JP6835609B2 - Battery terminal - Google Patents

Description

The present invention relates to a battery terminal.

As a conventional battery terminal, for example, Patent Document 1 discloses a battery terminal wound around a tapered battery post having a tip diameter smaller than the proximal end diameter. The battery terminal comprises a pair of annular portions. The pair of annular portions have a post insertion hole for inserting the battery post, and the post insertion hole is opened by a tightening gap that divides the inner circumference of the post insertion hole. Then, the battery terminal has a collar-shaped contact portion in which the hole edge portion in the annular portion on the tip end side of the battery post is bent toward the base end side of the battery post, and the hole edge portion in the annular portion on the base end side of the battery post. It is provided with a bent collar-shaped contact portion on the tip side of the post.

Japanese Unexamined Patent Publication No. 09-293494

By the way, the battery terminal described in Patent Document 1 described above has room for further improvement in terms of fastening to a battery post, for example.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a battery terminal that can be properly fastened to a battery post.

In order to achieve the above object, the battery terminal according to the present invention is formed by an upper plate and a lower plate facing each other along the axial direction of the battery post, and a post insertion hole into which the battery post is inserted. Further, from one end side of the main body portion along a tightening direction that intersects the axial direction and is a direction that crosses the slit with the main body portion in which a slit continuous with the post insertion hole is formed. A first fastening member, the first fastening member, which is arranged so as to extend to the other end side of the main body portion across the slit and is provided with a contact portion that comes into contact with the main body portion on one end side in the tightening direction. The second fastening member screwed to the other end side of the fastening member in the tightening direction, and the main body portion and the second fastening member inserted into the other end side of the first fastening member in the tightening direction. The main body portion is tightened along the tightening direction by the abutting portion and the intervening member as the second fastening member is screwed into the first fastening member. The intervening member is provided with a tightening portion, is interposed between the upper plate and the lower plate, and can come into contact with the upper plate and the lower plate, and is capable of contacting the upper plate and the lower plate along the axial direction. It is characterized by having an insertion restricting portion that regulates deformation toward the side where the lower plate approaches.

Further, in the battery terminal, the intervening member is located outside the upper plate and the lower plate with respect to the axial direction, and can come into contact with the upper plate or the lower plate along the axial direction. It is possible to have an external regulating unit that regulates deformation of the upper plate and the lower plate to the side where they are separated from each other.

Further, in the battery terminal, the insertion restricting portions are provided in pairs facing each other along the opposite direction intersecting the axial direction and the tightening direction, and the external restricting portions face each other along the axial direction. The intervening members are provided in pairs, and the pair of insertion restricting portions and the pair of external restricting portions are formed in the same shape, respectively, and the insertion center of the first fastening member in the intervening member is formed. As a reference, they can be provided at positions symmetrical with each other.

Further, in the battery terminal, the main body portion abuts on the connecting portion connecting the upper plate and the lower plate and the interposing member on the side opposite to the connecting portion side. The intervening member includes a regulating protrusion that restricts the movement of the intervening member to the side opposite to the connecting portion side, and the interposing member is in a state where the insertion restricting portion is interposed between the upper plate and the lower plate. The insertion restricting portion may come into contact with the connecting portion to restrict the movement of the first fastening member toward the connecting portion.

The battery terminal according to the present invention has a main body of the battery post by the action of the first fastening member, the second fastening member, and the intervening member in a state where the battery post is inserted into the post insertion hole formed in the main body. Can be concluded against. That is, the battery terminal can be tightened from both sides in the tightening direction by the contact portion and the intervening member by screwing the second fastening member into the first fastening member. With this configuration, the battery terminal can be tightened so that the distance between the slits is reduced along the tightening direction, so that the main body can be fastened to the battery post. At this time, in the battery terminal, the insertion restricting portion of the intervening member is interposed between the upper plate and the lower plate constituting the main body portion so as to be in contact with the upper plate and the lower plate. With this configuration, the battery terminal can be restricted from being deformed so that the upper plate and the lower plate approach each other along the axial direction by the insertion restricting portion, so that the battery terminal must be properly fastened to the battery post. It has the effect of being able to.

FIG. 1 is a partial perspective view showing a battery terminal according to an embodiment and a schematic configuration of a battery. FIG. 2 is a partially exploded perspective view showing a battery terminal according to an embodiment and a schematic configuration of the battery. FIG. 3 is a perspective view showing a schematic configuration of a battery terminal according to an embodiment. FIG. 4 is an exploded perspective view showing a schematic configuration of the battery terminal according to the embodiment. FIG. 5 is a perspective view showing a schematic configuration of a washer of a battery terminal according to an embodiment. FIG. 6 is a front view showing a schematic configuration of a washer of a battery terminal according to an embodiment. FIG. 7 is a partial cross-sectional view including an insertion restricting portion and an external restricting portion of the battery terminal according to the embodiment. FIG. 8 is a side view of one of the brackets of the battery terminal according to the embodiment.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the drawings. The present invention is not limited to this embodiment. In addition, the components in the following embodiments include those that can be easily replaced by those skilled in the art, or those that are substantially the same.

