JP3761144B2 - Battery terminal connection structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention connects the positive or negative battery terminals respectively connected to the ends of the electric wires to the battery posts of the corresponding polarity of the battery body, and by screwing members screwed to the battery posts, The present invention relates to a battery terminal connection structure for fixing each battery terminal to each battery post.
[0002]
[Prior art]
5 and 6, as a conventional cord terminal connection structure for the battery 60, Japanese Patent Laid-Open No. 4-220947 discloses a cord terminal 63 in a bolt mounting hole 62 of a battery terminal 61 formed in a substantially prismatic shape. The cord terminal 63 is connected and fixed to the battery terminal 61 by screwing the bolt 65 inserted through the bolt insertion hole 64.
[0003]
The cord terminal 63 is formed by engaging the flat plate portion 63a with the coupling surface 61a of the battery terminal 61 of the battery 60 and bending the edge portion of the flat plate portion 63a when the cord terminal 63 is connected to the battery terminal 61. The pair of protruding pieces 63b thus engaged with the two side surfaces 61b of the battery terminal 61 are respectively engaged.
Further, the bolt mounting hole 62 of the battery terminal 61 and the bolt insertion hole 64 of the cord terminal 63 are respectively provided at positions eccentric from the center of the coupling surface 61 a of the battery terminal 61.
[0004]
[Problems to be solved by the invention]
In the cord terminal connection structure of the conventional battery 60 described above, the projection 63b of the cord terminal 63 is engaged with each side surface 61b of the battery terminal 61, and the bolt mounting hole 62 and the bolt with respect to the center of the coupling surface 61a of the battery terminal 61 are used. The direction of connection of the cord terminal 63 to the battery terminal 61 is regulated by the eccentricity of the insertion hole 64. Therefore, it is possible to prevent erroneous connection due to a mistake in the connection direction.
[0005]
However, there is a problem in that the polarity of the cord terminal 63 is not handled at all, and the erroneous connection due to the polarity difference between the battery terminal 61 and the cord terminal 63 cannot be prevented.
[0006]
Further, the work of attaching the cord terminal 63 to the battery terminal 61 is complicated, and it is difficult to shorten the work time.
That is, when attaching the cord terminal 63, the operator places the position of the bolt insertion hole 64 of the cord terminal 63 in the state where the flat plate portion 63 a of the cord terminal 63 is engaged with the coupling surface 61 a of the battery terminal 61. The bolt 65 needs to be screwed into the bolt mounting hole 62 via the bolt insertion hole 64 with the other hand while keeping this state with one hand in accordance with the position of the bolt mounting hole 62 of the terminal 61. Therefore, the worker is forced to perform complicated work using both hands, and a lot of work time is required.
[0007]
Furthermore, the battery 60 is effective only for the first time in the structure of the battery 60 in which the bolt 65 inserted through the bolt insertion hole 64 of the cord terminal 63 is screwed into the bolt mounting hole 62 of the battery terminal 61. It is.
[0008]
Therefore, it cannot be applied as it is to a battery having the most general structure.
That is, as a battery that is widely used, a battery post as the battery terminal 61 is erected in advance on the battery body, and a battery terminal as the cord terminal 63 is provided by a fixing nut that is screwed to the battery post. The structure fixed to each battery post is mentioned.
The cord terminal connection structure of the conventional battery 60 described above cannot be directly applied to such a configuration. Moreover, even if it can be applied, a remarkable effect cannot be expected in improving workability.
[0009]
The present invention provides a battery terminal connection structure that can reliably prevent erroneous connection due to a difference in polarity, can ensure good workability, and can regulate the connection order due to polarity. It is an object.
