JP2004235135A - Battery terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a battery terminal in which the diameter reduction of a battery post insertion hole can be carried out surely by suppressing the undesired deformation of a battery terminal body. <P>SOLUTION: This battery terminal has a pair of receptacles 41, 41 positioned under a pair of taper parts 34, 34 and a slide-contact part of a pair of coupling parts (squeezing parts) 7, 7, and a second bolt insertion hole 40 against a bolt 30, and is provided furthermore with a plate-state second bracket 32 which is on the opposite side of a bracket 29 and between the coupling parts 7, 7 and a head 36 of the bolt 30, and which pinches the coupling parts 7, 7 as a tightening device (fastening means) 4 that constitutes the battery terminal 1 together with the bracket 29. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a battery terminal provided with a battery terminal body having a battery post insertion hole, and a fastening means for reducing the diameter of the battery post insertion hole in a radial direction.
[0002]
[Prior art]
In FIG. 20, reference numeral 101 denotes a battery terminal attached to the battery post 103 of the battery 102. The battery terminal 101 includes a battery terminal body 105 having a battery post insertion hole 104 for inserting a battery post 103, and a bolt 106 and a nut 107 for reducing the diameter of the battery post insertion hole 104. Have been. The battery terminal body 105 is provided with terminal fixing bolts 108 and nuts 109 for connecting external terminals. A cable 110 for supplying electric power to, for example, a fusible link or a starter is connected to the terminal fixing bolt 108 via an LA terminal 111.
[0003]
In such a battery terminal 101, a battery post 103 is inserted through a battery post insertion hole 104 of a battery terminal main body 105, and a bolt 106 and a nut 107 are tightened from a horizontal direction with a tool such as an impact wrench to the battery post 103. It is fixed.
[0004]
By the way, in the state where the installation components in the engine room are overcrowded in recent years, the tool easily interferes with the installation components, which affects the mounting operation of the battery terminal 101. Therefore, the applicant of the present application has studied providing a battery terminal having the following configuration and structure, and has obtained sufficient results.
[0005]
18 and 19, the battery terminal 121 which the applicant of the present invention has considered provides a battery terminal main body 124 having a battery post insertion hole 123 for inserting the battery post 122, and a diameter of the battery post insertion hole 123. And a tightening means 125 for reducing the diameter.
[0006]
The battery terminal main body 124 has a pair of annular portions 126 and 127 and a pair of joining plates 128 and 129. The pair of annular portions 126 and 127 are coupled to respective ends of a pair of connecting portions 130 and 130 as a pair of tightening portions bent in a substantially U shape, and are disposed so as to overlap in the vertical direction. I have. At the center of each of the annular portions 126 and 127, a battery post insertion hole 123 is formed. The battery post insertion hole 123 is divided at one location in the circumferential direction, and a fastening gap 131 is formed therein. Reference numeral 132 indicates a bolt insertion hole formed including the fastening gap 131.
[0007]
The pair of joining plates 128 and 129 are connected to the annular portions 126 and 127, respectively. The joining plates 128 and 129 are disposed so as to overlap in the up-down direction. Terminal fixing bolts 133 are fixed to the joining plates 128 and 129. The terminal fixing bolt 133 is connected to an LA terminal of a cable terminal.
[0008]
The tightening means 125 is for bringing the connecting portions 130 and 130 closer to each other via the tightening gap 131 to shrink the battery post insertion hole 123 in the diameter reducing direction, and includes a bracket 134, a bolt 135, and a nut 136. It is configured. The bracket 134 is arranged above the connecting portions 130, 130, and has a substrate 137 and a pair of tapered portions 138, 138 linked to both left and right ends of the substrate 137. ing. A bolt insertion hole 139 through which the bolt 135 can be inserted in the vertical direction is formed in the center of the substrate 137. The tapered portions 138 and 138 are formed in a tapered shape such that the interval gradually increases toward the tip.
[0009]
When the fastening means 125 is set with respect to the battery terminal main body 124, the substrate 137 faces the upper surfaces of the connecting parts 130 and 130, and the tapered parts 138 and 138 come into contact with both left and right ends of the connecting parts 130 and 130. It has become. In addition, the bolt 135 is inserted into the tightening gap 131 (the bolt insertion hole 132) and the bolt insertion hole 139 from below the connecting portions 130, 130. The nut 136 is adapted to be screwed to the bolt 135 on the upper side of the connecting parts 130 and 130 and the board 137.
[0010]
In the above configuration, when the nut 136 is tightened by an operation from above, the screwed state of the bolt 135 and the nut 136 advances. Then, when the bracket 134 is pressed against the connecting portions 130 and 130 by the bolts 135 and the nuts 136, the tapered portions 138 and 138 slidably contact the left and right end portions of the connecting portions 130 and 130. Thereby, the tightening force in the up-down direction is converted into the tightening force in the left-right direction, and the connecting portions 130, 130 are tightened in directions approaching each other (left-right direction). Then, the battery post insertion hole 123 shrinks in the diameter reducing direction, and the battery post insertion hole 123 comes into pressure contact with the peripheral side surface of the battery post 122. In such a state, the attachment of the battery terminal 121 is completed.