[Embodiment]

The battery terminal 1 according to the present embodiment shown in FIGS. 1 to 4 is assembled to the battery post 51 of the battery 50. The battery terminal 1 is a component for electrically connecting the battery 50 and the connection terminal 52 or the like by being assembled to the battery post 51. The battery 50 is mounted on a vehicle or the like as a power storage device. The battery 50 is located on one surface of the battery housing 53 that houses the battery fluid and various components constituting the battery 50, typically on a surface that is located on the upper side in the vertical direction when the battery 50 is mounted on the vehicle. The battery post 51 is erected. The battery post 51 projects from the upper surface of the battery housing 53 in the vertical direction toward the upper side in the vertical direction. The battery post 51 is formed in a cylindrical shape, or more specifically, in a cylindrical shape (or cylindrical shape) tapered so that the diameter decreases toward the tip side. That is, the battery post 51 has a tapered shape in which the outer diameter of the tip is smaller than the outer diameter of the base end. The battery post 51 is arranged so that the central axis C is along the vertical direction. The battery terminal 1 is fastened to the battery post 51 configured in this way. Further, the connection terminal 52 is a connection partner member provided at the end of the electric wire 54 on the main body side of the vehicle or the like on which the battery 50 is mounted.

In the following description, the direction along the central axis C of the battery post 51 is referred to as the axial direction X. Further, here, for the sake of clarity, one of the two directions orthogonal to the axial direction X is referred to as the first width direction Y, and the other is referred to as the second width direction Z for convenience. The first width direction Y and the second width direction Z correspond to the intersecting directions intersecting the axial direction X. The first width direction Y corresponds to the tightening direction of the main body portion 20 by the tightening portion 30 described later. The second width direction Z corresponds to the opposite direction of the pair of insertion restricting portions 33d described later. The axial direction X, the first width direction Y, and the second width direction Z intersect each other, and here they are orthogonal to each other. Unless otherwise specified, each direction used in the following description shall represent a direction in which each part is assembled to each other.

Specifically, the battery terminal 1 includes a stud bolt 10, a main body portion 20, and a tightening portion 30.

The stud bolt 10 is configured to have a shaft portion 10a and a bolt head portion 10b (particularly see FIG. 4), and these are integrally formed of a conductive metal or the like. The shaft portion 10a is a portion to which the connection terminal 52 is connected. The shaft portion 10a is formed in a columnar shape and has a screw groove formed on the outer peripheral surface. The bolt head 10b is a base portion provided at one end of the shaft portion 10a. The bolt head 10b is a pedestal portion on which the shaft portion 10a is erected. The bolt head 10b is formed as a portion having a diameter larger than that of the shaft portion 10a. Here, the bolt head 10b is formed in a substantially rectangular shape.

The main body portion 20 includes a post fastening portion 21 and a bolt holding portion 22. The post fastening portion 21 is a portion to be fastened to the battery post 51. The bolt holding portion 22 is a portion connected to the post fastening portion 21 adjacent to the post fastening portion 21 in the second width direction Z to hold the stud bolt 10. The main body 20 includes, for example, a pair of annular portions 20a and 20b forming the post fastening portion 21, and a pair of holding plate-shaped portions 20c forming the bolt holding portion 22 by press bending of a conductive metal plate or the like. 20d and a bent connecting portion 20e as a connecting portion are integrally formed.

The pair of annular portions 20a and 20b are formed in a substantially rectangular annular shape. Post insertion holes 20f and 20g and slits 20h and 20i are formed in the pair of annular portions 20a and 20b, respectively. The post insertion holes 20f and 20g are substantially circular holes into which the battery post 51 is inserted. The slits 20h and 20i are gaps continuous with the post insertion holes 20f and 20g. The post insertion holes 20f and 20g and the slits 20h and 20i are continuous along the second width direction Z.

The pair of holding plate-shaped portions 20c and 20d are formed in a substantially rectangular shape, and a bolt insertion hole 20j is formed on the holding plate-shaped portion 20c side. The bolt insertion hole 20j is a hole into which the shaft portion 10a of the stud bolt 10 is inserted and is formed in a substantially circular shape. The annular portion 20a and the holding plate-shaped portion 20c are integrally formed so as to be continuous to form the upper plate 20A. The annular portion 20b and the holding plate-shaped portion 20d are integrally formed so as to be continuous to form the lower plate 20B.

The annular portion 20a and the annular portion 20b are integrally formed so that the ends on the opposite sides of the holding plate-shaped portions 20c and 20d, respectively, are continuous via the bending connecting portion 20e. Will be done. That is, the upper plate 20A and the lower plate 20B are connected by the bending connecting portion 20e, and are integrally formed so as to be continuous via the bending connecting portion 20e. As a result, the main body portion 20 is formed in a U-shaped folded state with the bent connecting portion 20e interposed therebetween, and the annular portion 20a, the holding plate-shaped portion 20c, the annular portion 20b, and the holding plate-shaped portion 20d are shafts. It is formed so as to face the direction X and be laminated in a plate shape substantially parallel to each other in the vertical direction. That is, according to this configuration, the main body portion 20 is formed by the upper plate 20A and the lower plate 20B laminated vertically so as to face each other along the axial direction X, and the upper plate 20A and the lower plate 20B are respectively formed. The post insertion holes 20f and 20g and slits 20h and 20i described above are formed.

