Embodiment>
Embodiments will be described with reference to FIGS. 1 to 10.
As shown in FIG. 6, the present embodiment illustrates a battery terminal 10 that is connected and fixed to a substantially columnar battery post P provided on a battery body BT of a battery mounted on a vehicle. In the following description, the vertical direction is based on the vertical direction in FIG. 2, and the horizontal direction is based on the horizontal direction in FIG. Further, the front-rear direction is described with reference to the left-right direction in FIGS.

  As shown in FIGS. 1 and 6, the battery terminal 10 includes a terminal main body 11 that is connected and fixed to the battery post P, a pedestal portion 20 that holds the terminal main body 11 and is placed on the post installation portion BT1, and terminals. And a bracket (an example of a “clamping member”) 30 that is assembled to the main body 11.

  The terminal body 11 is formed in a crank shape in a side view extending in the front-rear direction by processing a metal plate material made of copper or a copper alloy with a press or the like, and is fitted to the outer periphery of the battery post P. 12, a terminal connecting portion 13 provided at the rear end portion of the post fitting portion 12, and a pair of fastening pieces (“clamping portion”) provided on the front end portion of the post fitting portion 12 so as to face left and right. Example) 14.

As shown in FIGS. 1 and 3 to 5, the post fitting portion 12 is formed in a substantially annular shape of a flat plate having a post mounting hole 12 </ b> A, and the front end portion of the post fitting portion 12 is divided into right and left. ing. The post mounting hole 12A is formed so as to penetrate the post fitting portion 12 in the vertical direction, which is the plate thickness direction, and the inner diameter dimension of the post mounting hole 12A is set slightly larger than the outer diameter dimension of the battery post P. Has been.
When the battery post P is inserted into the post mounting hole 12A from below and the terminal body 11 is assembled at a proper position with respect to the battery post P, the post fitting portion 12 is arranged along the outer peripheral surface of the battery post P. It is designed to be fitted.

As shown in FIGS. 1, 6 and 7, the terminal connecting portion 13 extends downward from the rear end edge of the post fitting portion 12, and then extends in a substantially rectangular flat plate shape from the lower end edge to the rear. It is set as the form which has the terminal installation part 15 made.
A terminal (not shown) is installed on the upper surface of the terminal installation unit 15. Further, the terminal installation portion 15 is provided with a through hole 15A penetrating in the vertical direction. The stud bolt SB is inserted into the through hole 15A from below, and as shown in FIG. 7, the head SB1 of the stud bolt SB is viewed from above and below by the terminal installation portion 15 and the terminal holding portion 22 of the pedestal portion 20 described later. The stud bolt SB is held by the terminal installation portion 15 and the terminal holding portion 22 by being sandwiched.

  As shown in FIG. 10, the pair of fastening pieces 14 are formed to extend forward from the front end portion divided to the left and right of the post fitting portion 12. Each fastening piece 14 is connected to the front edge of the post fitting portion 12, and has a substantially rectangular flat plate-like horizontal portion 16 extending so as to be horizontal from the front edge of the post fitting portion 12. ing. On the inner edge 16A adjacent to each other in the horizontal portion 16, relief recesses 17 that are recessed in an arc shape in the left-right direction are formed, respectively, and on the outer edges arranged on the opposite sides of the horizontal portion 16, FIG. As shown in FIG. 10, a pair of pressed pieces 18 are provided that extend obliquely downward so as to be separated from each other toward the bottom. Each of the pair of pressed pieces 18 is formed in a substantially rectangular shape, and a bracket 30 is assembled to these pressed pieces 18 from above.

As shown in FIGS. 8 to 10, the bracket 30 is formed by processing a metal plate material having a plate thickness larger than that of the terminal main body 11 by pressing or the like, and is a substantially rectangular plate-like base portion that is horizontally long in the left-right direction. 31 and a pair of pressing portions 32 provided on both side edges of the base portion 31 in the left-right direction.
The base 31 is provided with an insertion hole 31A penetrating in the plate thickness direction. As shown in FIGS. 8 to 10, the base 31 has an insertion hole 31A in the horizontal portion 16 of the pair of fastening pieces 14. It is arranged above the horizontal portion 16 so as to align with the region between the recesses 17 in the vertical direction.