[0011]
Note that, for example, the following Patent Literatures 1 and 2 are known as battery terminals for mounting by converting a vertical tightening force into a horizontal tightening force. Further, as the battery terminal, for example, a battery terminal as described in Patent Document 3 below is also known.
[0012]
[Patent Document 1]
JP-A-6-54205 [Patent Document 2]
Japanese Patent Application Laid-Open No. 2002-184487 [Patent Document 3]
JP 2001-351604 A
[Problems to be solved by the invention]
The battery terminal 121 examined by the applicant of the present application has an effect that the interference between the tool and the installation parts around the battery can be reliably avoided, and the work relating to the installation can be facilitated. However, when the tightening force in the up-down direction is not sufficiently converted into the tightening force in the left-right direction, there is a possibility that the connecting portions 130, 130 may be deformed into an eight-shape in a front view of the battery terminal 121 (bolt). The points of action of the 135 and the bracket 134 on the connecting portions 130, 130 are different, and an eight-shaped deformation occurs such that the center line L1 of the connecting portions 130, 130 is L2. , The battery post insertion hole 123 may not be sufficiently shrunk in the diameter reducing direction).
[0014]
The present invention has been made in view of the above-described circumstances, and an object of the present invention is to provide a battery terminal capable of reliably reducing the diameter of a battery post insertion hole by suppressing undesired deformation of a battery terminal body. .
[0015]
[Means for Solving the Problems]
The battery terminal according to the present invention according to claim 1, which has been made to solve the above-mentioned problem, has an annular portion vertically formed with a partly cut part of a battery post insertion hole for inserting a battery post, And a battery terminal main body having a pair of tightening portions provided in parallel with the annular portion by providing a tightening gap communicating with the partially cut off portion, and the pair of tightening portions approaching each other via the tightening gap, and Fastening means for shrinking the battery post insertion hole in the radial direction, the fastening means comprising a board having a bolt insertion hole, and a bracket having a pair of tapered portions respectively coupled to both left and right ends of the board. When the bolt is inserted through the bolt insertion hole and operated from the upper side of the annular portion, the screwed state advances and the pair A battery terminal having a bolt and a nut for bringing a taper portion into sliding contact with the pair of tightening portions, wherein a pair of receiving members are located below a sliding contact portion between the pair of taper portions and the pair of tightening portions. And a second bolt insertion hole for the bolt, the pair of tightening portions being disposed together with the bracket on the opposite side of the bracket and between the pair of tightening portions and the head of the bolt. A second bracket to be sandwiched is further provided as the fastening means.
[0016]
The battery terminal according to claim 2 is the battery terminal according to claim 1, wherein a portion between the pair of receiving portions and the second bolt insertion hole of the second bracket and the pair of fastening portions are provided. And are brought into surface contact with each other.
[0017]
According to a third aspect of the present invention, there is provided the battery terminal according to the first or second aspect, wherein the battery terminal body is provided with a detent portion for restricting the rotation of the second bracket in the rotation direction. It is characterized by:
[0018]
A battery terminal according to a fourth aspect of the present invention is the battery terminal according to the first or second aspect, wherein the battery terminal body has a detent portion for restricting a movement of the second bracket in a rotation direction. In addition, a portion of the second bracket that abuts the detent portion, or a first bolt detent portion that restricts the movement of the head in the rotational direction is formed on the opposite side of the portion. Features.
[0019]
A battery terminal according to a fifth aspect of the present invention is the battery terminal according to the fourth aspect, wherein the second bracket has a second bolt detent portion parallel to the first bolt detent portion. It is characterized by doing.
[0020]
The battery terminal according to a sixth aspect of the present invention is the battery terminal according to any one of the first to fifth aspects, wherein the battery terminal is inserted into the second bracket between the bracket and the pair of tightening portions, and A bolt holding means having a bolt holding hole through which a bolt can be inserted and the axis of the bolt can be arranged in parallel along the axis of the battery post insertion hole is formed.
[0021]
A battery terminal according to a seventh aspect of the present invention is the battery terminal according to the sixth aspect, wherein a guide portion for guiding the bracket is formed in the bolt holding means.
[0022]
An eighth aspect of the present invention is the battery terminal according to the seventh aspect, wherein the guide portion has a function as a detent portion for restricting the rotation of the bracket in the rotation direction. And
[0023]
According to the first aspect of the present invention, the operation of the fastening means is performed from above the annular portion of the battery terminal body. The operation is started by advancing the screwing state of the bolt and the nut. As the screw and the nut advance, the bolt and the nut narrow the gap between the bracket and the second bracket, and the bracket is pressed against the pair of tightening portions. When the tapered portion of the bracket slides on the pair of tightening portions, the tightening force in the vertical direction is converted into the tightening force in the left-right direction, and the pair of tightening portions are tightened in a direction approaching each other. When the pair of tightening portions are tightened, the battery post insertion hole shrinks in the diameter reducing direction, and the battery post insertion hole comes into pressure contact with the battery post, thereby completing the mounting of the battery terminal.