Here, the state of being laminated vertically means that the battery terminals 1 are typically laminated along the axial direction X of the battery post 51 in a state of being assembled to the battery post 51. Equivalent to. Further, the stacking direction is typically a direction along the axial direction X in a state where the battery terminal 1 is assembled to the battery post 51, and here, the side where the shaft portion 10a of the stud bolt 10 protrudes is laminated. The upper side in the direction and the opposite side are the lower side in the stacking direction. Further, the upper side in the stacking direction corresponds to the tip end side of the battery post 51, and the lower side in the stacking direction corresponds to the base end side of the battery post 51. Here, in the main body portion 20, the annular portion 20a and the holding plate-shaped portion 20c are on the upper side in the stacking direction, and the annular portion 20b and the holding plate-shaped portion 20d are on the lower side in the stacking direction. That is, in the main body 20, the upper plate 20A is on the upper side in the stacking direction, and the lower plate 20B is on the lower side in the stacking direction.

Specifically, the pair of annular portions 20a and 20b are vertically laminated via the bending connecting portion 20e so that the post insertion hole 20f and the post insertion hole 20g face each other in the stacking direction. The post insertion hole 20f and the post insertion hole 20g are formed. The inner peripheral wall surface of the post insertion hole 20f is formed by folding the sheet metal upward in the stacking direction. The inner peripheral wall surface of the post insertion hole 20g is formed by folding back the sheet metal downward in the stacking direction. The post insertion hole 20f and the post insertion hole 20g each have a taper on the inner peripheral wall surface corresponding to the taper of the battery post 51 described above. Here, the post insertion hole 20f and the post insertion hole 20g have the minimum inner diameter on the side where the shaft portion 10a of the stud bolt 10 protrudes, that is, the post insertion hole 20f side, and the inner diameter on the opposite side of the post insertion hole 20g side. Is the maximum. The inner peripheral surfaces of the post insertion hole 20f and the post insertion hole 20g come into contact with the battery post 51 in a state where the battery post 51 is inserted.

Further, the pair of annular portions 20a and 20b are vertically laminated via the bending connecting portion 20e, and the slits 20h and 20i are arranged so that the slits 20h and the slits 20i face each other in the stacking direction. It is formed. The slits 20h and 20i are continuous at the bending connecting portion 20e, and extend from the bending connecting portion 20e to the post insertion hole 20f and the post insertion hole 20g in the bending connecting portion 20e and the annular portions 20a and 20b as a whole. ing. In other words, the slits 20h and 20i are formed so as to extend from the post insertion holes 20f and 20g to the bending connecting portion 20e so as to divide a part of the annular portions 20a and 20b. Further, the pair of annular portions 20a and 20b form a tightening end portion 20k in which the portion between the post insertion holes 20f and 20g and the bending connecting portion 20e is tightened by the tightening portion 30 described later. The slits 20h and 20i penetrate the tightening end portion 20k along the second width direction Z from the post insertion holes 20f and 20g to the bending connecting portion 20e. The tightening end portions 20k are formed with substantially rectangular notches 20l and 20m at both end portions in the first width direction Y, respectively, to which a part of the tightening portion 30 is fitted. The cutout portions 20l and 20m are formed over both the annular portion 20a (upper plate 20A) and the annular portion 20b (lower plate 20B), respectively. Further, the tightening end portion 20k is further formed with a regulating protrusion 20n (particularly see FIG. 4) adjacent to the notch portion 20m. Each of the regulating protrusions 20n positions a part of the tightening portion 30 with respect to the second width direction Z. The regulation protrusion 20n is formed on both the annular portion 20a (upper plate 20A) and the annular portion 20b (lower plate 20B), respectively. The regulation protrusion 20n is formed on the side opposite to the bending connecting portion 20e side of the notch portion 20m with respect to the second width direction Z and adjacent to the notch portion 20m. The regulation protrusion 20n is formed so as to protrude along the first width direction Y. From a different point of view, the regulation protrusion 20n is formed so as to protrude along the first width direction Y to form the notch 20m.

The pair of holding plate-shaped portions 20c and 20d are bent in a state where the shaft portion 10a of the stud bolt 10 is inserted into the bolt insertion hole 20j in advance before the bending process, so that the pair of holding plate-shaped portions 20c and 20d are bent through the bending connecting portion 20e. The stud bolt 10 is held in a state of being laminated vertically. Here, as described above, the holding plate-shaped portion 20c constitutes the upper plate 20A in which the bolt insertion hole 20j is formed. The bolt insertion hole 20j is a through hole through which the shaft portion 10a of the stud bolt 10 penetrates. On the other hand, the holding plate-shaped portion 20d holds the bolt head 10b of the stud bolt 10 between the holding plate-shaped portion 20c constituting the upper plate 20A and the holding plate-shaped portion 20c facing the stacking direction (axial direction X). The lower plate 20B is configured. That is, the pair of holding plate-shaped portions 20c and the holding plate-shaped portions 20d are laminated so as to face each other and hold the bolt head portion 10b between them. In other words, the bolt holding portion 22 has a holding plate-shaped portion 20c and a holding plate-shaped portion 20d facing each other along the axial direction X, and the bolt head 10b of the stud bolt 10 is oriented with respect to the axial direction X. It is sandwiched and held between the holding plate-shaped portion 20c and the holding plate-shaped portion 20d.