[0010]
[Means for Solving the Problems]
The above object of the present invention is to connect the positive or negative battery terminals respectively connected to the ends of the electric wires to the battery posts of the corresponding polarity of the battery body and to be screwed into the battery posts. In the battery terminal connection structure in which each battery terminal is fixed to each battery post by a member,
In the battery body,
Positive and negative battery posts,
A post protective cover that is provided integrally or separately with the battery body and covers each battery post,
A movable cover provided so as to be movable between each post protective cover, and
Each post protective cover
A terminal opening that is formed in the required shape dedicated to the plus or minus pole, and can only be inserted into the corresponding polarity battery terminal,
A working opening for performing a screwing operation of the screwing member to the battery post, and
Each of the battery terminals is formed in a required shape that can be inserted into a corresponding terminal opening, and
Each battery terminal
At the front end of the terminal opening in the insertion direction, a battery post is fitted to provide a connection groove to obtain electrical connection.
The movable cover is moved to the post protection cover side of the negative battery post and closes the terminal opening and the work opening of the post protection cover, and the terminal of the post protection cover of the positive battery post. The opening for work and the opening for work are opened, and the work opening of the post protection cover is closed while being moved to the post protection cover side of the positive battery post, and the post protection cover for the negative battery post The battery terminal connection structure is characterized in that the terminal opening and the working opening are opened.
[0011]
In the vicinity of each battery post in the battery body, a locked portion is provided, and at the front end of each battery terminal in the insertion direction to the terminal opening, each of the post protection covers has a corresponding opening to each terminal opening. As each battery terminal is inserted, a locking claw that is locked to the locked portion of the battery main body is preferably provided.
[0012]
Each of the battery terminals has a rotation prevention rib projecting along the direction of insertion into the terminal opening, and each terminal opening corresponding to each battery terminal has a rotation prevention rib. It is preferable that a rib groove is provided in which the rib is fitted.
[0013]
[Action]
In the battery terminal connection structure according to claim 1, first, in a state where the movable cover is moved to the post protection cover side of the negative battery post, the positive battery terminal connected to the end of the electric wire is It is inserted into the terminal opening of the corresponding post protection cover. The inserted battery terminal is fitted with a battery post in a connecting groove at the front end in the inserting direction to the terminal opening to obtain an electrical connection. Then, the screwing operation of the screwing member to the battery terminal of the positive electrode is performed through the work opening of the post protective cover.
[0014]
At this time, even if the order of connection by polarity is wrong and a negative battery terminal is to be inserted into the corresponding terminal opening of the post protection cover, the terminal opening and the work opening of the post protection cover are moved by the movable cover. Since these are closed, they cannot be inserted or screwed into the screwing member.
[0015]
Even if the movable cover is accidentally moved to the post protection cover side of the positive battery post, if the negative battery terminal is accidentally inserted into the corresponding terminal opening, the positive terminal The screwing work of the screwing member to the battery terminal becomes impossible.
[0016]
In other words, although the negative battery terminal can be fitted into the terminal opening of the corresponding post protective cover, the work opening of the positive battery post protective cover is closed by the movable cover. Therefore, the screwing operation of the screwing member to the positive battery terminal cannot be performed.
Therefore, an error in the connection order of the battery terminals due to the polarity is surely prevented.
[0017]
Next, the movable cover is moved to the post protection cover side of the positive electrode battery post to close the work opening of the post protection cover, and the terminal opening and work opening of the post protection cover of the negative electrode battery post. To release.
In this state, the negative battery terminal connected to the end of the electric wire is inserted into the terminal opening of the corresponding post protection cover. The inserted battery terminal is fitted with a battery post in a connecting groove at the front end in the inserting direction to the terminal opening to obtain an electrical connection. Then, the screwing operation of the screwing member to the negative battery terminal is performed through the work opening of the post protective cover.
[0018]
In the above-described process, even if the battery terminal is erroneously inserted into an incompatible terminal opening, the battery terminal cannot be inserted due to the difference in shape. Therefore, the battery terminal is not connected to the battery post by mistake in polarity.
In addition, each battery terminal has almost no risk of falling off during operation when it is inserted into the corresponding terminal opening. Therefore, good workability is ensured.