Since the second bracket is disposed between the pair of tightening portions and the head of the bolt, the vertical tightening force of the bolt does not locally act on the pair of tightening portions. Also, in the sliding contact between the bracket and the pair of tightening portions, even if the vertical tightening force is not sufficiently converted to the horizontal tightening force, the pair of tightening portions may be positioned below the sliding contact portion by the second bracket. Supported by. Unintended deformation of the pair of tightening portions is suppressed, and the diameter of the battery post insertion hole is reliably reduced.
[0024]
According to the second aspect of the present invention, a portion between the pair of receiving portions and the second bolt insertion hole of the second bracket is in surface contact with the pair of tightening portions. Unnecessary space does not exist between the second bracket and the pair of tightening portions as much as possible, and unintended deformation of the pair of tightening portions is further suppressed.
[0025]
According to the third aspect of the present invention, when the second bracket attempts to rotate during the operation of the fastening means, the second bracket comes into contact with the detent portion of the battery terminal body. The rotation in the rotation direction of the second bracket is restricted by the rotation preventing portion.
[0026]
According to the fourth aspect of the present invention, when the tightening means is operated, if the second bracket tries to rotate, the second bracket comes into contact with the detent part of the battery terminal body. The rotation in the rotation direction of the second bracket is restricted by the rotation preventing portion. Also, when the head of the bolt tries to rotate during operation of the fastening means, the bolt comes into contact with the first bolt detent part of the second bracket. The movement of the head of the bolt in the rotation direction is restricted by the first bolt rotation preventing portion.
[0027]
According to the fifth aspect of the present invention, when the head of the bolt tries to rotate during the operation of the fastening means, the first bracket and the second bolt stopper of the second bracket are rotated. Abut The movement of the head of the bolt in the rotation direction is restricted by the first bolt detent part and the second bolt detent part.
[0028]
According to the present invention, when the bolt is inclined during the operation of the fastening means, the bolt comes into contact with the bolt holding hole of the bolt holding means of the second bracket. If there is an axis deviation of the bolt that cannot be sufficiently controlled by the second bolt insertion hole, it is controlled by the bolt holding hole.
[0029]
According to the present invention, when assembling the fastening means, the bracket is guided by the guide portion of the bolt holding means.
[0030]
According to the present invention, when the fastening means is assembled, the movement of the bracket in the rotation direction is restricted by the guide portion.
[0031]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an exploded perspective view showing an embodiment of the battery terminal of the present invention. 2 is an external perspective view, FIG. 3 is a front view, FIG. 4 is a side view, FIG. 5 is a bottom view, and FIG. 6 is an operation explanatory view.
[0032]
1 to 5, reference numeral 1 denotes a battery terminal wound around a known battery post 2 having a tapered peripheral surface having a tip end diameter smaller than a base end diameter. The battery terminal 1 includes a battery terminal main body 3 and a tightening device 4 (corresponding to a tightening means described in the claims) composed of a plurality of constituent members.
[0033]
The battery terminal body 3 is manufactured by pressing a conductive metal plate, and includes a pair of annular portions 5 and 6 and a pair of connecting portions 7 and 7 (the fastening portions described in the claims). And a pair of joining plates 8 and 9. Further, the battery terminal body 3 has terminal fixing bolts 10 and nuts (not shown) held by the pair of joining plates 8 and 9.
[0034]
In the present specification, the axial direction of the battery post 2 is defined as a vertical direction (coincident with the vertical direction), and the distal end of the battery post 2 is defined as upper and the proximal end is defined as lower. Therefore, it is assumed that the annular portion 5 is arranged above and the annular portion 6 is arranged below. Similarly, it is assumed that the joining plate 8 is arranged above and the joining plate 9 is arranged below.
[0035]
The annular portion 5 has a flat upper substrate 11. At substantially the center of the upper substrate 11, a battery post insertion hole 12 for inserting the battery post 2 is formed so as to penetrate vertically. In addition, engaging portions 13, 13 whose tips are directed downward are coupled to both left and right end portions of the upper substrate 11, respectively.
[0036]
The battery post insertion hole 12 is a portion that comes into contact with the peripheral side surface of the battery post 2 and is formed by being bent from the upper substrate 11 so that the tip is directed downward. The battery post insertion hole 12 is formed in a ring shape in accordance with the diameter of the battery post 2 on the tip side. Further, the battery post insertion hole 12 is formed in a state where a portion between the connecting portions 7 is separated. Reference numeral 14 indicates a partially cut portion of the battery post insertion hole 12.