The stud bolt 10 is exposed so that the shaft portion 10a protrudes from the bolt insertion hole 20j along the axial direction X while being held between the holding plate-shaped portion 20c and the holding plate-shaped portion 20d. .. In the stud bolt 10, the connection terminal 52 is electrically connected to the shaft portion 10a exposed from the bolt insertion hole 20j. In the stud bolt 10, the shaft portion 10a is inserted into the fastening hole 52a of the connection terminal 52, and the nut 55 is screwed into the shaft portion 10a to fasten the connection terminal 52 to the shaft portion 10a. In the bolt holding portion 22 described above, the holding plate-shaped portion 20c constituting the upper plate 20A is formed by screwing the nut 55 into the shaft portion 10a of the stud bolt 10 so that the nut 55 and the bolt head 10b of the stud bolt 10 are screwed. It is sandwiched between and the connection terminal 52.

The tightening portion 30 fastens the main body portion 20 to the battery post 51 with the battery post 51 inserted in the post insertion holes 20f and 20 g. The tightening portion 30 abuts on the pair of annular portions 20a and 20b of the main body portion 20 from both sides in the first width direction (tightening direction) Y, and tightens the tightening end portions 20k of the annular portions 20a and 20b. As a result, the tightening portion 30 fastens the main body portion 20 to the battery post 51. The tightening portion 30 has a bolt 31 as a first fastening member, a nut 32 as a second fastening member, and a washer 33 as an intervening member. The tightening portion 30 of the present embodiment is of a form in which the nut 32 is tightened along the first width direction Y when the battery terminal 1 is fastened to the battery post 51. In this case, the tightening portion 30 is at the battery terminal 1 due to the fastening force F (see FIG. 8 described later) generated between the bolt 31 and the nut 32 along the first width direction Y when the nut 32 is tightened. Press the portion where the battery post 51 is inserted. The tightening portion 30 tightens the main body 20 along the first width direction Y by the contact portion 31b of the bolt 31 and the washer 33 as the nut 32 is screwed into the bolt 31, so that the main body 20 is battery-posted. Fasten to 51.

Specifically, the bolt 31 is a member that is assembled to the main body 20 along the first width direction Y. The bolt 31 is configured to have a shaft portion 31a as a bolt main body portion and a contact portion 31b, and these are integrally formed of a conductive metal or the like. The shaft portion 31a extends along the first width direction Y from one end side of the annular portions 20a and 20b of the main body portion 20 to the other end side of the annular portions 20a and 20b of the main body portion 20 with the slits 20h and 20i interposed therebetween. It is a part to be arranged. As described above, the first width direction Y is a direction orthogonal to (intersects) the axial direction X along the central axis C of the battery post 51, and the slits 20h formed in the annular portions 20a and 20b, Corresponds to the direction across 20i. The first width direction Y typically corresponds to the tightening direction in which the annular portions 20a and 20b are tightened by the tightening portion 30 when the annular portions 20a and 20b are fastened to the battery post 51. A nut 32 is screwed into the shaft portion 31a. The shaft portion 31a is formed in a columnar shape and has a screw groove formed on the outer peripheral surface. The contact portion 31b is a pedestal portion on which the shaft portion 31a is erected. The abutting portion 31b is provided at one end of the shaft portion 31a in the first width direction Y, and when the main body portion 20 is fastened to the battery post 51, the annular portions 20a and 20b of the main body portion 20, here, the tightening end This is a portion that comes into contact with the portion 20k. The contact portion 31b is provided integrally with the shaft portion 31a at one end of the shaft portion 31a. More specifically, the contact portion 31b is assembled to the main body portion 20 so that the shaft portion 31a penetrates from one end side to the other end side of the annular portions 20a and 20b along the first width direction Y. It is provided at an end of the shaft portion 31a located on the notch portion 20l side of the main body portion 20. The contact portion 31b is formed as a portion having a diameter larger than that of the shaft portion 31a, and here, it is formed in a substantially rectangular plate shape. In the shaft portion 31a, the screw groove is formed at the other end portion on the opposite side to the end portion on the contact portion 31b side, and the nut 32 is screwed.

The bolt 31 configured as described above is formed in the first width direction Y between the pair of annular portions 20a and 20b (between the upper plate 20A and the lower plate 20B) in a state where the shaft portions 31a are stacked vertically. Inserted along. At this time, the shaft portion 31a is inserted between the pair of annular portions 20a and 20b from the notch portion 20l side of the tightening end portion 20k. That is, the bolt 31 is inserted from one end side in the first width direction Y at the tightening end portion 20k, here, from the notch portion 20l side, in a positional relationship such that the shaft portion 31a crosses the slits 20h and 20i. .. Then, the bolt 31 is assembled to the main body portion 20 by penetrating from one end side to the other end side of the annular portions 20a and 20b along the first width direction Y. That is, the bolt 31 is inserted so as to cross the slits 20h and 20i in the space between the pair of annular portions 20a and 20b in a state where the shaft portion 31a is vertically laminated via the bending connecting portion 20e. It is assembled to the main body 20. The bolt 31 is positioned by fitting the contact portion 31b into the notch portion 20l and accommodating the bolt 31 in the notch portion 20l in a state of being assembled to the main body portion 20. The contact portion 31b comes into contact with the tightening end portion 20k in a state of being housed in the notch portion 20l and positioned. In the state where the bolt 31 is assembled to the main body portion 20, the tip portion of the portion where the screw groove of the shaft portion 31a is formed is located on the opposite side of the contact portion 31b with the tightening end portion 20k interposed therebetween.

