JP3800487B2 - Battery terminal connection structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a battery terminal connection structure in which a battery terminal is fastened and fixed to a battery mounted on a vehicle or the like with a screw member. Specifically, in order to realize regulation of a terminal connection direction and prevention of erroneous connection. It is about improvement.
[0002]
[Prior art]
8 and 9 show a conventional example of a battery terminal connection structure in which a battery terminal connected to various electrical components is fastened and fixed to a battery terminal of a battery mounted on a vehicle or the like with a screw member. It is.
The battery terminal connection structure shown here is disclosed in Japanese Patent Application Laid-Open No. 4-220947. The positive and negative battery terminals 3 and 4 of the battery 1 are connected to the base 3a, This is a structure in which square post posts 3b and 4b are erected on 4a.
Each post 3b, 4b is formed with a flat contact surface 6, 7 at the tip, and screw holes 8, 9 are formed on the contact surfaces 6, 7 for screwing a battery terminal to be described later. Yes. The screw holes 8 and 9 are eccentrically provided in different directions from the center of each contact surface so that the equipment positions are different between the + pole and the − pole.
[0003]
The battery terminals 11 and 12 are erected on the flat plate portions 11a and 12a to be brought into contact with the contact surfaces 6 and 7 at the tips of the posts 3b and 4b, and the post portions 3b and 4b. Abutting wall portions 11b and 12b that abut on the side surfaces of the wires, and wire crimping portions 11c and 12c for crimping and connecting the wires 16 and 17 to each other. The flat plate portions 11a and 12a are provided with screw insertion holes 14 and 15 at eccentric positions corresponding to the screw holes 8 and 9 of the connection target electrode.
[0004]
[Problems to be solved by the invention]
In the battery terminal connection structure described above, the flat portions 11a and 12a of the battery terminals 11 and 12 are connected to the post 3b so that the screw insertion holes 14 and 15 are aligned with the screw holes 8 and 9 on the posts 3b and 4b. , 4b, the contact wall portions 11b, 12b are hooked on the corners of the posts 3b, 4b and function as detents. Therefore, when the bolts 19 that are screwed into the screw holes 8 and 9 are fastened, the battery terminals 11 and 12 are restricted so as not to rotate with respect to the posts 3b and 4b, thereby preventing the displacement in the connecting direction.
In addition, as described above, the battery terminals 11 and 12 are connected to the opposite electrodes by mistake because the mounting positions of the screw insertion holes 14 and 15 are different between the + pole and the − pole as described above. It is also possible to prevent erroneous connection.
[0005]
However, in the conventional battery terminal connection structure described above, the battery terminals 11 and 12 until the tightening of the bolts 19 is completed in order for the contact wall portions 11b and 12b to function effectively as detents. In order to prevent the flat plate portions 11a and 12a from floating from the contact surfaces 6 and 7 of the posts 3b and 4b, the battery terminals 11 and 12 must be maintained in a temporarily fixed state pressed against the posts 3b and 4b. .
If one hand is blocked to hold down the battery terminals 11 and 12, it is difficult to perform the fastening operation of the bolt 19 in a narrow place, and there is a problem that workability is poor.
[0006]
Further, when the bolts 19 are attached, they are constantly urged so that the contact wall portions 11b, 12b of the battery terminals 11, 12 are properly in contact with the side surfaces of the posts 3b, 4b. Otherwise, the flat plate portions 11a and 12a slide on the contact surfaces 6 and 7, the positions of the screw insertion holes 14 and 15 are shifted from the positions of the screw holes 8 and 9, and the bolt 19 cannot be inserted. Inconvenience that the set bolt 19 falls.
[0007]
The present invention has been made in view of the above circumstances, and without restricting the structure of the battery terminal and the battery terminal, achieves regulation of the terminal connection direction and prevention of erroneous connection to the reverse electrode, Another object of the present invention is to provide a battery terminal connection structure that facilitates reliable fixing of a battery terminal and can shorten the working time.