[0037]
The annular portion 6 has a flat lower substrate 15. At substantially the center of the lower substrate 15, a battery post insertion hole 16 for inserting the battery post 2 is formed so as to penetrate vertically. In addition, engaging portions 17, 17 whose tips are directed downward, are coupled to both left and right end portions of the lower substrate 15, respectively. The engaging portions 17, 17 are provided with detent portions 18, 18 for a second bracket 32, which will be described later, as shown in the drawing (in the related art, the tip of the engaging portion is directed upward. In the present invention, an engaging portion 17 having a lower end is formed for the rotation preventing portion 18. The engaging portion 13 of the upper substrate 11 is longer than the conventional one, 11 and functions to maintain the space between the lower substrate 15).
[0038]
The battery post insertion hole 16 is a portion that comes into contact with the peripheral side surface of the battery post 2 and is formed by being bent from the lower substrate 15 so that the tip is directed downward. The battery post insertion hole 16 is formed in an annular shape to match the diameter of the battery post 2 on the base end side. Further, the battery post insertion hole 16 is formed in a state where a portion between the connecting portions 7 is divided. The partially cut portion of the battery post insertion hole 16 is formed in the same manner directly below the portion of the above-mentioned reference numeral 14 (the reference numeral 14 is used).
[0039]
The connecting portions 7 and 7 are portions for connecting the upper substrate 11 and the lower substrate 15 so as to vertically overlap each other with an interval therebetween, and are formed in a state of being curved in a U-shape in the front-rear direction. . That is, the front and rear ends of the connecting portions 7 and 7 are coupled to the front end of the upper substrate 11 (coupled to the left and right sides of the upper partly cut portion 14), and the front and rear and lower ends are coupled. The end portion is coupled to the front end of the lower substrate 15 (coupled to the left and right sides of the lower partly cut portion 14), and is formed so that the cross-sectional view in the front-rear direction becomes U-shaped. . The connecting portions 7, 7 are arranged side by side in the left-right direction with a fastening gap 19 communicating with the partially cut portions 14, 14.
[0040]
A bolt insertion hole 20, sliding portions 21, 21 and contact portions 22, 22 are formed in such connecting portions 7, 7. The bolt insertion hole 20 is formed including the fastening gap 19. Further, the bolt insertion hole 20 is formed so as to have a shape close to a circle when the connecting portions 7 and 7 are close to each other.
[0041]
The slidable contact portions 21 and 21 are disposed and formed at left and right ends (outer ends) of the connecting portions 7 and 7. More specifically, as shown in the drawing, the base end portions of the slidable contact portions 21 and 21 are connected to the left and right ends of the connecting portions 7 and 7 at the upper end portions thereof. The abutting portions 22, 22 and the lower surfaces of the connecting portions 7, 7, which are connected to the lower end in the left-right direction of the connecting portions 7, 7, are formed so as to be involved. The sliding portions 21, 21 are formed so as to have an inclined surface, and the tips of the abutting portions 22, 22 are hooked on inner bent portions generated to form the inclined surface. (The distal ends of the contact portions 22, 22 may be extended to make contact with the upper inner surfaces of the connecting portions 7, 7 (see FIG. 16)).
[0042]
The joining plate 8 includes a contact plate portion 23 coupled to the rear end of the upper substrate 11, and downward side walls 24, 24 (only one is illustrated) coupled to both left and right ends of the contact plate portion 23. Is configured. The contact plate portion 23 is a rectangular flat plate, and a bolt insertion hole 25 for the terminal fixing bolt 10 is formed at the center thereof. Head holding pieces 27, 27 (only one is shown) that are folded inward and hold the head 26 of the terminal fixing bolt 10 are coupled to the tip portions of the side walls 24, 24 (only one is shown).
[0043]
The joining plate 9 has a rectangular flat plate portion 28 connected to the rear end of the lower substrate 15 and side walls connected to both left and right ends of the rectangular flat plate portion 28. At the center of the rectangular flat plate portion 28, a head rotation restricting hole (not shown) is formed to penetrate the terminal fixing bolt 10 according to the outer shape of the head 26. The left and right side walls of the joining plate 9 are arranged and formed to be inside the side walls 24 and 24 of the joining plate 8.
[0044]
In addition, a connection portion to an external connection terminal (not shown) is formed by the joining plates 8 and 9, the terminal fixing bolt 10, and a nut (not shown).
[0045]
The tightening device 4 moves the connecting portions 7 and 7 closer to each other through the tightening gap 19 and shrinks the battery post insertion holes 12 and 16 in the radially-reducing direction. The bracket 29 includes a bracket 29, a bolt 30 and a nut 31. , A second bracket 32.
[0046]
The bracket 29 is arranged above the connecting portions 7, 7. The bracket 29 is formed by bending a thick metal plate having a rectangular shape in a plan view. That is, the bracket 29 is formed so as to have the substrate 33 and the pair of tapered portions 34, 34.
[0047]
A bolt insertion hole 35 through which the bolt 30 can be inserted vertically is formed in the center of the substrate 33. The tapered portions 34, 34 are coupled to both ends in the longitudinal direction of the substrate 33 (coincident with the above-mentioned left-right direction). Further, the tapered portions 34, 34 are formed in a tapered shape so that the interval gradually increases toward the tip.