The nut 32 is a member screwed to the other end side of the bolt 31 in the first width direction Y (the side opposite to the one end side where the contact portion 31b is provided). The nut 32 is formed of a conductive metal or the like. A screw groove is formed on the inner peripheral surface of the screw hole of the nut 32, and the nut 32 is formed so as to be screwable on the shaft portion 31a of the bolt 31. The nut 32 is attached to the main body portion 20 so that the shaft portion 31a of the bolt 31 penetrates from one end side to the other end side of the annular portions 20a and 20b along the first width direction Y in the shaft portion 31a. It is screwed into the end portion of the main body portion 20 located on the notch portion 20 m side. That is, the nut 32 is screwed into the tip portion of the shaft portion 31a exposed from the cutout portion 20m side of the tightening end portion 20k in the main body portion 20, that is, the tip portion of the shaft portion 31a opposite to the contact portion 31b. Will be combined. The nut 32 faces the contact portion 31b in the first width direction Y in a state where the bolt 31 is assembled to the main body portion 20 and screwed into the shaft portion 31a.

The washer 33 is a member that is inserted into the other end side of the bolt 31 in the first width direction Y and is interposed between the main body 20 and the nut 32. Here, the other end side of the bolt 31 in the first width direction Y is the side opposite to the one end side where the contact portion 31b is provided as described above, and the nut 32 is provided in the first width direction Y. On the side.

Specifically, as shown in FIGS. 3, 4, 5, and 6, the washer 33 includes a plate-shaped portion 33a as a washer main body portion, a through hole 33b, and a protrusion 33c. These are integrally formed of a conductive metal or the like. The plate-shaped portion 33a is formed in a substantially rectangular plate shape. Here, the plate-shaped portion 33a is formed in a substantially square plate shape. The through hole 33b is a hole through which the shaft portion 31a of the bolt 31 is inserted along the first width direction Y. The through hole 33b is formed by penetrating the plate-shaped portion 33a in the substantially central portion of the plate-shaped portion 33a along the first width direction Y. The protruding portion 33c is formed by folding back the end portion of the plate-shaped portion 33a along the first width direction Y. The protrusion 33c is formed so as to protrude from the plate-shaped portion 33a along the first width direction Y. A plurality of protrusions 33c are provided. A total of four protrusions 33c are provided, one on each side of the plate-shaped portion 33a formed in a substantially rectangular plate shape (substantially square plate shape). A plurality of, here, four protrusions 33c are formed so as to project from the plate-shaped portion 33a to the same side along the first width direction Y. The four protrusions 33c have a pair facing each other along the second width direction Z in a state where the washer 33 is inserted and assembled to the bolt 31 assembled to the main body 20, and the other pair They face each other along the axial direction X. The pair of protrusions 33c facing each other along the second width direction Z are formed so as to extend along the axial direction X on each side of the plate-shaped portion 33a along the axial direction X. The pair of protrusions 33c facing each other along the axial direction X are formed so as to extend along the second width direction Z on each side of the plate-shaped portion 33a along the second width direction Z. The washer 33 is provided at a position symmetrical with respect to the insertion center of the bolt 31 in the washer 33 and the four protrusions 33c are each formed to have the same shape. The insertion center of the bolt 31 in the washer 33 is typically the center position of the washer 33 with respect to the axial direction X and the second width direction Z, and corresponds to the center position of the through hole 33b.

The washer 33 configured as described above is inserted into the shaft portion 31a of the bolt 31 before the nut 32 is screwed into the bolt 31 assembled to the main body portion 20. The nut 32 is screwed into the shaft portion 31a after the washer 33 is inserted into the shaft portion 31a. In the washer 33, the shaft portion 31a is inserted into the through hole 33b in a positional relationship in which each protrusion 33c faces the main body portion 20 side in the first width direction Y. In the state where the washer 33 is assembled to the bolt 31, the plate-shaped portion 33a is fitted with the notch portion 20m formed in the tightening end portion 20k of the main body portion 20, and is housed and positioned in the notch portion 20m. To. In this state, the washer 33 has the plate-shaped portion 33a in contact with the tightening end portions 20k of the annular portions 20a and 20b. The washer 33 is assembled to the bolt 31 and is interposed between the main body portion 20 and the nut 32 in a state where the plate-shaped portion 33a is housed in the notch portion 20m and is positioned.

Then, in the washer 33, in a state where the plate-shaped portion 33a is housed in the cutout portion 20m and positioned, as shown in FIG. 7, a part of the plurality of protrusions 33c is a pair of annular portions 20a and 20b. It is inserted and located in the space between the upper plate 20A and the lower plate 20B. On the other hand, the washer 33 is a pair of annular portions in which a plurality of other portions of the protrusions 33c are laminated along the axial direction X in a state where the plate-shaped portion 33a is housed and positioned in the notch portion 20m. It is located exposed to the outside of 20a and 20b, that is, the outside of the upper plate 20A and the lower plate 20B. Here, the plurality of protrusions 33c are spaces between the annular portion 20a in which the pair of protrusions 33c facing each other along the second width direction Z form the upper plate 20A and the annular portion 20b forming the lower plate 20B. It is inserted and located in the part. On the other hand, the plurality of protrusions 33c are located so that the pair of protrusions 33c facing each other along the axial direction X are exposed to the outside of the annular portion 20a forming the upper plate 20A and the annular portion 20b forming the lower plate 20B. ..