[0008]
[Means for Solving the Problems]
  In order to achieve the above object, the battery terminal connection structure according to claim 1 of the present invention comprises a battery with positive and negative electrode terminals, a pedestal provided with a flat contact surface at the tip,A cylindrical post that protrudes from the contact surface at the tip of the pedestal and is engraved with a male screwAnd a battery terminal that is connected to each battery terminal with a slit on one side of each pedestal so that the positions for the + and -poles are opposite to the post. Is connected to the flat plate portion that is erected on one side edge of the flat plate portion according to the slit position of the pedestal of the connection target electrode, and a flat plate portion in which a post insertion hole corresponding to the outer diameter of the post is formed. A positioning rib that is press-fitted into the slit when being brought into contact with the tip contact surface of the pedestal of the target electrode, and an erroneous assembly detection rib that is erected on the other side edge of the flat plate portion in a direction opposite to the positioning rib. And each battery terminal is fastened and fixed to the base of the connection target electrode by a nut member screwed into the post after the post of the connection target electrode is inserted into the post insertion hole of the flat plate portion.
[0009]
When each battery terminal is inserted into the post insertion hole and the post of the battery terminal is inserted, if the post is for the connection target electrode, the post is made until the flat plate portion comes into contact with the contact surface of the base of the connection target electrode. When the post can be inserted until the flat plate part comes into contact with the contact surface of the electrode base to be connected, the positioning rib provided on the battery terminal is provided with the slit provided on the battery terminal base. At the same time, the battery terminal is fitted and fixed on the post by the engagement force generated by the press-fitting of the positioning rib and the slit.
In this temporarily fixed state, even if the battery terminal is not pressed against the battery terminal, the battery terminal is not displaced. Therefore, after the temporarily fixed state, the screwing operation of the nut member to the post and the tightening operation by the nut member can use both vacant hands and are easy to perform.
[0010]
On the other hand, when the post of the battery terminal is inserted into the post insertion hole of the battery terminal, if the post is not an electrode to be connected, either the positioning rib or the misassembly detection rib hits the tip surface of the base, and the flat plate of the battery terminal The part is inclined with respect to the contact surface of the pedestal, and as a result, it is impossible to insert the post until the flat part of the battery terminal contacts the contact surface of the pedestal of the connection target electrode. Since an error in selecting the target electrode is found, erroneous connection between the battery terminal and the connection target electrode can be prevented.
[0011]
  The battery terminal connection structure according to claim 2, wherein the battery terminal of the positive electrode and the negative electrode of the battery has a pedestal provided with a flat contact surface at the tip,A cylindrical post that protrudes from the contact surface at the tip of the pedestal and is engraved with a male screwIn addition, each pedestal is equipped with a slit so that the position is different for the positive electrode and the negative electrode, or the number is different, and the battery is connected to each battery terminal. The terminal for the flat plate portion through which the post insertion hole corresponding to the outer diameter of the post is formed, and the side edge of the flat plate portion is erected on the side edge of the flat plate portion according to the slit position and the number of slits of the pedestal of the connection target electrode. And a positioning rib that is press-fitted into the slit when the flat plate portion is brought into contact with the contact surface of the base of the connection target electrode, and each battery terminal inserts the post of the connection target electrode into the post insertion hole of the flat plate portion. Thereafter, the nut member is screwed to the post and is fastened and fixed to the base of the connection target electrode.
[0012]
In this battery terminal connection structure, when each battery terminal is inserted into the post insertion hole and the post of the battery terminal is inserted, if the post is of an electrode to be connected, the battery terminal according to claim 1 described above. Similar to the terminal connection structure, the positioning ribs provided on the battery terminal can be press-fitted into the slits provided on the battery terminal pedestal to prevent rotation, and at the same time, the engagement force by the press-fitting of the positioning ribs and slits on the post Thus, the battery terminal is fitted and fixed temporarily.
Then, after the temporary fixing state, the screwing operation of the nut member to the post and the tightening operation by the nut member can use both empty hands and are easy to perform.