[0019]
3. The battery terminal connection structure according to claim 2, wherein each battery terminal is provided at the leading end in the fitting direction to the terminal opening in accordance with the insertion of each battery terminal into the corresponding terminal opening of the post protective cover. The latching claws thus latched are latched by the latched portions provided near the battery posts in the battery body.
Therefore, inconveniences such as the battery terminal coming out of the terminal opening during the subsequent work are reliably prevented. Thereby, good workability can be obtained.
[0020]
In the battery terminal connection structure according to claim 3, when the battery terminals of the respective poles are respectively inserted and inserted into the terminal openings of the corresponding post protection covers, the battery terminals are arranged along the insertion direction into the terminal openings. The anti-rotation ribs protruding in this manner are fitted into the rib grooves of the terminal openings.
Therefore, inadvertent rotation or the like of each battery terminal during work, for example, in a horizontal plane is prevented. Thereby, good workability can be obtained.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
The present invention will be described below with reference to illustrated embodiments.
FIG. 1 is a perspective view of a main part showing a state of a battery terminal connection structure according to an embodiment of the present invention when a positive pole is connected, and FIG. 2 is a state of connecting a negative pole of the battery terminal connection structure of FIG. FIG. 3 is a main part perspective view showing a state when the connection order due to the polarity of the battery terminal connection structure of FIG. 1 is wrong. FIG. 4 is a cross-sectional view of the main part showing the locked portion and the locking claw of the battery terminal connection structure of FIG.
[0022]
In these drawings, positive or negative battery terminals 40 and 41 connected to the wire end 10 are respectively connected to the corresponding battery posts 21 and 22 of the battery body 20 and the battery post 21. , 22 is fixed by tightening a fixing nut 23.
[0023]
A pair of left and right recesses 26 in FIG. 1 is formed in the left and right corners 24 and 25 in FIG. 1 that form a pair in the upper part of FIG. Is done.
[0024]
Each concave portion 26 is provided with positive and negative battery posts 21 and 22 so that the tip (upper end in FIG. 1) does not protrude upward from the upper surface in FIG. .
In addition, at the base end portions of the battery posts 21 and 22 in the respective recessed portions 26, a locked portion 27 having a substantially square shape in plan view is provided so as to protrude from the periphery in a step shape. Each locked portion 27 locks a locking claw 47 of a battery terminal 40, 41 described later.
[0025]
Further, post protection covers 30, 31 covering the battery posts 21, 22 are provided in the respective recesses 26 integrally or separately from the battery body 20.
Each of the post protection covers 30 and 31 has two side surfaces 30b and 31b that are erected substantially at right angles from the edges of the two sides of the substantially square upper surfaces 30a and 31a, respectively, and is made of an insulating material such as a synthetic resin. Formed by material. In the state where each post protection cover 30 and 31 is fitted in each recess 26, the upper surfaces 30a and 31a are substantially flush with the upper surface of the battery body in FIG. 1, and the side surfaces 30b and 31b are the battery body. It is substantially flush with each outer wall.
[0026]
Terminal protection openings 30 and 31 are provided in the post protection covers 30 and 31, respectively.
[0027]
Two terminal openings 32 and 33 are provided in each of the post protection covers 30 and 31, respectively, and a total of two openings are provided on the side surfaces 30 b and 31 b of the post protection covers 30 and 31. Each of the terminal openings 32 and 33 is formed in a required shape dedicated to the positive electrode or the negative electrode, and only the battery terminals 40 and 41 having the corresponding polarities can be inserted.
[0028]
That is, each of the terminal openings 32 provided in the left post protection cover 30 in FIG. 1 has a rib groove 32a into which a rotation preventing rib 43, which will be described later, is fitted, at the upper end in FIG. For example, only a positive battery terminal 40 can be inserted.
Further, each of the terminal openings 33 provided on the post protection cover 31 on the right side in FIG. 1 has a rib groove 33a into which the rotation preventing rib 45 is fitted, with the left end in the longitudinal direction facing upward in FIG. For example, only the negative battery terminal 41 can be inserted.