  As shown in FIGS. 8 and 9, the pair of pressing portions 32 are obliquely downward so as to be separated from each other downward from the base portion 31 so as to have substantially the same angle as the pressed piece 18 of the fastening piece 14. Each pressing portion 32 is assembled from above so as to be along each pressed piece 18 of the fastening piece 14. Moreover, as shown in FIGS. 1, 3, 5, and 6, each pressing portion 32 is supported from the front and rear by a pair of guide portions 18A provided along the front and rear edges of the pressed piece 18. Since each pressing part 32 is supported from the front and back by the guide part 18A, the bracket 30 is not inclined in the front-rear direction.

As shown in FIGS. 1, 8, and 9, a fastening bolt 40 and a fastening nut 45 that fasten the base 31 and the horizontal portion 16 of the pair of fastening pieces 14 from both sides in the vertical direction are assembled to the base 31. ing.
The fastening bolt 40 has a general shape having a shaft portion 42 extending downward from the head portion 41, and the head portion 41 is arranged on the base portion 31, and the relief recess in the insertion hole 31 </ b> A of the base portion 31 and the horizontal portion 16. The fastening bolt 40 is assembled to the bracket 30 by inserting the shaft portion 42 from above into the region surrounded by 17.

  As shown in FIG. 10, the fastening nut 45 is a flat square nut having a fastening hole 46. As shown in FIG. 8, the fastening nut 45 sandwiches the base portion 31 of the bracket 30 and the horizontal portion 16 of the pair of fastening pieces 14 together with the fastening bolt 40 from both sides in the vertical direction, and the shaft portion 42 of the fastening bolt 40. It is assembled to. Further, in the state before the fastening portion 40 and the base portion 31 and the horizontal portion 16 are tightened, the fastening nut 45 is screwed to a predetermined position as shown in FIG. It is held in contact.

  Further, when the fastening bolt 40 is screwed into the fastening nut 45 and tightened, and the fastening bolt 40 and the fastening nut 45 sandwich the base portion 31 of the bracket 30 and the horizontal portion 16 of the pair of fastening pieces 14 from both the upper and lower sides, The pressed piece 18 in the tightening piece 14 is pressed and tightened by the pair of pressing portions 32 of the bracket 30 from the left and right sides of the upper left and the upper right. As the pressed piece 18 and the pressing portion 32 slide, the horizontal portions 16 of the pair of fastening pieces 14 are displaced toward the inner side, which is a facing direction so as to approach each other (see FIG. 9). ). Accordingly, the post mounting hole 12A of the post fitting portion 12 is reduced in diameter, and the post fitting portion 12 is in close contact with the outer peripheral surface of the battery post P so that the terminal body 11 is connected and fixed to the battery post P. It has become.

  The pedestal portion 20 is formed in a plate shape that is long in the front-rear direction as shown in FIG. 10 by processing a metal plate material made of a stainless steel plate or the like having higher rigidity than the terminal body 11 with a press or the like. The pedestal portion 20 has a pedestal main body 21 that is fitted to the outer periphery of the battery post P and placed on the post installation portion BT1, and a terminal holding portion 22 that is connected to the rear end portion of the pedestal main body 21. ing.

  As shown in FIGS. 4 and 10, the pedestal main body 21 is formed in a flat plate shape having a post insertion hole 21 </ b> A. The post insertion hole 21A is formed so as to penetrate the pedestal main body 21 in the vertical direction that is the plate thickness direction, and the battery post P can be fitted into the post insertion hole 21A from below. By inserting the battery post P into the post insertion hole 21A and fitting the pedestal main body 21 to the battery post P, the pedestal main body 21 is placed on the upper surface of the post installation portion BT1 as shown in FIG. It has become.