[0013]
On the other hand, when the post of the battery terminal is inserted into the post insertion hole of the battery terminal, if the post is not an electrode to be connected, the positioning rib is erroneously assembled in the battery terminal connection structure according to claim 1 described above. Since it also hits the tip surface of the pedestal also serving as a detection rib, it becomes impossible to insert the post until the flat part of the battery terminal comes into contact with the contact surface of the pedestal of the connection target electrode. An error is found and erroneous connection between the battery terminal and the connection target electrode can be prevented.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Preferred embodiments of a battery terminal connection structure according to the present invention will be described below in detail with reference to the drawings.
1 to 3 show a first embodiment of a battery terminal connection structure according to the present invention. FIG. 1 is an enlarged perspective view of a main part of the battery terminal connection structure, and FIG. Fig. 3 is an enlarged vertical cross-sectional view of the connection state between the positive electrode battery terminal and the battery terminal shown in Fig. 3, and Fig. 3 shows a case where the battery terminal shown in Fig. 1 is connected to a battery terminal having a polarity opposite to that of the normal one. It is an operation explanatory view.
[0015]
The battery terminal connection structure of this embodiment includes a positive electrode terminal 21 and a positive electrode terminal 22 that serve as power supply terminals for an electric circuit mounted on a vehicle, a positive electrode battery terminal 26 of an in-vehicle battery 24, and -It is fastened and fixed to the battery terminal 28 for electrodes by the nut members 36 and 37, respectively.
[0016]
The battery terminals 26, 28 are configured to include pedestals 30, 31 mounted on the upper surface of the battery body 29, and cylindrical posts 33, 34 projecting vertically from the pedestals 30, 31.
In the case of the present embodiment, the pedestals 30 and 31 have a quadrangular shape in plan view, and the tip surfaces (upper surfaces) 30a and 31a are flat contact surfaces.
A slit 35 is provided on one side of each of the pedestals 30 and 31 so that the positions with respect to the posts 33 and 34 are opposite to each other for the positive electrode and the negative electrode.
[0017]
The posts 33 and 34 are screw members in which male screws 33a and 34a are engraved on the outer periphery. The posts 33 and 34 are erected at the center of the contact surfaces 30a and 31a of the bases 30 and 31, and are integrated with the bases 30 and 31 by a conductive material. Is formed. In the case of the present embodiment, the male screws 33a and 34a have the same nominal diameter.
[0018]
The battery terminals 21 and 22 connected to the battery terminals 26 and 28 have flat plate portions 21a and 22a that are brought into contact with the contact surfaces 30a and 31a of the pedestals 30 and 31 and slits 35 with respect to the pedestal of the connection target electrode. Corresponding to the position, the flat plate portions 21a and 22a are mounted on one side edge in a standing state, and the flat plate portions 21a and 22a are brought into contact with the contact surfaces 30a and 31a of the pedestal of the connection target electrode in parallel with each other. The positioning ribs 21b and 22b that are press-fitted into the slit 35 and the positioning ribs 21b and 22b on the other side edges of the flat plate portions 21a and 22a are installed in an upright manner with the protruding directions opposite to each other. And wire crimping portions 21d and 22d for crimping and connecting the wires 40 and 41.
Post insertion holes 43 and 44 are formed through the flat plate portions 21a and 22a according to the outer diameters of the posts 33 and 34 of the connection target electrodes.
[0019]
  In each of the battery terminals 21 and 22 described above, the post electrodes 33 and 34 of the connection target electrodes are inserted into the post insertion holes 43 and 44 of the flat plate portions 21a and 22a, and the flat plate portions 21a and 22a are brought into contact with the bases 30 and 31. After contacting the surfaces 30a and 31a in parallel with each other, they are screwed into the posts 33 and 34.The nut members 36 and 37 are fastened and fixed to the bases 30 and 31 of the connection target electrodes.
[0020]
According to the above configuration, the battery terminals 21 and 22 are provided with the positioning ribs 21b and 22b upright on one side edge of the flat plate portions 21a and 22a, and the projection ribs on the other side edges of the flat plate portions 21a and 22a. 21b and 22b have a relatively simple structure in which the wrong assembly detection ribs 21c and 22c are installed upright, and the battery terminals 26 and 28 are also cylindrical posts on the pedestals 30 and 31. This is a relatively simple structure having only 33 and 34 and a slit 35 located on one side of the posts 33 and 34.