The plurality of protrusions 33c of the present embodiment constitute an insertion restricting portion 33d and an external restricting portion 33e. The insertion restricting portion 33d is composed of a pair of protruding portions 33c that face each other along the second width direction Z and are inserted and located in the space between the upper plate 20A and the lower plate 20B. On the other hand, the external regulating portion 33e is composed of a pair of protruding portions 33c that face each other along the axial direction X and are exposed to the outside of the upper plate 20A and the lower plate 20B. That is, the insertion restricting portions 33d are provided in pairs along the second width direction Z so as to face each other. The external regulating portions 33e are provided in pairs along the axial direction X so as to face each other. The washer 33 is provided at a position symmetrical with respect to the insertion center of the bolt 31 in the washer 33, with the pair of insertion restricting portions 33d and the pair of external restricting portions 33e formed in the same shape.

The pair of insertion restricting portions 33d are inserted and positioned between the pair of annular portions 20a and 20b, that is, in the space between the upper plate 20A and the lower plate 20B, so that the upper plate is located in the axial direction X. It is interposed between 20A and the lower plate 20B. The pair of insertion restricting portions 33d can come into contact with the annular portion 20a constituting the upper plate 20A and the annular portion 20b constituting the lower plate 20B in a state of being interposed between the upper plate 20A and the lower plate 20B. With this configuration, the pair of insertion restricting portions 33d restricts deformation of the annular portion 20a forming the upper plate 20A and the annular portion 20b forming the lower plate 20B toward the side along the axial direction X. That is, the pair of insertion restricting portions 33d abuts on the annular portion 20a and the annular portion 20b to maintain the distance between the upper plate 20A and the lower plate 20B along the axial direction X, and to the side where the distance is narrowed. The deformation of the upper plate 20A and the lower plate 20B is regulated.

The pair of external restricting portions 33e are located outside the pair of annular portions 20a and 20b with respect to the axial direction X, that is, outside the upper plate 20A and the lower plate 20B, and form the upper plate 20A. It can come into contact with the annular portion 20b constituting the 20a or the lower plate 20B. With this configuration, the pair of external regulating portions 33e regulate the deformation of the annular portion 20a constituting the upper plate 20A and the annular portion 20b forming the lower plate 20B toward a distance along the axial direction X. That is, the pair of external regulating portions 33e abut on the annular portion 20a or the annular portion 20b to maintain the distance between the upper plate 20A and the lower plate 20B along the axial direction X, and move to the side where the distance is widened. The deformation of the upper plate 20A and the lower plate 20B is regulated.

In the battery terminal 1 configured as described above, the bolt 31 is assembled to the main body 20, the washer 33 is attached to the shaft 31a of the bolt 31, and the nut 32 is screwed into the shaft 31a. Can be assembled to each other. In this state, the battery terminal 1 is positioned with the contact portion 31b of the bolt 31 housed in the notch portion 20l and the washer 33 housed in the notch portion 20m. Then, in the battery terminal 1, the contact portions 31b and the washer 33 hit the tightening end portion 20k of the main body portion 20 from both sides of the first width direction Y with the slits 20h and 20i sandwiched along the first width direction Y. Get in touch.

In this state, in the battery terminal 1, each regulation protrusion 20n comes into contact with the plate-shaped portion 33a of the washer 33 on the side opposite to the bent connecting portion 20e, and the bent connecting portion 20e of the washer 33 comes into contact with the plate-shaped portion 33a. Regulate movement to the opposite side. Further, the battery terminal 1 is positioned in this state where the pair of insertion restricting portions 33d of the washer 33 are inserted into the space between the annular portion 20a constituting the upper plate 20A and the annular portion 20b forming the lower plate 20B. To do. Further, in the washer 33, with each insertion restricting portion 33d interposed between the annular portion 20a and the annular portion 20b, the insertion restricting portion 33d comes into contact with the bending connecting portion 20e and moves toward the bending connecting portion 20e of the bolt 31. Regulate the movement of. Further, in this state, the battery terminal 1 is located outside the annular portion 20a forming the upper plate 20A and the annular portion 20b forming the lower plate 20B by the pair of external regulating portions 33e of the washer 33.

Then, the battery terminal 1 is assembled to the battery post 51 by inserting the battery post 51 into the post insertion holes 20f and 20g so that the shaft portion 10a of the stud bolt 10 is exposed. Then, in the battery terminal 1, the nut 32 is tightened from one side in the first width direction Y in a state where the inner peripheral surface of the post insertion holes 20f and 20 g and the outer peripheral surface of the battery post 51 are in contact with each other. As a result, the battery terminal 1 is tightened on both sides of the tightening end portion 20k with the slits 20h and 20i sandwiched in the first width direction Y, and the main body portion 20 is fastened to the battery post 51.

More specifically, in the battery terminal 1, the nut 32 is rotated around the first width direction Y (shaft portion 31a) by a tool or the like, and the nut 32 is hit in the first width direction Y by a screwing action. It moves to the contact portion 31b side. In the battery terminal 1, the washer 33 also moves to the contact portion 31b side in the first width direction Y as the nut 32 moves to the contact portion 31b side in the first width direction Y, and the tightening end of the main body portion 20 It approaches the part 20k side. At this time, the abutting portion 31b abuts on the tightening end portions 20k of the annular portions 20a and 20b, and the bolt 31 is rotated around the first width direction Y by the notch portion 20l formed in the tightening end portion 20k. Is regulated. Further, the washer 33 comes into contact with the tightening end portions 20k of the annular portions 20a and 20b, and is formed around the first width direction Y by the notch portion 20m formed in the tightening end portion 20k and each regulation protrusion 20n. The movement along the first width direction Y is guided while the rotation of the is regulated.