As shown in FIG. 10, the terminal holding portion 22 is configured to extend in a substantially rectangular flat plate shape from the rear end edge of the pedestal main body 21 toward the rear. The terminal holding part 22 is configured such that the terminal installation part 15 of the terminal body 11 is assembled from above, and as shown in FIG. 5, a pair of locking pieces 15B provided on the terminal installation part 15 are provided with terminal holding parts. The terminal installation portion 15 is fixed to the terminal holding portion 22 by being locked to the locking portions 23 provided on both lateral edges of the portion 22 from the side opposite to the assembly direction, and the terminal body 11 is held to the pedestal portion 20. It has come to be.
Therefore, since the terminal main body 11 and the pedestal portion 20 are fixed to each other, the pedestal main body 21 of the pedestal portion 20 and the post fitting portion 12 of the terminal main body 11 are fitted to the battery post P. Thus, the battery terminal 10 can be stably assembled to the battery post P.

As shown in FIGS. 1, 5, and 8, the horizontal portion 16 of the pair of fastening pieces 14 is arranged in the vertical direction (the pair of fastening pieces 14 face each other) on the front edge of the base body 21 of the base portion 20. The deformation suppressing part 24 supported from both sides is provided.
As shown in FIGS. 1, 2, 5, and 7, the deformation suppressing unit 24 is provided on both sides in the vertical direction of both horizontal portions 16 so as to collectively wrap the front end edge portions of the horizontal portions 16 arranged side by side from the front. The length dimension in the left-right direction of the deformation suppressing part 24 is slightly shorter than the length dimension in the left-right direction of the entire horizontal parts 16 arranged side by side. Therefore, almost the entire upper surface of both horizontal portions 16 is covered with the deformation suppressing portion 24.

  Specifically, as shown in FIGS. 7 and 10, the deformation suppressing portion 24 includes a rear wall portion 25 extending upward from the front edge of the base body 21 toward the pair of fastening pieces 14 of the terminal body 11, and A lower side restraint portion 26 that extends forward along the horizontal portion 16 at a position slightly below the horizontal portion 16 so as to be continuous with the upper edge of the rear wall portion 25, and an extended end portion of the horizontal portion 16. A front wall portion 27 that rises upward from the front edge of the lower restraining portion 26 so as to cover the front end portion from the front, and an upper restraining portion 28 that is disposed along the upper surface of the horizontal portion 16 from the upper edge of the front wall portion 27. It is configured with.

As shown in FIGS. 1 and 10, the upper suppressing portion 28 has a substantially rectangular flat plate shape, and the upper suppressing portion 28 is provided with a bolt insertion hole 28 </ b> A through which the fastening bolt 40 is inserted. As shown in FIGS. 7 to 9, the upper restraining portion 28 is arranged in surface contact with the upper surface of the horizontal portion 16 by inserting the fastening bolt 40 through the bolt insertion hole 28 </ b> A.
On the other hand, as shown in FIG. 5, the lower restraining portion 26 has a substantially rectangular flat plate shape, and on both left and right edges of the lower restraining portion 26, as shown in FIGS. A pair of support protrusions 26A that rise is provided. The pair of support protrusions 26A are configured such that their upper end surfaces are in contact with the lower surface of the horizontal portion 16, and the horizontal portion 16 is supported from below by the pair of support protrusions 26A.
That is, as shown in FIGS. 8 and 9, the horizontal portion 16 of the pair of tightening pieces 14 has a pair of support protrusions in the lower suppression portion 26 of the deformation suppression portion 24 made of metal having higher rigidity than the horizontal portion 16. It is configured to be supported from both the upper and lower sides by the piece 26A and the upper restraining portion 28.

  Further, as shown in FIGS. 4 and 5, the deformation suppressing portion 24 is provided with a fitting recess 29 into which the fastening nut 45 can be fitted from below. The fitting recess 29 is opened in a square shape so as to penetrate the lower side restraint portion 26 in the vertical direction, and the lower end opening is formed in substantially the same shape as the outer shape of the fastening nut 45. That is, the fastening nut 45 is fitted and fitted in the fitting recess 29.

  The lower end opening of the fitting recess 29 is formed over the entire length of the lower restraining portion 26 in the front-rear direction, and when the fastening nut 45 is fitted into the fitting recess 29 from below, the fastening nut 45 As shown in FIGS. 4, 7, and 8, the four sides are surrounded by the left and right side edge portions 26 </ b> B of the front wall portion 27, the rear wall portion 25, and the lower side suppression portion 26 of the deformation suppressing portion 24. It has become.