[0021]
When each of the battery terminals 21 and 22 is inserted into the post insertion holes 43 and 44 of the flat plate portions 21a and 22a and the posts 33 and 34 of the battery terminals 26 and 28 are inserted, the posts 33 and 34 are of the connection target electrodes. If so, the posts 33 and 34 can be inserted until the flat plate portions 21a and 22a contact the contact surfaces 30a and 31a of the bases 30 and 31 of the connection target electrodes in a state of being parallel to each other.
[0022]
When the posts 33 and 34 are inserted until the flat plate portions 21a and 22a come into contact with the contact surfaces 30a and 31a of the bases 30 and 31 of the connection target electrodes, the positioning ribs 21b and 22b of the battery terminal are connected to the battery terminals 26 and 26, respectively. It is press-fitted into the slit 35 provided in the 28 pedestals 30 and 31 to prevent rotation. At the same time, the battery terminals 21 and 22 are fitted and fixed on the posts 33 and 34 by the engaging force generated by press-fitting the positioning ribs 21b and 22b and the slit 35.
In this temporarily fixed state, even if the battery terminals 21 and 22 are not pressed against the battery terminals 26 and 28, the battery terminals 21 and 22 are not displaced. Therefore, after the temporarily fixed state, the screwing operation of the nut members 36 and 37 to the posts 33 and 34 and the tightening operation with the nut members 36 and 37 can be performed using both free hands. Easy to do.
[0023]
On the other hand, when the posts 33 and 34 of the battery terminals 26 and 28 are inserted into the post insertion holes 43 and 44 of the battery terminal, if the posts 33 and 34 are not connection target electrodes, the positioning ribs 21b and 22b or the erroneous assembly detection ribs are used. One of 21c and 22c hits the tip of pedestal 30 and 31, and flat part 21a and 22a of a battery terminal will be in the state where it inclined with respect to contact surfaces 30a and 31a of pedestal 30 and 31, and eventually, the terminal of battery terminal Since it becomes impossible to insert the posts 33 and 34 into the flat plate portions 21a and 22a and it is determined that the selection of the connection target electrode is wrong, it is possible to prevent the occurrence of erroneous connection.
The case where the erroneous assembly detection ribs 21c and 22c are in contact with the front end surface of the pedestal is a case where the battery terminal is turned upside down and an attempt is made to connect to the wrong electrode.
[0024]
That is, according to the above configuration, it is possible to realize restriction of the terminal connection direction and prevention of erroneous connection to the reverse electrode without complicating the structure of the battery terminals 26 and 28 and the battery terminal. .
In addition, one hand is not obstructed to hold down the battery terminals 21 and 22 during the tightening operation with screws, and the tightening operation with screws can be performed with both hands. Since inconveniences such as dropping of screw parts do not occur due to misalignment, it is possible to easily fix the battery terminal and shorten the working time.
[0025]
In the above embodiment, the pedestals 30 and 31 and the posts 33 and 34 constituting one battery terminal 26 and 28 have an integral structure made of a conductive material. However, each is individually formed of a conductive material. It is also possible to assemble them together to form an electrically connected integrated structure.
Further, the pedestals 30 and 31 do not have to be an integral structure made of a conductive material. For example, only a part of the front end surface with which the flat plate portions 21a and 22a of the battery terminal are in direct contact is formed of a conductive material. The other part may be formed of an insulating material.
[0026]
Further, the relationship between the slit and the positioning rib is not limited to the above embodiment, and various structures can be adopted.
Next, another embodiment of the battery terminal connection structure according to the present invention will be described.
FIG. 4 is an enlarged perspective view of a main part showing a second embodiment of the battery terminal connection structure according to the present invention.
In each embodiment shown below, the setting position and the number of equipment of the positioning rib and the slit are different from those shown in the previous embodiment, and the positioning rib also serves as an erroneous assembly detection rib. It is also a thing.