As a result, as shown in FIG. 8, the battery terminal 1 generates a fastening force F along the first width direction Y between the contact portion 31b of the bolt 31 and the nut 32. As a result, in the battery terminal 1, the tightening end portion 20k of the main body portion 20 is pressed along the first width direction Y by the fastening force F via the contact portion 31b of the bolt 31 and the washer 33. With this configuration, the battery terminal 1 is tightened in a direction in which both sides of the tightening end portion 20k approach each other with the slits 20h and 20i interposed therebetween. That is, the battery terminal 1 has a main body 20 on the side where the contact portion 31b of the bolt 31 and the washer 33 reduce the distance between the slits 20h and 20i from both sides in the first width direction Y along the first width direction Y. Tighten the tightening end portion 20k of. As a result, in the battery terminal 1, the distance between the slits 20h and 20i is narrowed in a state where the inner peripheral surface of the post insertion holes 20f and 20g is in contact with the outer peripheral surface of the battery post 51, and the diameters of the post insertion holes 20f and 20g are reduced. The main body 20 is fastened to the battery post 51.

Then, in the battery terminal 1, a connection terminal 52 provided at the end of the electric wire 54 is electrically connected to the shaft portion 10a of the stud bolt 10.

On the other hand, if the nut 32 is loosened, the fastening force F of the battery terminal 1 is weakened, the distance between the slits 20h and 20i is widened, the diameters of the post insertion holes 20f and 20g are expanded, and the battery terminal 1 is removable from the battery post 51. Become.

The battery terminal 1 described above has the main body 20 due to the action of the bolt 31, the nut 32, and the washer 33 in a state where the battery post 51 is inserted into the post insertion holes 20f and 20 g formed in the main body 20. Can be fastened to the battery post 51. That is, the battery terminal 1 can be tightened from both sides in the first width direction Y by the contact portion 31b and the washer 33 by screwing the nut 32 into the bolt 31. With this configuration, the battery terminal 1 can tighten the main body 20 so that the distance between the slits 20h and 20i is reduced along the first width direction Y, so that the main body 20 is fastened to the battery post 51. be able to.

At this time, in the battery terminal 1, the insertion restricting portion 33d of the washer 33 is interposed between the upper plate 20A and the lower plate 20B constituting the main body portion 20 so as to be in contact with the upper plate 20A and the lower plate 20B. .. With this configuration, the battery terminal 1 can be restricted from being deformed so that the upper plate 20A and the lower plate 20B approach each other along the axial direction X by the insertion restricting portion 33d. As a result, in the battery terminal 1, for example, the fastening torque applied to the nut 32 is applied to the upper plate 20A and the lower plate 20B via the contact portion 31b and the washer 33, and the upper plate 20A and the lower plate 20B are deformed. However, the deformation can be prevented by the insertion restricting unit 33d. Therefore, the battery terminal 1 can suppress deformation of the upper plate 20A and the lower plate 20B constituting the main body 20 and secure a fastening force F having an appropriate size, so that the battery terminal 1 can be properly fastened to the battery post 51. can do. Further, the battery terminal 1 can prevent the upper plate 20A and the lower plate 20B constituting the main body 20 from being deformed by the insertion restricting portion 33d when the nut 32 is tightened or loosened. Thereby, for example, the battery terminal 1 can prevent the upper plate 20A and the lower plate 20B from being deformed so as to press the shaft portion 31a of the bolt 31. As a result, the battery terminal 1 can smoothly tighten and loosen the nut 32 and suppress a decrease in workability. Therefore, the battery terminal 1 can be properly fastened to the battery post 51 in this respect as well. can do.

Further, in the battery terminal 1 described above, the external regulating portion 33e of the washer 33 can come into contact with the upper plate 20A or the lower plate 20B on the outside of the upper plate 20A and the lower plate 20B with respect to the axial direction X. To position. With this configuration, the battery terminal 1 can be restricted from being deformed so that the upper plate 20A and the lower plate 20B are separated from each other along the axial direction X by the external regulating portion 33e. As a result, for example, foreign matter is caught in the battery terminal 1 and an external force is applied in the direction in which the upper plate 20A and the lower plate 20B are opened, and even if the upper plate 20A and the lower plate 20B try to be deformed, the external regulating portion 33e deforms the battery terminal 1. Can be blocked. Also in this respect, the battery terminal 1 is suitable for the battery post 51 because it can suppress deformation of the upper plate 20A and the lower plate 20B constituting the main body 20 and secure a fastening force F having an appropriate size. Can be fastened to.