[0029]
Work openings 34 are provided on the upper surfaces 30a and 31a of the post protection covers 30 and 31, respectively.
That is, the work openings 34 are formed in a substantially circular shape in plan view, two in total, one for each post protection cover 30, 31. Each work opening 34 is used for screwing the fixing nut 23 to the battery posts 21 and 22, for example, a tool or the like for rotating the fixing nut 23 for screwing (not shown). Is inserted.
[0030]
A movable cover 35 is provided between the post protective covers 30 and 31.
That is, the movable cover 35 is made of an insulating material such as a synthetic resin, and is configured such that the side surface portion 37 is erected at a substantially right angle from the edge of one side in the longitudinal direction of the substantially rectangular upper surface portion 36. The movable cover 35 has inner surfaces of the upper surface portion 36 and the side surface portion 37 between the upper surface 30a, 31a and the side surfaces 30b, 31b of the post protection covers 30, 31 and the post protection covers 30, 31 on the upper surface of the battery body. It is slidably contacted and is slidable between the post protective covers 30 and 31 along the dovetail groove 28 provided between the post protective covers 30 and 31 on the outer wall of the battery body 20. .
[0031]
A cutout portion 37 a is provided in the lower left half portion in FIG. 1 of the side surface portion 37 of the movable cover 35. The notch 37a is for preventing the terminal opening 32 of the post protection cover 30 from being closed in the state shown in FIG. 2 in which the movable cover 35 is moved to the post protection cover 30 side of the positive battery post 21. .
[0032]
The movable cover 35 is moved to the one end of the dovetail groove 28 toward the post protective cover 31 side of the negative battery post 22, and the terminal opening 33 and the work opening 34 of the post protective cover 31 are shown in FIG. 1. Are respectively closed at the right half portions in FIG. 1 of the side surface portion 37 and the upper surface portion 36, respectively. In this state, the movable cover 35 does not block the terminal opening 32 and the work opening 34 of the post protection cover 30 of the positive battery post 21.
[0033]
Further, in the state shown in FIG. 2 in which the movable cover 35 is moved to the post protective cover 30 side of the positive electrode battery post 21 to the other end of the dovetail groove 28, the work opening 34 of the post protective cover 30 is formed on the upper surface. The portion 36 is closed at the left half portion in FIG. In this state, the movable cover 35 opens the terminal opening 33 and the work opening 34 of the post protection cover 31 of the negative battery post 22.
[0034]
Each of the battery terminals 40 and 41 is formed in a required shape that can be inserted into the corresponding terminal openings 32 and 33.
[0035]
That is, for example, a positive electrode battery terminal 40 on the left side in FIG. 1 (hereinafter referred to as a positive electrode battery terminal 40) has a terminal opening 32 of the post protection cover 30 on the upper surface of the right edge of the flat plate portion 42 in FIG. An anti-rotation rib 43 having a shape and size corresponding to the rib groove 32a is projected along the insertion direction. Thus, the positive battery terminal 40 can be inserted only into the terminal opening 32 of the post protection cover 30 and cannot be inserted into the terminal opening 33 of the post protection cover 31. Inadvertent rotation or the like in the horizontal plane of the battery terminal 40 accompanying rotation is prevented.
[0036]
Further, for example, a negative battery terminal 41 on the right side in FIG. 1 (hereinafter referred to as a negative battery terminal 41) is provided on the upper surface of the left edge of the flat plate portion 44 in FIG. An anti-rotation rib 45 having a shape and size corresponding to the rib groove 33a is projected along the insertion direction. Thus, the negative battery terminal 41 can be inserted only into the terminal opening 33 of the post protection cover 31 and cannot be inserted into the terminal opening 32 of the post protection cover 30. Inadvertent rotation or the like in the horizontal plane of the battery terminal 41 accompanying rotation is prevented.
[0037]
The flat plate portions 42 and 44 of the battery terminals 40 and 41 are respectively connected to the front ends of the battery terminals 40 and 41 in the terminal openings 32 and 33 in the insertion direction of the U-shaped connection grooves 46 and engagements. A pawl 47 is provided.