[0027]
In this embodiment, the battery terminals 126 and 128 include pedestals 130 and 131 provided on the upper surface of the battery main body 129 and column-shaped posts 133 and 134 that project vertically from the respective pedestals 130 and 131. This is a configuration provided.
In the case of the present embodiment, the pedestals 130 and 131 have a quadrangular shape in plan view, and the tip surfaces (upper surfaces) 130a and 131a are flat contact surfaces.
Each of the pedestals 130 and 131 is provided with two pairs of slits 135 having a pair configuration that are set so that the positions are different for the + and -poles.
[0028]
  That is, at the battery terminal 126, positions on both sides of the pedestal 130 sandwiching the post 133 and approaching the battery body 129, respectively.(Right side in Fig. 4)Two sets of slits 135 are equipped. One set of slits 135 is connected to the positive electrode and negative electrode battery terminals 121 and 122, which will be described later, and the other set of slits 135 is connected to the battery terminals 121 and 122. The connection direction can be restricted so as to face each other. In the battery terminal 128, positions on both sides of the pedestal 131 that sandwich the post 134, and positions away from the battery body 129 ((Upward in Fig. 4)Two sets of slits 135 are equipped. One set of slits 135 is related to the above-described slit 135 of the battery terminal 126, and the other set of slits 135 is set so that the connection directions of the battery terminals 121 and 122 for the positive electrode and the negative electrode are parallel to each other. The slit 135 can regulate the connection direction of the battery terminals 121 and 122 so as to face each other.
[0029]
The battery terminals 121 and 122 connected to the battery terminals 126 and 128 are erected on both side edges of the flat plate portions 121a and 122a corresponding to the positions of the flat plate portions 121a and 122a and the slit 135 with respect to the base of the connection target electrode. Positioning ribs 121b and 122b that are press-fitted into the slit 135 when the flat plate portions 121a and 122a are brought into contact with the contact surfaces 130a and 131a of the pedestal of the connection target electrode in parallel with each other; 141 is a structure having wire crimping portions 121d and 122d to which 141 is crimped.
That is, the battery terminal 121 has a pair of positioning ribs 121b that are installed in a standing state with the protruding direction in the same direction at positions near the leading ends of both side edges of the flat plate portion 121a. This is a structure having a pair of positioning ribs 122b mounted in an upright state with the protruding direction in the same direction at a position near the rear end on both side edges of the flat plate portion 122a.
[0030]
In each of the battery terminals 121 and 122 described above, the connection target electrode posts 133 and 134 are inserted into the post insertion holes 143 and 144 of the flat plate portions 121a and 122a, and the flat plate portions 121a and 122a are parallel to the bases 130 and 131. Then, the nut members 136 and 137 screwed to the posts 133 and 134 are fastened and fixed to the bases 130 and 131 of the connection target electrodes.
[0031]
When the battery terminals 121 and 122 are applied to connection target electrodes, the positioning ribs 121b and 122b can be press-fitted into the respective slits 135. The positioning ribs 121b and 122b are press-fitted into the slits 135 of the battery terminals 126 and 128 to prevent rotation. At the same time, the battery terminals 121 and 122 can be maintained in a temporarily fixed state in which the battery terminals 121 and 122 are fitted and fixed on the posts 133 and 134 by the engaging force generated by press-fitting the positioning ribs 121 b and 122 b and the slit 135.
[0032]
On the other hand, when the application of the battery terminals 121 and 122 is not an electrode to be connected, the positioning ribs 121b and 122b hit the tips of the bases 130 and 131, and the battery terminals 121 and 122 are inclined with respect to the bases 130 and 131. Since the selection of the connection target electrode is found to be wrong, it is possible to prevent the occurrence of erroneous connection.
[0033]
FIG. 5 is an enlarged perspective view of a main part showing a third embodiment of the battery terminal connection structure according to the present invention.