[0048]
The bolt 30 is inserted through the bolt insertion hole 35, the tightening gap 19 (the bolt insertion hole 20), and a second bolt insertion hole 40 described later. The bolt 30 has its axis inserted in parallel with the axis of the battery post insertion holes 12 and 16. In the present embodiment, the head 36 of the bolt 30 is arranged on the lower substrate 15 side. The nut 31 is screwed into the bolt 30 from the upper substrate 11 side.
[0049]
The second bracket 32 is a member made of metal (a synthetic resin may be used as long as the strength can be ensured). The second bracket 32 includes a substrate 37, a first bolt rotation stopper 38, and a second bolt rotation stopper 39. It is formed to have. The substrate 37 is a rectangular flat plate, and a second bolt insertion hole 40 for the bolt 30 is formed at the center thereof. In addition, receiving portions 41, 41 are formed on both ends in the longitudinal direction (coincident with the above-mentioned left-right direction) of the substrate 37. The receiving portions 41, 41 are arranged and formed so as to be located below the sliding contact portions between the tapered portions 34, 34 of the bracket 29 and the sliding contact portions 21, 21 of the connecting portions 7, 7.
[0050]
One end of such a substrate 37 is adapted to abut against the detent portions 18 of the battery terminal body 3, and a first bolt detent portion 38 is connected to the contact portion. . The first bolt rotation preventing portion 38 is formed in a piece shape, and the head 36 of the bolt 30 comes into contact with the first bolt stopping portion 38. The second bolt rotation preventing portion 39 is in the form of a piece, and is connected to the other end of the substrate 37, that is, the side opposite to the contact portion of the rotation preventing portions 18. Further, the second bolt rotation preventing portion 39 is arranged and formed in parallel with the first bolt rotation preventing portion 38. The first bracket 32 and the second bolt stopper 39 form the second bracket 32 in a U-shape in cross section. Note that the detent part 18, the first bolt detent part 38, and the second bolt detent part 39 are formed as parts that contribute to improvement of workability.
[0051]
When the fastening device 4 is set with respect to the battery terminal body 3, the substrate 33 of the bracket 29 faces the upper surfaces of the connecting portions 7, 7, and the tapered portions 34, 34 of the bracket 29 are 21 is in contact with the inclined surface. In addition, the second bracket 32 faces each lower surface of the connecting portions 7 and 7, and comes into surface contact with the leading end portions of the sliding contact portions 21, 21 wrapped around and extending to the respective lower surfaces. . Further, the bolts 30 are connected to the second bolt insertion holes 40 of the second bracket 32, the fastening gaps 19 (the bolt insertion holes 20) of the connection portions 7, 7, and the bolt insertion holes 35 of the bracket 29 from below the connection portions 7, 7. , And the nut 31 is screwed on the upper side of the bracket 29. The bolt 30 has its axis arranged parallel to the axis of the battery post insertion holes 12 and 16.
[0052]
Next, mounting and fixing (connection) of the battery terminal 1 to the battery post 2 based on the above configuration will be described.
[0053]
1 and 6, first, the battery terminal 1 is moved downward to bring the battery post insertion holes 12 and 16 into contact with the peripheral side surface of the battery post 2. Next, the battery terminal main body 3 is arranged in a predetermined direction. Subsequently, the nut 31 is tightened from above the battery terminal body 3 using a tool (not shown) such as an impact wrench, and the operation of the tightening device 4 is started.
[0054]
In the operation of the tightening device 4, when the nut 31 is tightened, the screwed state of the bolt 30 and the nut 31 advances. When the screwing state of the bolt 30 and the nut 31 progresses, the distance between the bracket 29 and the second bracket 32 is reduced by the bolt 30 and the nut 31, and the bracket 29 is pressed against the connecting portions 7. The tapered portions 34 of the bracket 29 slidably contact the sliding portions 21 of the connecting portions 7. Thereby, the fastening force in the up-down direction is converted into the fastening force in the left-right direction, and the connecting portions 7, 7 are fastened in a direction approaching each other (left-right direction). Then, the battery post insertion holes 12 and 16 shrink in the diameter reducing direction, and the battery post insertion holes 12 and 16 are pressed against the peripheral side surface of the battery post 2 to complete the mounting of the battery terminal 1.
[0055]
As described above with reference to FIGS. 1 to 6, the second bracket 32 is disposed between the connecting portions 7 and 7 and the head 36 of the bolt 30 so that the second bracket 32 It is possible to prevent the tightening force from acting locally on the connecting portions 7,7. In addition, in the sliding contact between the bracket 29 and the connecting portions 7 and 7, even if the vertical tightening force is not sufficiently converted to the horizontal tightening force, the second bracket 32 slides the connecting portions 7 and 7. It can be supported below the contact part. Therefore, undesired deformation of the connecting portions 7, 7 can be suppressed, and the diameter of the battery post insertion holes 12, 16 can be reliably reduced. The battery terminal 1 of the present invention can surely avoid interference between the above-mentioned tool (not shown) and an installation component (not shown) around the battery, and can also facilitate connection-related work (attachment-related work).