[0038]
The connection groove 46 is opened at the front end side in the insertion direction of the battery terminals 40 and 41 to the terminal openings 32 and 33, and the battery terminals 40 and 41 to the corresponding terminal openings 32 and 33 are opened. With the insertion, the battery posts 21 and 22 are fitted to obtain an electrical connection.
Further, the locking claws 47 project from the lower surfaces of the flat plate portions 42 and 44 of the battery terminals 40 and 41 in FIG. 1, and the battery terminals 40 and 41 are inserted into the corresponding terminal openings 32 and 33, respectively. Accordingly, the battery body 20 is locked so as to be hooked on the locked portion 27 of the battery body 20.
[0039]
The battery terminals 40 and 41 are respectively inserted into the corresponding terminal openings 32 and 33, and the battery posts 21 and 22 are fitted in the connection grooves 46, and the battery terminals 40 and 41 are inserted through the work openings 34 of the battery body 20. Then, the battery posts 21 and 22 are fixed to the battery posts 21 and 22 by fixing nuts 23 screwed into the battery posts 21 and 22.
[0040]
The operation of this embodiment will be described.
When connecting the battery terminals 40 and 41 to the corresponding battery posts 21 and 22 of the battery body 20, first, the movable cover 35 is moved to the post protective cover 31 side of the negative battery post 22. The positive battery terminal 40 is inserted into the terminal opening 32 of the post protective cover 30.
The inserted battery terminal 40 has the battery post 21 fitted in the connecting groove 46 at the distal end in the insertion direction to the terminal opening 32 to be electrically connected, and the locking claw 47 is locked. The portion 27 is locked so as to be hooked. Then, the fixing nut 23 is screwed onto the positive battery terminal 40 through the work opening 34 of the post protective cover 30.
[0041]
At this time, even if the negative battery terminal 41 is inserted into the corresponding terminal opening 33 of the post protection cover 31 by mistake in the connection order depending on the polarity, the terminal opening of the post protection cover 31 is moved by the movable cover 35. Since 33 and the work opening 34 are in a closed state, they cannot be inserted or screwed into the fixing nut 23.
[0042]
Even if the movable cover 35 is accidentally moved to the post protective cover 30 side of the positive electrode battery post 21, the terminal opening 33 of the post protective cover 31 is erroneously inserted first in the negative electrode battery terminal 41. When it is inserted into the battery terminal 40, the fixing nut 23 cannot be screwed into the positive battery terminal 40.
[0043]
That is, since the negative battery terminal 41 can be fitted into the terminal opening 33 of the post protection cover 31, the work opening 34 of the post protection cover 30 is closed by the movable cover 35. The fixing nut 23 cannot be screwed onto the positive battery terminal 40.
Therefore, the connection order of the battery terminals 40 and 41 depending on the polarity is restricted, and an error in the connection order is reliably prevented.
[0044]
As a screwing operation of the fixing nut 23 to the battery terminal 40 of the positive electrode, a tool is put on the fixing nut 23 screwed in advance to the battery post 21 through the work opening 34 of the post protective cover 30. Then, the fixing nut 23 is rotated and tightened. Thereby, the battery terminal 40 is fixed to the battery post 21.
[0045]
At this time, since the locking claw 47 of the battery terminal 40 is locked to the locked portion 27, the battery terminal 40 comes out of the terminal opening 32 before being fixed by the fixing nut 23. Will not cause.
Further, since the rotation prevention rib 43 of the battery terminal 40 is fitted into the rib groove 32a of the terminal opening 32, the battery terminal 40 is rotated inadvertently in the horizontal plane as the fixing nut 23 rotates. Etc. are prevented.
Therefore, the operator does not need to hold the battery terminal 40 with one hand, and good workability can be obtained.