In this embodiment, the battery terminals 226 and 228 include pedestals 230 and 231 mounted on the upper surface of the battery main body 229 and column-shaped posts 233 and 234 projecting vertically from the respective pedestals 230 and 231. This is a configuration provided.
The pedestals 230 and 231 are equipped with slits 235a and 235b, which are set so that the numbers are different for the + and -poles.
[0034]
  That is, at the battery terminal 226, the position of the base 230 close to the battery body 129.(Right side in Fig. 5)Each side edge is provided with a slit 235a. One slit 235a is connected to the battery terminals 221 and 222 for positive and negative electrodes, which will be described later, so that the connection directions of the battery terminals 221 and 222 are parallel to each other. It can be regulated to face each other. At the battery terminal 228, the position of the base 231 close to the battery body 229(Lower in Fig. 5)Are provided with two sets of slits 235b formed shorter than the slits 235a in the battery terminal 226 described above. One set of slits 235b is related to the above-described slit 235a in the battery terminal 226, and the other set of slits so that the connecting directions of the battery terminals 221 and 222 for the positive electrode and the negative electrode are parallel to each other. 235b can be regulated so that the connection directions of the battery terminals 221 and 222 face each other.
[0035]
The battery terminals 221 and 222 connected to the battery terminals 226 and 228 have flat plate portions 221a and 222a and flat plate portions 221a and 222a corresponding to the set positions and the number of slits 235a and 235b with respect to the base of the connection target electrode. Positioning ribs 221b and 222b that are installed in a standing state at 222a and press-fitted into slits 235a and 235b of the base of the connection target electrode, and wire crimping portions 221d and 222d for crimping and connecting the wires 240 and 241, respectively. Structure. In other words, the battery terminal 221 has one positioning rib 221b mounted in a standing state on the front end side edge of the flat plate portion 221a, and the battery terminal 222 stands up on the front end side edge of the flat plate portion 222a. This is a structure having a pair of positioning ribs 222b equipped in the state.
[0036]
Also in the above configuration, the positioning ribs 221b and 222b are press-fitted into the slits 235a and 235b of the battery terminals 226 and 228, respectively, to prevent rotation. At the same time, the battery terminals 221 and 222 can be maintained in a temporarily fixed state in which the battery terminals 221 and 222 are fitted and fixed on the posts 233 and 234 by the engaging force generated by press-fitting the positioning ribs 221b and 222b and the slits 235a and 235b.
[0037]
On the other hand, when the battery terminals 221 and 222 are not applied electrodes, the positioning ribs 221b and 222b hit the tips of the bases 230 and 231 so that the battery terminals 221 and 222 are inclined with respect to the bases 230 and 231. Since the selection of the connection target electrode is found to be wrong, it is possible to prevent the occurrence of erroneous connection.
[0038]
FIG. 6 is an enlarged perspective view of a main part showing a fourth embodiment of the battery terminal connection structure according to the present invention.
In this embodiment, the battery terminals 326 and 328 include pedestals 330 and 331 mounted on the upper surface of the battery main body 329 and column-shaped posts 333 and 334 that protrude vertically from the respective pedestals 330 and 331. This is a configuration provided.
The side edges of the pedestals 330 and 331 near the battery main body 329 are provided with slits 335 that are set so that the equipment positions are different for the positive electrode and the negative electrode.
[0039]
  That is, at the battery terminal 326, the position of the pedestal 330 near the battery body 329.(Right side in Fig. 6)Is provided with slits 335 so that the positions of the posts 333 and 334 are spaced apart from each other for the positive pole and the negative pole, or opposite to each other. One slit 335 is connected to battery terminals 321 and 322 for battery terminals 321 and 322 so that connection directions of battery terminals 321 and 322 for + and -poles described later are parallel to each other. Can be regulated so as to face each other. At the battery terminal 328, the position of the base 331 near the battery body 329(Lower in Fig. 6)Is provided with slits 335 so that the positions of the posts 333 and 334 are spaced apart from each other for the positive pole and the negative pole, or opposite to each other. One slit 335 is related to the slit 335 in the battery terminal 326 described above, and the other slit 335 is arranged so that the connection directions of the battery terminals 321 and 322 for the positive electrode and the negative electrode are parallel to each other. Can be regulated so that the connection directions of the battery terminals 321 and 322 face each other.