[0056]
It should be noted that the same effect can be obtained by using a second bracket as shown in FIGS. 7 to 9 in place of the second bracket 32 (FIG. The second bracket 32a formed, FIG. 8 shows the second bracket 32b formed by the board 37 and the second bolt rotation stopper 39, and FIG. 9 shows the second bracket 32c formed only by the board 37). Further, the distal end portions 42, 42 of the sliding contact portions 21, 21 are extended inward as shown in FIG. 10, and the second bracket 32 and the connecting portions 7, 7 (the distal end portions 42, 42) are brought into surface contact with each other. It is a preferable embodiment that unnecessary space between the two brackets 32 and the connecting portions 7 is reduced as much as possible to further suppress undesired deformation of the connecting portions 7.
[0057]
Next, another embodiment of the battery terminal according to the present invention will be described with reference to FIGS. 11 is an exploded perspective view showing another embodiment, FIG. 12 is an external perspective view, FIG. 13 is a plan view, FIG. 14 is a front view, FIG. 15 is a side view, and FIG. 16 is a line AA in FIG. It is sectional drawing. It is to be noted that the same reference numerals are given to basically the same configuration as the above-described embodiment, and the detailed description thereof will be omitted.
[0058]
11 to 16, reference numeral 51 indicates a battery terminal wound around the battery post 2. The battery terminal 51 includes the battery terminal body 3 and a fastening device 52 (corresponding to fastening means described in the claims) including a plurality of components.
[0059]
As described above, the fastening device 52 brings the connecting portions 7 and 7 closer to each other through the fastening gap 19 and shrinks the battery post insertion holes 12 and 16 in the radial direction. It has a nut 31 and a second bracket 53.
[0060]
The second bracket 53 is a member made of metal (a synthetic resin may be used as long as the strength can be ensured), and is formed so as to include the substrate 37, the first bolt rotation preventing portion 38, and the bolt holding means 54. Have been. The board 37 has a second bolt insertion hole 40 and receiving parts 41, 41, and a contact portion (one end of the board 37) with which the detents 18, 18 of the battery terminal body 3 abut is provided. A bolt rotation stopper 38 is formed. The receiving portions 41, 41 are arranged and formed so as to be located below a sliding contact portion between the tapered portions 34, 34 of the bracket 29 and the sliding contact portions 21, 21 of the connecting portions 7, 7.
[0061]
The bolt holding means 54 is connected to the other end of the substrate 37, that is, the side opposite to the abutting portion of the detent portions 18. Further, the bolt holding means 54 is connected to the opposite side of the contact portion and is formed in front of the connecting portions 7, 7 of the battery terminal body 3, and is connected to the base portion 55. It is formed so as to have a bolt holding portion 56 formed between the bracket 29 and the upper surfaces of the connecting portions 7 and 7.
[0062]
A bolt holding hole 57 is formed in the bolt holding portion 56 so that the axis of the bolt 30 can be arranged in parallel along the axis of the battery post insertion holes 12 and 16. Also straddles the proximal end portion 55). Guide portions 58, 58 for guiding the bracket 29 are formed in the bolt holding portion 56. The guide portions 58 are formed by bending the ends of the bolt holding portions 56 upward. The guide portions 58 are formed above the first bolt rotation preventing portion 38. The guides 58, 58 can be set arbitrarily (when set, the workability is improved. In the case of a pair as in the present embodiment, the guides 58, 58 also function as detents for the bracket 29). Do).
[0063]
When the fastening device 52 is set with respect to the battery terminal main body 3, the substrate 33 of the bracket 29 faces the upper surfaces of the connecting portions 7, 7, and the tapered portions 34, 34 of the bracket 29 engage the sliding contact portion 21. 21 is in contact with the inclined surface. Further, the second bracket 53 is opposed to each lower surface of the connecting portions 7 and 7 and comes into surface contact with the leading end portions of the sliding contact portions 21, 21 which are wound up and extended to the respective lower surfaces. . Further, the bolt holding portion 56 of the second bracket 53 is inserted between the bracket 29 and each of the upper surfaces of the connecting portions 7, 7, so that the bracket 29 is guided. Furthermore, the bolts 30 are connected to the second bolt insertion hole 40 of the second bracket 53 from the lower side of the connection portions 7, 7, the tightening gap 19 (the bolt insertion hole 20) of the connection portions 7, 7, and the bolt holding of the second bracket 53. The nut 31 is inserted into the hole 57 and the bolt insertion hole 35 of the bracket 29, and the nut 31 is screwed on the upper side of the bracket 29. The axis of the bolt 30 is arranged in parallel with the axis of the battery post insertion holes 12 and 16 by the bolt holding hole 57 of the second bracket 53.
[0064]
Next, mounting and fixing (connection) of the battery terminal 51 to the battery post 2 based on the above configuration will be described.