The present embodiment is configured as described above. Next, the operation and effect of the battery terminal 10 will be described.
First, the assembly procedure of the battery terminal 10 will be described.
The stud bolt SB is inserted from below into the through hole 15A of the terminal installation portion 15 of the terminal main body 11, and the horizontal portion 16 of the pair of fastening pieces 14 is connected to the upper suppression portion 28 and the lower suppression portion 26 in the deformation suppression portion 24. The terminal body 11 is assembled to the pedestal 20 from above while being inserted therebetween.

  Here, when the horizontal portion 16 is inserted between the upper suppressing portion 28 and the lower suppressing portion 26 in the deformation suppressing portion 24, the upper suppressing portion 28 comes into surface contact with the upper surfaces of both horizontal portions 16, and both horizontal portions 16 is in a state where the lower surface of 16 is supported from below by the pair of support protrusions 26A of the lower restraining portion 26.

  Next, the pair of locking pieces 15 </ b> B of the terminal installation portion 15 and the pair of locking portions 23 in the terminal holding portion 22 of the pedestal portion 20 are locked in the vertical direction, and the terminal body 11 is fixed to the pedestal portion 20. Thereby, the stud bolt SB is held by the terminal holding part 22 and the terminal installation part 15, and the terminal body 11 is fixed to the pedestal part 20.

When the base 20 and the terminal body 11 are fixed, the bracket 30 is assembled to the pair of fastening pieces 14 of the terminal body 11 from above.
In this assembling process, a pair of pressing portions 32 of the bracket 30 are arranged on the pressed pieces 18 of the pair of fastening pieces 14, and each pressing portion 32 corresponds to the guide portion 18 </ b> A of the pressed piece 18 from the front and rear. By being supported, the bracket 30 is assembled to the pair of fastening pieces 14 so that the bracket 30 does not tilt back and forth.

  Finally, the fastening bolt 40 is inserted from the top into the region between the insertion hole 31A in the base portion 31 of the bracket 30, the bolt insertion hole 28A in the upper suppression portion 28 of the deformation suppression portion 24, and the relief recesses 17 in both horizontal portions 16. Then, it is fastened to the fastening nut 45 fitted from below into the fitting recess 29 of the deformation suppressing part 24. Thereby, the battery terminal 10 is completed.

Next, a procedure for connecting and fixing the battery terminal 10 configured as described above to the battery post P of the battery body BT will be described.
First, as shown in FIG. 6, the battery post P is inserted into the post insertion hole 21 </ b> A in the base body 21 of the base part 20 and the post mounting hole 12 </ b> A in the post fitting part 12 of the terminal body 11 to fit the base body 21 and post fitting. The joint portion 12 is fitted to the outer periphery of the battery post P. Thereby, the pedestal main body 21 is installed on the upper surface of the post installation part BT1, and the battery terminal 10 is arranged on the battery post P.

Next, the shaft portion 42 of the fastening bolt 40 is screwed into the fastening hole 46 of the fastening nut 45, and the fastening bolt 40 is fastened to the fastening nut 45.
In this tightening process, the fastening nut 45 is gradually drawn upward and the adjacent inner edge portions 16 </ b> A of the horizontal portions 16 are pressed upward by the fastening nut 45. As a result, the pair of pressing portions 32 of the bracket 30 are tightened so as to be pressed against the pressed pieces 18 of the pair of fastening pieces 14 from the left and right sides of the upper left side and the upper right side. As shown in FIG. 9, the horizontal portions 16 are displaced toward each other so that the horizontal portions 16 approach each other. Thereby, the post mounting hole 12A of the post fitting portion 12 is reduced in diameter, and the post fitting portion 12 is in close contact with the outer peripheral surface of the battery post P, whereby the terminal body 11 is connected and fixed to the battery post P.

  By the way, in this tightening process, the inner edge portions 16A of both horizontal portions 16 are pressed upward by the fastening nuts 45, and the pressed pieces 18 of the pair of tightening pieces 14 are the pair of pressing portions of the bracket 30. When pressed by the left and right sides of the upper left side and the upper right side, the horizontal portions 16 are stressed to push the inner edge portions 16A upward. For this reason, when a large force is applied to both horizontal portions 16, deformation in an illegal direction twisted so as to open upward occurs in both horizontal portions 16, and the post fitting portion 12 is brought into close contact with the battery post P. There is concern that it will not be possible.