[0040]
Respective battery terminals 321 and 322 connected to the battery terminals 326 and 328 are installed in a standing state on the flat plate portions 321a and 322a corresponding to the flat plate portions 321a and 322a and the slit 335 with respect to the base of the connection target electrode. The positioning ribs 321b and 322b are press-fitted into the slits 335 of the pedestal of the connection target electrode, respectively, and the wire crimping portions 321d and 322d for crimping and connecting the wires 340 and 341 are provided.
That is, the battery terminal 321 has a positioning rib 321b mounted in a standing state on the right half of the front end side of the flat plate portion 321a, and the battery terminal 322 stands upright on the left half of the front end side of the flat plate portion 322a. It is the structure which has the positioning rib 322b equipped in the state.
[0041]
Also in the above configuration, the positioning ribs 321b and 322b are pressed into the slits 335 of the battery terminals 326 and 328 to prevent rotation. At the same time, the battery terminals 321 and 322 can be maintained in a temporarily fixed state in which the battery terminals 321 and 322 are fitted and fixed on the posts 333 and 334 by the engaging force generated by press-fitting the positioning ribs 321b and 322b.
[0042]
On the other hand, when the battery terminals 321 and 322 are not applied electrodes, the positioning ribs 321b and 322b hit the tips of the bases 330 and 331, and the battery terminals 321 and 322 are inclined with respect to the bases 330 and 331. Since the selection of the connection target electrode is found to be wrong, it is possible to prevent the occurrence of erroneous connection.
In particular, in the battery terminals 321 and 322 having such a configuration, as shown in FIG. 7, the conductive plates having the same unfolded shape can be obtained simply by changing the standing directions of the positioning ribs 321b and 322b and the wire crimping portions 321d and 322d. The manufacturing cost can be reduced.
[0043]
Further, in the second to fourth embodiments, the misassembly detection rib that is erected and protrudes in the opposite direction to the positioning rib is omitted, so that other members and parts contact the detection rib. Such a situation can be avoided.
[0044]
【The invention's effect】
According to the battery terminal connection structure of the first aspect of the present invention, the battery terminal is provided with the positioning rib upright on the one side edge of the flat plate portion, and the protruding direction on the other side edge of the flat plate portion is the positioning rib. Is a relatively simple structure with upside-down erroneous assembly detection ribs, and each battery terminal is also equipped with a cylindrical post on the pedestal and a slit located on one side of the post Only a relatively simple structure.
[0045]
When each battery terminal is inserted into the post insertion hole of the flat plate portion and the post of the battery terminal is not a connection target electrode, either the positioning rib or the misassembly detection rib is the contact surface of the base. At that time, since it becomes impossible to insert the post until the flat part of the battery terminal comes into contact with the contact surface of the pedestal of the connection partner in parallel with each other, it is possible to detect an error in selecting the connection target electrode, It is possible to prevent erroneous connection.
On the other hand, if the post to be inserted into the battery terminal is of the connection target electrode, it is possible to insert the post until the flat plate portion comes into contact with the contact surface of the base of the connection target electrode in a state parallel to each other, When the post is inserted until the flat plate part comes into contact with the contact surface of the electrode base to be connected in parallel with each other, the positioning rib of the battery terminal is pressed into the slit provided on the base of the battery terminal to prevent rotation. At the same time, the battery terminal is fitted and fixed on the post by the engagement force caused by the press-fitting of the positioning rib and the slit.
In this temporarily fixed state, even if the battery terminal is not pressed against the battery terminal, the battery terminal is not displaced. Therefore, after the temporary fixing state, the screwing operation of the nut member to the post and the tightening operation by the nut member can be performed with both hands, and the operation is easy to perform.
[0046]
That is, according to the above configuration, it is possible to achieve restriction of the terminal connection direction and prevention of erroneous connection to the opposite electrode without complicating the structure of the battery terminal or the battery terminal.