[0065]
First, the battery terminal 51 is moved downward to bring the battery post insertion holes 12 and 16 into contact with the peripheral side surface of the battery post 2. Next, the battery terminal main body 3 is arranged in a predetermined direction. Subsequently, the nut 31 is tightened from above the battery terminal body 3 using a tool (not shown) such as an impact wrench, and the operation of the tightening device 52 is started.
[0066]
In the operation of the tightening device 52, when the nut 31 is tightened, the screwed state of the bolt 30 and the nut 31 advances. Then, as the screw 30 and the nut 31 are screwed together, the distance between the bracket 29 and the second bracket 53 is reduced by the bolt 30 and the nut 31, and the bracket 29 is connected while being guided by the guide portions 58, 58. The tapered portions 34 of the bracket 29 slidably contact the slidable contact portions 21 of the connecting portions 7. Thereby, the fastening force in the up-down direction is converted into the fastening force in the left-right direction, and the connecting portions 7, 7 are fastened in a direction approaching each other (left-right direction). Then, the battery post insertion holes 12 and 16 are contracted in the diameter reducing direction, and the battery post insertion holes 12 and 16 are pressed against the peripheral side surface of the battery post 2, and the mounting of the battery terminal 51 is completed.
[0067]
As described above, the battery terminal 51 has the same effect as the battery terminal 1 described above, that is, the effect of suppressing undesired deformation of the connecting portions 7 and 7 and reliably reducing the diameter of the battery post insertion holes 12 and 16. To play. Further, there is an effect that the interference between the above-mentioned tool (not shown) and the installation parts (not shown) around the battery can be reliably avoided, and the work relating to the connection (the work relating to the attachment) can be facilitated.
[0068]
Although the guide portions 58 of the second bracket 53 are formed by bending the ends of the bolt holding portions 56 upward, they may be arranged and formed in the following portions. FIG. 17 is a perspective view showing another example of the second bracket 53. In FIG. 17, guide portions 58 'and 58' are disposed on the left and right sides of a base end portion 55 'of the bolt holding means 54'. Have been.
[0069]
More specifically, another example of the second bracket 53 (see FIG. 11) will be described. The second bracket 53 'includes a substrate 37, a first bolt rotation preventing portion 38, and bolt holding means 54'. (Basically the same components are denoted by the same reference numerals, and detailed description thereof is omitted.)
[0070]
The bolt holding means 54 ′ is connected to the other end of the substrate 37 (the side opposite to the first bolt rotation preventing part 38), and a base end portion where the guide parts 58 ′ and 58 ′ are connected to both left and right sides. 55 'and a bolt retaining portion 56' coupled to the proximal portion 55 '. The base end portion 55 ′ is disposed and formed in front of the connecting portions 7 of the battery terminal body 3. Further, the bolt holding portion 56 'is formed so as to be inserted between the bracket 29 and the upper surfaces of the connecting portions 7, 7. A bolt holding hole 57 is formed in the bolt holding portion 56 '.
[0071]
The guide portions 58 ', 58' are formed such that their tips face upward. The guide portions 58 ', 58' are formed to have appropriate lengths. Such guide portions 58 ', 58' are formed to guide the bracket 29 to improve workability. It is also formed to restrict the movement of the bracket 29 in the rotation direction. (By forming the guide portions 58 ′ and 58 ′ at the above positions, the number of bending steps is reduced as compared with the second bracket 53. There is also an advantage).
[0072]
In addition, it goes without saying that the present invention can be variously modified and implemented without departing from the gist of the present invention. That is, the positions of the bracket 29 and the second bracket 32 (53, 53 ') may be inverted.
[0073]
【The invention's effect】
As described above, according to the first aspect of the present invention, there is an effect that the diameter of the battery post insertion hole can be reliably reduced while suppressing undesired deformation of the battery terminal body.
[0074]
According to the second aspect of the present invention, the following effect can be obtained in addition to the effect of the first aspect. That is, there is an effect that unintended deformation of the battery terminal body can be further suppressed.
[0075]
According to the third aspect of the present invention, the following effect can be obtained in addition to the effects of the first or second aspect of the invention. That is, there is an effect that the work can be easily performed by stopping the rotation of the second bracket.
[0076]
According to the present invention described in claim 4, in addition to the effects of the invention of claim 1 or 2, the following effects are also exhibited. That is, there is an effect that the work can be easily performed by stopping the rotation of the second bracket and the bolt.
[0077]
According to the fifth aspect of the present invention, the following effect is also obtained in addition to the effect of the fourth aspect. That is, there is an effect that the bolt can be more securely stopped from rotating.
[0078]
According to the present invention described in claim 6, in addition to the effects of any one of claims 1 to 5, the following effects are also achieved. That is, there is an effect that the work can be easily performed by restricting the axial deviation of the bolt.
[0079]
According to the present invention described in claim 7, in addition to the effect of the invention of claim 6, the following effect is also obtained. That is, there is an effect that the bracket can be guided to facilitate the work when assembling the fastening means.
[0080]
According to the present invention described in claim 8, in addition to the effects of the invention of claim 7, the following effects are also exhibited. That is, when assembling the fastening means, there is an effect that the movement in the rotation direction of the bracket can be regulated to facilitate the work.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view showing an embodiment of a battery terminal according to the present invention.