[0046]
Next, the movable cover 35 is moved to the post protection cover 30 side of the positive battery post 21 to close the work opening 34 of the post protection cover 30, and the terminal opening 33 and the work opening of the post protection cover 31. 34 is opened.
[0047]
In this state, the negative battery terminal 41 is inserted into the terminal opening 33 of the post protection cover 31. The inserted battery terminal 41 has the battery post 22 fitted in the connecting groove 46 at the distal end in the insertion direction to the terminal opening 33 and is electrically connected, and the locking claw 47 is locked. The portion 27 is locked so as to be hooked. Then, the screwing operation of the fixing nut 23 to the battery terminal 41 of the negative electrode through the work opening 34 of the post protective cover 31 is performed in the same manner as in the case of the positive electrode described above.
[0048]
In the above-described process, even if the battery terminals 40 and 41 of each electrode are erroneously inserted into the terminal openings 32 and 33 of the post protection covers 30 and 31, they cannot be inserted due to the difference in shape. Therefore, the battery terminals 40 and 41 are not connected to the battery posts 21 and 22 by mistake in polarity.
Further, when the battery terminals 40 and 41 of the respective electrodes are inserted into the terminal openings 32 and 33 of the post protective covers 30 and 31, there is almost no risk of dropping off. Therefore, good workability is ensured.
[0049]
As described above, according to the embodiment, the terminal openings 32 and 33 of the post protection covers 30 and 31 can be fitted with only the corresponding battery terminals 40 and 41, respectively, and each battery terminal Each of 40 and 41 is formed in a required shape that can be inserted into the corresponding terminal openings 32 and 33. Therefore, erroneous connection due to the difference in polarity of the battery terminals 40 and 41 to the battery posts 21 and 22 can be reliably prevented.
[0050]
Further, as the battery terminals 40 and 41 are inserted into the corresponding terminal openings 32 and 33 of the post protection covers 30 and 31, the battery terminals 40 and 41 are fitted into the terminal openings 32 and 33. The locking claws 47 provided at the front ends in the direction are respectively locked to the locked portions 27 of the battery body 20.
Therefore, the battery terminals 40 and 41 do not come out of the terminal openings 32 and 33 before being fixed by the fixing nut 23, and the operator holds the battery terminals 40 and 41 in screwing the fixing nut 23. There is no need to keep it.
[0051]
Further, the rotation prevention ribs 43 and 45 of the battery terminals 40 and 41 are fitted into the rib grooves 32 a and 33 a of the terminal openings 32 and 33. Therefore, inadvertent rotation or the like in the horizontal plane of the battery terminals 40 and 41 due to rotation due to screwing of the fixing nut 23 can be reliably prevented.
Thereby, the favorable workability | operativity at the time of battery terminal 40 and 41 connection is securable.
[0052]
In addition, in the state shown in FIG. 1 in which the movable cover 35 is moved to the post protective cover 31 side to one end of the dovetail groove 28, the terminal opening 33 and the work opening 34 of the post protective cover 31 are respectively provided on the side surface portions. The terminal opening 37 and the work opening 34 of the post protection cover 30 are not closed while closing the right half of FIG. The movable cover 35 is moved to the post protective cover 30 side to the other end of the dovetail groove 28, and the working opening 34 of the post protective cover 30 is connected to the upper half 36 in the left half of FIG. The terminal opening 33 and the work opening 34 of the post protection cover 31 are opened.
[0053]
Therefore, if the battery terminal 41 having the negative pole is mistakenly inserted into the terminal opening 33 first, the fixing nut 23 of the battery terminal 40 having the positive pole cannot be tightened. Thereby, the connection order of the battery terminals 40 and 41 by polarity can be regulated, and a short circuit and electric shock at the time of work can be surely prevented.
[0054]
In the above-described embodiment, the post protective covers 30 and 31 having two side surfaces erected substantially at right angles from the edges of the two sides of the substantially square upper surfaces 30 a and 31 a are used as the corner portions 24 and 25 of the battery body 20. However, the present invention is not limited to this, but is configured so that the outer surfaces of the post protective covers 30 and 31 are flush with the outer wall surface of the battery body 20.