  However, according to the present embodiment, above the horizontal portion 16, as shown in FIGS. 8 and 9, the upper restraining portion 28 contacts the upper surface of the horizontal portion 16 so as to cover the upper surfaces of both horizontal portions 16. The pair of support protrusions 26 </ b> A of the lower side restraining part 26 are placed in contact with the lower surface of the horizontal part 16, so that both horizontal parts 16 have a higher rigidity than the horizontal part 16. Since it is supported so as to be sandwiched between the upper and lower sides by 24, it is possible to prevent the horizontal portions 16 from being deformed in an unauthorized direction.

  That is, since the two horizontal portions 16 can be displaced only in the direction approaching each other inward without being deformed in an unauthorized direction, the post fitting portion 12 is firmly attached to the outer peripheral surface of the battery post P. The connection reliability between the battery terminal 10 and the battery post P can be ensured.

Further, in this tightening process, when the fastening bolt 40 is fastened to the fastening nut 45, the fastening nut 45 is rotated along with the rotation of the fastening bolt 40, whereby the fastening bolt 40 is fastened to the fastening nut 45. There is concern that it will be impossible.
However, according to the present embodiment, as shown in FIG. 4, the fastening nut 45 is fitted and fitted into the fitting recess 29 provided in the deformation suppressing portion 24 from below, and the fastening nut 45 is attached to the deformation suppressing portion 24. Since the front wall portion 27, the rear wall portion 25, and the left and right side edge portions 26B of the lower side restraining portion 26 are supported from the four sides, the fastening nut 45 can be prevented from rotating with the rotation of the fastening bolt 40. .

In other words, since the fastening nut 45 can be prevented from rotating only by providing the fitting recess 29 for fitting the fastening nut 45 in the deformation suppressing portion 24, the rotation preventing member for preventing the fastening nut 45 from rotating is attached to the battery terminal. Therefore, the battery terminal 10 can be prevented from becoming complicated.
In addition, a fitting concave portion 29 is provided in the deformation suppressing portion 24 of the pedestal portion 20 that is stiffer than the terminal body 11, and the front wall portion 27, the rear wall portion 25, and the left and right side edge portions 26 B of the lower side suppressing portion 26 Since the fastening nut 45 is supported from all sides, it is possible to reliably prevent the fastening nut 45 from rotating, and the force is concentrated only on a part of the wall portion of the fitting recess 29 so that the deformation suppressing portion 24 is provided. Deformation can be prevented.

  As described above, according to the present embodiment, the deformation suppressing portion 24 is provided at the front end edge of the pedestal main body 21 having higher rigidity than the terminal main body 11, and the horizontal portion 16 of the pair of fastening pieces 14 is formed by the deformation suppressing portion 24. Since it supports so that it may pinch | interpose from the up-and-down both sides, it can suppress that the horizontal part 16 deform | transforms into an improper direction with the clamp | tightening of a pair of clamping pieces 14 by the bracket 30. FIG. As a result, the two horizontal portions 16 are displaced only in the direction approaching each other without being deformed in an unauthorized direction, and the post fitting portion 12 is firmly adhered to the outer peripheral surface of the battery post P, whereby the battery terminal 10 and the battery are Connection reliability with the post P can be ensured.

  Moreover, according to this embodiment, since the deformation | transformation suppression part 24 is integrally provided in the front-end edge of the base main body 21 holding the terminal body 11, for example, the deformation | transformation suppression part provided separately from the base part is horizontal. The horizontal part 16 can be reliably supported from the vertical direction while increasing the positioning accuracy of the deformation suppressing part 24 with respect to the horizontal part 16 as compared with the case where it is assembled to the part. Thereby, it can prevent supporting the horizontal part 16 from the diagonal direction inclined with respect to the up-down direction, and can suppress reliably that the horizontal part 16 deform | transforms into an improper direction.