Further, in the battery terminal 1 described above, the pair of insertion restricting portions 33d and the pair of external restricting portions 33e are each formed in the same shape and provided at point-symmetrical positions in the washer 33. With this configuration, the battery terminal 1 can improve the workability of assembling the washer 33 to the bolt 31. That is, the battery terminal 1 does not need to be aware of the directionality of the washer 33 with respect to the axial direction X and the second width direction Z, in other words, does not confirm the positions of the insertion restricting portion 33d and the external restricting portion 33e in the washer 33. However, the washer 33 can be easily attached to the bolt 31. In this case, the battery terminal 1 is located by being inserted into the space between the upper plate 20A and the lower plate 20B among the plurality of protrusions 33c of the washer 33 to form the insertion restricting portion 33d, and the upper plate 20A The one exposed to the outside of the lower plate 20B constitutes the external regulating portion 33e. That is, for example, even if the battery terminal 1 is assembled with the washer 33 rotated by 90 ° around the first width direction Y, one of the plurality of protrusions 33c constitutes the insertion restricting portion 33d and any of the other. The battery constitutes the external regulation unit 33e. As a result, the battery terminal 1 can improve the assembling workability of the washer 33 as described above.

Further, in the battery terminal 1 described above, the main body 20 is formed by the upper plate 20A and the lower plate 20B, and both the upper plate 20A and the lower plate 20B are fastened to the battery post 51. , The electrical connection can be constructed more reliably. Then, the battery terminal 1 regulates the positional deviation of the bolt 31 and the washer 33 along the second width direction Z by the bending connecting portion 20e connecting the upper plate 20A and the lower plate 20B and the regulating protrusion 20n. be able to. As a result, the battery terminal 1 can fasten the main body 20 to the battery post 51 at an appropriate position by the bolt 31, the nut 32, and the washer 33, which is also appropriate for the battery post 51. Can be fastened to.

The battery terminal according to the above-described embodiment of the present invention is not limited to the above-described embodiment, and various changes can be made within the range described in the claims.

In the above description, in the main body portion 20, a pair of annular portions 20a and 20b, a pair of holding plate-shaped portions 20c and 20d, and a bending connecting portion 20e are integrally formed by press bending of a conductive metal plate or the like. Although it has been described as being formed, it is not limited to this. For example, the main body portion 20 does not include the bending connecting portion 20e, and constitutes the upper divided body (annular portion 20a, holding plate-shaped portion 20c) and the lower plate 20B constituting the upper plate 20A in the axial direction X. It may have a two-layer split structure with a side split body (annular portion 20b, holding plate-shaped portion 20d), and may have a structure in which an upper split body and a lower split body formed as separate bodies are integrated. ..

In the above description, the washer 33 has a pair of insertion restricting portions 33d and a pair of external restricting portions 33e, that is, four protrusions 33c formed in the same shape and provided at positions symmetrical with each other. However, it is not limited to this. Further, although a plurality of protrusions 33c are provided and have been described as constituting the insertion restricting portion 33d and the external regulating portion 33e, the present invention is not limited to this. At least one protrusion 33c may be provided, and the one may form the insertion restricting portion 33d. That is, the washer 33 may have a configuration that does not have the external regulation unit 33e.

1 Battery terminal 20 Main body 20A Upper plate 20B Lower plate 20e Bending connecting part (connecting part)
20f, 20g Post insertion hole 20h, 20i Slit 20n Regulatory protrusion 30 Tightening part 31 Bolt (first fastening member)
31b Contact 32 nut (second fastening member)
33 Washer (intervening member)
33d Insertion regulation part 33e External regulation part 51 Battery post X Axial direction Y 1st width direction (tightening direction)
Z 2nd width direction (opposing direction)

Claims (3)

A post insertion hole formed by an upper plate and a lower plate facing each other along the axial direction of the battery post into which the battery post is inserted, and a main body having a slit continuous with the post insertion hole. When,
Arranged so as to extend from one end side of the main body portion to the other end side of the main body portion across the slit along the tightening direction which is a direction intersecting the axial direction and is a direction crossing the slit. A first fastening member provided with a contact portion that comes into contact with the main body portion on one end side in the tightening direction, and a second fastening member screwed to the other end side in the tightening direction of the first fastening member. The fastening member and an intervening member inserted between the other end side of the first fastening member in the tightening direction and interposed between the main body portion and the second fastening member, and the intervening member with respect to the first fastening member. A tightening portion for tightening the main body portion along the tightening direction by the contact portion and the intervening member as the second fastening member is screwed is provided.
The intervening member is interposed between the upper plate and the lower plate and can come into contact with the upper plate and the lower plate, and the side where the upper plate and the lower plate approach each other along the axial direction. An insertion restricting part that regulates deformation to , and an insertion restricting portion that is located outside the upper plate and the lower plate with respect to the axial direction and can come into contact with the upper plate or the lower plate along the axial direction. It is characterized by having an external regulating portion that regulates deformation of the upper plate and the lower plate to a side separated from each other.
Battery terminal. The insertion restricting portions are provided in pairs so as to face each other along the opposite direction intersecting the axial direction and the tightening direction.
The external regulating portions are provided in pairs along the axial direction so as to face each other.
The intervening member is point-symmetrical with respect to the insertion center of the first fastening member in the intervening member and the pair of insertion restricting portions and the pair of external restricting portions are formed in the same shape. Provided at the position,
The battery terminal according to claim 1. The main body is in contact with the intervening member on the side opposite to the connecting portion side with respect to the connecting portion connecting the upper plate and the lower plate and the intervening member, and the connecting portion side of the intervening member. Includes regulatory protrusions that regulate movement to the opposite side,
In the intervening member, with the insertion restricting portion interposed between the upper plate and the lower plate, the insertion restricting portion abuts on the connecting portion and the first fastening member moves to the connecting portion side. To regulate,
The battery terminal according to claim 1 or 2.

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