[0055]
That is, the battery body 20 is not formed with the recess 26, but a battery post projects from the upper surface of the battery body 20, and has four side surfaces erected substantially at right angles from the edges of the four sides of the substantially square upper surface. A post protective cover (not shown) may be placed so as to surround the battery post.
[0056]
In this case, the movable cover (not shown) is configured so that the two side surfaces are erected at substantially right angles from the edges of the two sides in the longitudinal direction of the substantially rectangular upper surface. The movable cover is arranged so as to straddle the post protective covers 30 and 31 at the upper surface portion and the two side surface portions, and a pair of ants provided on both side surfaces of the post protective covers 30 and 31 along the sliding direction of the movable cover. It is slidably supported by the post protection covers 30 and 31 via grooves (not shown).
According to this, it can be easily applied to a general battery structure that does not have a recess in the corner of the battery body 20, and high versatility can be obtained.
[0057]
Further, each of the post protective covers 30 and 31 can be formed by integral molding with the battery body 20. According to this, the work of attaching the post protective covers 30 and 31 to the battery body 20 can be omitted, and the number of man-hours can be reduced.
Alternatively, the post protection covers 30 and 31 can be formed detachably from the battery body 20. According to this, the battery body 20 can be easily molded completely separately from the battery body 20, and the cost can be reduced.
[0058]
【The invention's effect】
As described above, according to the first aspect of the present invention, the battery main body includes the positive and negative battery posts, the post protective covers that respectively cover the battery posts, and the post protective covers that are movable between the post protective covers. And a movable cover provided. Each post protection cover is provided with a terminal opening that is formed in a required shape dedicated to the plus pole or the minus pole and into which only a battery terminal of the corresponding polarity can be inserted.
Therefore, it is possible to reliably prevent erroneous connection due to the difference in polarity and to ensure good workability.
The movable cover is moved to the post protection cover side of the negative battery post and closes the terminal opening and work opening of the post protection cover, and the positive battery post post protection cover terminal. Open the working opening and the working opening. The movable cover is moved to the post protection cover side of the positive battery post and closes the work opening of the post protection cover, and the terminal opening and work of the post protection cover of the negative battery post. Open the opening.
Therefore, the connection order of the battery terminals depending on the polarity can be restricted, and short circuit and electric shock during the work can be surely prevented.
According to the second aspect of the present invention, the battery body is provided with positive and negative battery posts, a post protective cover for covering each battery post, and a movable provided movably between the post protective covers. And a cover. Each post protection cover is provided with a terminal opening that is formed in a required shape dedicated to the plus pole or the minus pole and into which only a battery terminal of the corresponding polarity can be inserted.
In addition, each battery post in the battery main body is provided with a locked portion, and each terminal of the battery protection terminal is provided with a corresponding opening at the front end in the insertion direction of the battery terminal. As each battery terminal is inserted into the battery terminal, a locking claw that is locked to the locked portion of the battery body is provided.
Therefore, it is possible to reliably prevent erroneous connection due to the difference in polarity and to ensure good workability.
Further, the movable cover is moved to the post protective cover side of the negative battery post, and closes the terminal opening and the working opening of the post protective cover, and the positive battery post post protective cover terminal. Open the working opening and the working opening. The movable cover is moved to the post protection cover side of the positive battery post and closes the work opening of the post protection cover, and the terminal opening and work of the post protection cover of the negative battery post. Open the opening.
Therefore, the connection order of the battery terminals depending on the polarity can be restricted, and short circuit and electric shock during the work can be surely prevented.
According to the third aspect of the present invention, the battery body is provided with positive and negative battery posts, a post protective cover for covering each battery post, and a movable provided movably between the post protective covers. And a cover. Each post protection cover is provided with a terminal opening that is formed in a required shape dedicated to the plus pole or the minus pole and into which only a battery terminal of the corresponding polarity can be inserted.