In addition, one hand is not obstructed to hold the battery terminal during the tightening operation with screws, both hands can be used for the tightening operation with screws, and the screw parts fall due to the displacement of the battery terminal during the operation. Therefore, it is possible to easily fix the battery terminal and reduce the working time.
[0047]
According to the battery terminal connection structure of the second aspect of the present invention, in addition to the effect of the first aspect, the erroneous assembly detection rib is omitted, and the structure of the battery terminal can be simplified.
[Brief description of the drawings]
FIG. 1 is an enlarged perspective view of a main part of a battery terminal connection structure according to a first embodiment of the present invention.
2 is an enlarged vertical sectional view of a connection state between a battery terminal and a battery terminal shown in FIG. 1. FIG.
FIG. 3 is an operation explanatory diagram when the battery terminal is connected to a battery terminal having a polarity opposite to a normal one in the battery terminal connection structure shown in FIG. 1;
FIG. 4 is an enlarged perspective view of a main part of a second embodiment of a battery terminal connection structure according to the present invention.
FIG. 5 is an enlarged perspective view of a main part of a battery terminal connection structure according to a third embodiment of the present invention.
FIG. 6 is an enlarged perspective view of a main part of a battery terminal connection structure according to a fourth embodiment of the present invention.
7 is a diagram showing a developed shape of the battery terminal shown in FIG. 6. FIG.
FIG. 8 is a top view of a battery showing a conventional battery terminal connection structure;
9 is an enlarged perspective view showing a connection structure between the battery terminal and the battery terminal shown in FIG.
[Explanation of symbols]
21,22 Battery terminal
21a, 22a Flat plate part
21b, 22b Positioning rib
21c, 22c Misassembly detection rib
21d, 22d Wire crimping part
24 battery
26 + battery terminal for poles
28 -Battery terminal
29 Battery body
30, 31 pedestal
30a, 31a Tip surface (contact surface)
33, 34 posts
33a, 34a Male thread
35 slits
36, 37 Nut member
40, 41 electric wire
43, 44 Post insertion hole
121, 122, 221, 222, 321, 322 Battery terminal
121a, 122a, 221a, 222a, 321a, 322a
121b, 122b, 221b, 222b, 321b, 322b Positioning rib
135, 235a, 235b, 335 slit

Claims (2)

The positive and negative battery terminals of the battery are composed of a pedestal provided with a flat contact surface at the tip, and a cylindrical post protruding from the contact surface of the pedestal and engraved with a male screw. The battery terminal connected to each battery terminal is configured and equipped with a slit on one side of each pedestal so that the position with respect to the post is the opposite side for the + pole and the-pole. A flat plate portion in which a post insertion hole corresponding to the outer diameter of the post is formed, and a flat plate portion that is installed upright on one side edge of the flat plate portion according to a slit position of a base of the connection target electrode. A positioning rib that is press-fitted into the slit when being brought into contact with the abutting surface of the pedestal, and a misassembly detection rib that is erected on the other side edge of the flat plate portion in a direction opposite to the positioning rib, The battery terminal is flat. After inserting the post to be connected electrode post insertion hole, a nut member screwed to the post, the terminal connection structure of a battery characterized in that it is fastened to the pedestal to be connected electrodes. The positive and negative battery terminals of the battery are composed of a pedestal provided with a flat contact surface at the tip, and a cylindrical post protruding from the contact surface of the pedestal and engraved with a male screw. A battery terminal configured to be connected to each battery terminal is provided with a slit in each pedestal so that the position is different for the positive electrode and the negative electrode, or the number is different. Is a flat plate portion in which a post insertion hole corresponding to the outer diameter of the post is formed, and the flat plate portion that is erected on the side edge of the flat plate portion according to the slit position and the number of slits of the base of the connection target electrode. Each of the battery terminals is inserted into the post insertion hole of the flat plate portion after inserting the post of the connection target electrode, Screwed into the post In Tsu preparative member, the terminal connection structure of a battery characterized in that it is fastened to the pedestal to be connected electrodes.

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