  Furthermore, the fitting recess 29 is provided in the highly rigid deformation suppressing portion 24 that suppresses the deformation of the horizontal portion 16, and the fastening nut 45 is prevented from rotating by simply fitting the fastening nut 45 into the fitting recess 29. Therefore, for example, it is possible to suppress an increase in the number of parts by separately assembling the anti-rotation portion or deformation of the terminal body by providing a fitting recess in the terminal body.

<Other embodiments>
The technology disclosed in the present specification is not limited to the embodiments described with reference to the above description and drawings, and includes, for example, the following various aspects.
(1) In the said embodiment, it was set as the structure which supports the horizontal part 16 from the up-and-down both sides with the upper side suppression part 28 of the deformation | transformation suppression part 24, and a pair of support protrusion 26A of the lower side suppression part 26. FIG. However, the present invention is not limited to this, and the horizontal portion 16 may be supported only by the upper suppressing portion.
(2) In the above embodiment, the deformation suppressing portion 24 is configured at the front end edge of the pedestal main body 21. However, the present invention is not limited to this, and a clip-shaped deformation suppressing portion that is separate from the pedestal portion may be formed, and the horizontal portion 16 may be sandwiched and supported by the clip-shaped deformation suppressing portion.
(3) In the above embodiment, the pedestal portion 20 provided with the deformation suppressing portion 24 is made of a metal having rigidity higher than that of the terminal body 11. However, the present invention is not limited to this, and the pedestal portion and the deformation suppressing portion may be formed of the same metal as the terminal body by increasing the plate thickness of the pedestal portion.
(4) In the said embodiment, the fastening nut 45 was comprised as a square nut, and the fitting recessed part 29 was comprised and opened squarely. However, the present invention is not limited to this, and a hexagonal nut may be used as the fastening nut, and the fitting recess may be formed in a hexagonal shape.
(5) In the above embodiment, the fastening bolt 40 is fastened to the fastening nut 45 fitted in the fitting recess 29. However, the present invention is not limited to this, and the fastening nut may be fastened to the fastening bolt fitted in the fitting recess.

10: Battery terminal 12: Post fitting part 14: Clamping piece (clamping part)
24: Deformation suppressing portion 29: Fitting recess 30: Bracket (clamping member)
40: Fastening bolt 45: Fastening nut BT: Battery body P: Battery post

Claims (6)

A battery terminal connected and fixed to a battery post provided in the battery body,
A metal post fitting portion fitted to the outer periphery of the battery post; and
A pair of fastening portions integrally provided so as to face the end of the post fitting portion;
A tightening member assembled to the pair of tightening portions and tightening the post fitting portion to the battery post by tightening the pair of tightening portions from both sides so as to approach each other in an opposing direction;
A battery terminal comprising: a deformation suppressing portion that supports the pair of tightening portions from an orthogonal direction orthogonal to the opposing direction. Each of the pair of tightening portions is formed to extend in a plate shape so as to be horizontal to the end portion of the post fitting portion, and is arranged so that the edges of the plate surfaces adjacent to each other face each other. And
2. The battery terminal according to claim 1, wherein the deformation suppressing portion is disposed on both sides of the pair of tightening portions in the orthogonal direction so as to wrap around the extended end portions of the pair of tightening portions.   The battery terminal according to claim 1, wherein the deformation suppressing portion is formed of a metal having higher rigidity than the pair of tightening portions. An end portion of the post fitting portion different from the end portion provided with the pair of tightening portions is held and fixed, and the post fitting portion is held in a normal posture by being placed on the battery body. Has a pedestal,
The battery terminal according to any one of claims 1 to 3, wherein the deformation suppressing portion is provided in the pedestal portion. The clamping member is adapted to clamp the pair of clamping parts from both sides by being clamped by a fastening bolt and a fastening nut together with the pair of clamping parts.
5. The rotating bolt according to claim 1, wherein either the fastening bolt or the fastening nut is prevented from being rotated by fitting into a fitting recess provided in the deformation suppressing portion. Battery terminal.   The battery terminal according to claim 5, wherein an inner peripheral shape of the fitting recess is formed to be the same as an outer peripheral shape of a portion into which the fastening bolt or the fastening nut is fitted.

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