Each battery terminal is provided with a rotation prevention rib projecting along the direction of insertion into the terminal opening, and each terminal opening corresponding to each battery terminal has a rotation prevention rib. A rib groove for fitting the rib is provided.
Therefore, it is possible to reliably prevent erroneous connection due to the difference in polarity and to ensure good workability.
Further, the movable cover is moved to the post protective cover side of the negative battery post, and closes the terminal opening and the working opening of the post protective cover, and the positive battery post post protective cover terminal. Open the working opening and the working opening. The movable cover is moved to the post protection cover side of the positive battery post and closes the work opening of the post protection cover, and the terminal opening and work of the post protection cover of the negative battery post. Open the opening.
Therefore, the connection order of the battery terminals depending on the polarity can be restricted, and short circuit and electric shock during the work can be surely prevented.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a main part of a battery terminal connection structure according to an embodiment of the present invention when a positive electrode is connected.
2 is a perspective view of a main part showing a state of the battery terminal connection structure of FIG. 1 when a negative pole is connected; FIG.
3 is a perspective view of a main part showing a state in which the connection order due to the polarity of the connection structure of the battery terminal in FIG. 1 is incorrect. FIG.
4 is a cross-sectional view of a main part showing a locked portion and a locking claw of the battery terminal connection structure of FIG. 1; FIG.
FIG. 5 is a plan view showing a cord terminal connection structure of a conventional battery.
6 is a perspective view of a main part of FIG. 5. FIG.
[Explanation of symbols]
10 Wire end
20 Battery body
21,22 Battery post
23 Threaded member (fixing nut)
24 corner (left corner)
25 corner (right corner)
26 recess
27 Locked part
28 Dovetail
30, 31 post protective cover
32,33 Terminal opening
32a, 33a Rib groove
34 Work opening
35 Movable cover
36 Upper surface
37 Side
37a Notch
40,41 Battery terminal
42,44 flat plate
43, 45 Anti-rotation rib
46 Groove for connection
47 Claw
50 Opening closing member (opening closing knob)
51 O-ring
52 Tool mounting part

Claims (3)

The positive or negative battery terminals connected to the ends of the electric wires are connected to the corresponding battery posts of the battery body respectively, and each battery terminal is connected by a screwing member screwed to each battery post. In the battery terminal connection structure that is fixed to each battery post,
In the battery body,
Positive and negative battery posts,
A post protective cover that is provided integrally or separately with the battery body and covers each battery post,
A movable cover provided so as to be movable between each post protective cover, and
Each post protective cover
A terminal opening that is formed in the required shape dedicated to the plus or minus pole, and can only be inserted into the corresponding polarity battery terminal,
A working opening for performing a screwing operation of the screwing member to the battery post, and
Each of the battery terminals is formed in a required shape that can be inserted into a corresponding terminal opening, and
Each battery terminal
At the front end of the terminal opening in the insertion direction, a battery post is fitted to provide a connection groove to obtain electrical connection.
While the movable cover is moved to the post protection cover side of the negative battery post, the movable cover closes the terminal opening and the work opening of the post protection cover, and the terminal of the post protection cover of the positive battery post. The work opening of the post protection cover is closed while the opening for work and the work opening are opened and moved to the post protection cover side of the positive battery post, and the post protection cover for the negative battery post is closed. Battery terminal connection structure characterized in that the terminal opening and the work opening are opened. Each battery post in the battery main body is provided with a locked portion, and each battery terminal is inserted into the terminal opening at the front end in the insertion direction to the corresponding terminal opening of the post protection cover. The battery terminal connection structure according to claim 1, wherein a locking claw that is locked to a locked portion of the battery body is provided as each battery terminal is inserted. Each of the battery terminals has a rotation prevention rib projecting along the direction of insertion into the terminal opening, and each terminal opening corresponding to each battery terminal has a rotation prevention rib. 3. The battery terminal connection structure according to claim 1, further comprising a rib groove into which the rib is fitted.

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