FIG. 2 is an external perspective view of a battery terminal.
FIG. 3 is a front view of a battery terminal.
FIG. 4 is a side view of a battery terminal.
FIG. 5 is a bottom view of the battery terminal.
FIG. 6 is an explanatory diagram of an operation of a battery terminal.
FIG. 7 is a perspective view showing another example (second example) of the second bracket.
FIG. 8 is a perspective view showing still another example (third example) of the second bracket.
FIG. 9 is a perspective view showing still another example (fourth example) of the second bracket.
FIG. 10 is a main part enlarged view showing another example (second example) of a pair of fastening portions.
FIG. 11 is an exploded perspective view showing another embodiment of the battery terminal according to the present invention.
FIG. 12 is an external perspective view of the battery terminal of FIG.
FIG. 13 is a plan view of the battery terminal of FIG. 11;
FIG. 14 is a front view of the battery terminal of FIG. 11;
FIG. 15 is a side view of the battery terminal of FIG. 11;
16 is a sectional view taken along line AA of FIG.
FIG. 17 is a perspective view showing another example of the second bracket of FIG. 11;
18 is an exploded perspective view of a battery terminal studied to solve the problem of the conventional example of FIG.
FIG. 19 is a front view of the battery terminal of FIG. 18.
FIG. 20 is an exploded perspective view of a conventional battery terminal.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Battery terminal 2 Battery post 3 Battery terminal main body 4 Fastening device (fastening means)
5, 6 Annular part 7 Connecting part (tightening part)
8, 9 Bonding plate 10 Terminal fixing bolt 11 Upper substrate 12, 16 Battery post insertion hole 13, 17 Engagement part 14 Partially cut part 15 Lower substrate 18 Detent stop 19 Tightening gap 20 Bolt insertion hole 21 Sliding contact part 22 Contact part 23 Contact plate part 24 Side wall 25 Bolt insertion hole 26 Head 27 Head holding piece 28 Rectangular plate part 29 Bracket 30 Bolt 31 Nut 32 Second bracket 33 Board 34 Tapered part 35 Bolt insertion hole 36 Head 37 Board 38 first bolt detent part 39 second bolt detent part 40 second bolt insertion hole 41 receiving part 42 tip part 51 battery terminal 52 fastening device (fastening means)
53, 53 'Second bracket 54, 54' Bolt holding means 55, 55 'Base end portion 56, 56' Bolt holding portion 57 Bolt holding hole 58, 58 'Guide portion

Claims (8)

An annular portion formed in a vertical direction with a partly cut part of a battery post insertion hole for inserting a battery post, and a fastening gap communicating with the partly cut part is provided to the annular part. A battery terminal body having a pair of tightening portions arranged in parallel, and tightening means for reducing the diameter of the battery post insertion hole by bringing the pair of tightening portions closer to each other through the tightening gap,
The fastening means includes a board having a bolt insertion hole, a bracket having a pair of tapered portions respectively connected to both left and right ends of the board, and a bracket inserted through the bolt insertion hole and from above the annular portion. A battery terminal having a bolt and a nut that, when operated, advance a threaded state and slide the pair of tapered portions against the pair of tightening portions,
It has a pair of receiving portions located below a sliding portion between the pair of tapered portions and the pair of tightening portions, and a second bolt insertion hole for the bolt, and is opposite to the bracket and the pair of tightening portions. The battery terminal according to claim 1, further comprising a second bracket disposed between the unit and the head of the bolt, the second bracket sandwiching the pair of tightening parts together with the bracket. The battery terminal according to claim 1,
A battery terminal, wherein a portion of the second bracket between the pair of receiving portions and the second bolt insertion hole is in surface contact with the pair of fastening portions. The battery terminal according to claim 1 or 2,
A battery terminal, wherein a detent part for restricting movement of the second bracket in a rotation direction is formed in the battery terminal body. The battery terminal according to claim 1 or 2,
A detent portion for restricting the rotation of the second bracket in the rotation direction is formed on the battery terminal body,
A portion where the second bracket comes into contact with the detent portion, or on the opposite side of the portion, a first bolt detent portion that regulates movement of the head in the rotational direction of the head is formed. Battery terminal. The battery terminal according to claim 4,
A battery terminal, wherein a second bolt detent part parallel to the first bolt detent part is formed on the second bracket. The battery terminal according to any one of claims 1 to 5,
The second bracket may be inserted between the bracket and the pair of tightening portions, and the bolt may be inserted into the second bracket so that an axis of the bolt is arranged in parallel with an axis of the battery post insertion hole. A battery terminal formed with bolt holding means having a simple bolt holding hole. The battery terminal according to claim 6,
A battery terminal, wherein a guide portion for guiding the bracket is formed on the bolt holding means. The battery terminal according to claim 7,
A battery terminal, wherein the guide portion has a function as a detent portion that restricts movement of the bracket in the rotation direction.

Images