JP2006324202A - Battery terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a battery terminal capable of increasingly clamp a battery post by increasing an amount of displacement of a piece to be pushed, since an arc-shaped clamping part is deformed so as to shrink its diameter if the piece to be pushed is displaced toward its extended end side while pushing it inward in its diameter direction by a clamping means provided in a supporting part. <P>SOLUTION: In this battery terminal T, one end part 21 of the arc-shaped clamping part 20 is supported by the supporting part 11, and the other end part is formed into the piece to be pushed 22 which extends in the shape of a cantilever. In the supporting part 11, a clamping means (a rotary shaft 30 and a cam member 35) capable of displacing the piece to be pushed 22 toward the extended side while pushing it inward in its diameter direction is provided. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a battery terminal.

As a battery terminal, Patent Document 1 discloses that a pair of clamping plates protrude from both ends of an arc-shaped clamping portion, and the diameter of the arc-shaped clamping portion is reduced by rotating both of the clamping plates by rotation of a bolt, so that the outer periphery of the battery post. What is adhered is disclosed.
Japanese Patent Laid-Open No. 08-050892

In the above battery terminal, the two clamping plates are brought into one-touch approach by rotating the triangular cross-section cam. However, in the tightened state, the predetermined outer surface of the triangular cross-section cam is tightened to one side. Since the plate is brought into contact with the surface, the approach distance between the two clamping plates is always constant, and there is a problem that additional tightening cannot be performed.
The present invention has been completed based on the above situation, and an object thereof is to enable retightening.

  As a means for achieving the above object, the invention of claim 1 is a battery terminal in which an arc-shaped tightening portion is brought into close contact with the outer periphery of a battery post while reducing its diameter, and one end of the arc-shaped tightening portion is provided. And the other end is cantilevered. The pressed portion is pressed radially inward on the support portion. However, the present invention is characterized in that a fastening means that can be displaced toward the extending end side is provided.

  According to a second aspect of the present invention, in the first aspect of the present invention, the tightening means is fixed to the rotary shaft, and a rotation shaft that is substantially parallel to the axis of the arc-shaped tightening portion and supported by the support portion. And a cam member whose outer periphery is brought into contact with the outer periphery of the pressed piece.

  According to a third aspect of the present invention, in the second aspect of the present invention, anti-slip means is provided on the outer periphery of the pressed piece and the outer periphery of the cam member to restrict the cam member from sliding in the turning direction. However, it has characteristics.

<Invention of Claim 1>
When the pressing piece is displaced radially inward while being pressed radially inward by the fastening means provided in the support portion, the arc-shaped fastening portion is deformed in a reduced diameter. It can be tightened by increasing.

<Invention of Claim 2>
When the rotating shaft is rotated to turn the cam member, the pressed piece is displaced toward the extending end due to the frictional resistance between the outer periphery of the cam member and the outer periphery of the pressed piece.

<Invention of Claim 3>
Since the slip prevention means is provided on the outer periphery of the pressed piece and the outer periphery of the cam member, the rotational force of the cam member can be reliably transmitted to the pressed piece.

<Embodiment 1>
A first embodiment of the present invention will be described below with reference to FIGS. The battery terminal T of the present embodiment includes a main body 10 formed by bending a metal plate material punched into a predetermined shape, a rotating shaft 30 (clamping means that is a constituent element of the present invention) and a cam member 35 assembled to the main body 10. (Tightening means which is a constituent element of the present invention) and a lock nut 40 are provided.
The main body 10 includes a support portion 11, an arc-shaped tightening portion 20, and a crimping portion 24.
The support portion 11 has a rectangular cylindrical shape penetrating in the front-rear direction (the left-right direction in FIG. 1), and the left side plate 13 and the right side plate 14 are raised substantially at right angles from the left and right side edges of the lower surface plate 12. The upper surface plate 15 is extended from the edge to the right at a substantially right angle, and the reinforcing plate 16 is extended from the upper edge of the right plate 14 to the left at a substantially right angle, and the reinforcing plate 16 is superimposed on the upper surface of the upper surface plate 15. It has become a form. The lower surface plate 12 is formed with female screw holes 17 penetrating in the vertical direction, and the upper surface plate 15 and the reinforcing plate 16 are formed with circular through holes 18 and 19 coaxial with the female screw hole 17.

  The arc-shaped tightening portion 20 is obtained by bending a plate-like portion into a substantially arc shape so that the axis is directed in the vertical direction, and has a substantially truncated cone shape in which the opening diameter on the upper surface side is smaller than the opening diameter on the lower surface side. I am doing. The arcuate tightening portion 20 has a base end edge portion 21 (one end portion which is a constituent element of the present invention) smoothly and tangentially continuous with the front end edge of the right side plate 14 of the support portion 11. The shape, that is, a shape that extends forward in a cantilevered manner from the support portion 11, is disposed in front of the support portion 11. Moreover, the extended edge part (the other edge part which is a component of the present invention) on the side opposite to the base edge part 21 of the arc-shaped tightening part 20 is pressed along the front end of the support part 11. It is a piece 22. On the outer peripheral surface of the arc-shaped tightening portion 20, serrations 23 in the form of continuous ribs or grooves extending in the longitudinal direction (substantially parallel to the axis of the arc-shaped tightening portion 20) in the circumferential direction (non-slip means which is a constituent of the present invention) ) Is formed, and the serration 23 of the pressed piece 22 is positioned so as to face the front end edge of the support portion 11.

  The crimping portion 24 includes a bottom plate 25 extending rearward from the lower surface plate 12 of the support portion 11 and a pair of crimping pieces 26 rising from both left and right edges of the bottom plate 25, and has an open barrel shape as a whole. The crimping part 24 is crimped so that the electric wire W can be conducted. That is, the front end portion of the electric wire W is in a state where the insulation coating Wa is peeled off and the core wire Wb is exposed, and the exposed core wire Wb is placed on the bottom plate 25, and the caulking piece It is crimped so that 26 surrounds. Thereby, the core wire Wb and the main body 10 of the battery terminal T are connected so as to be conductive.

A rotating shaft 30, a cam member 35, and a lock nut 40 are attached to the support portion 11.
The rotary shaft 30 is composed of a cylindrical shaft portion 31 whose axis is directed in the vertical direction, and a hexagonal head portion 34 assembled to the upper end of the shaft portion 31. In the assembled state, the shaft portion 31 and the head portion 34 are It is designed to rotate as a unit. A locking groove 32 extending in the axial direction over the entire length of the shaft portion 31 is formed on the outer periphery of the shaft portion 31, and a male screw portion 33 is formed at the lower end portion of the shaft portion 31.
The cam member 35 has a block shape, and the height (thickness) dimension is the same as or slightly smaller than the dimension between the lower surface plate 12 and the upper surface plate 15 of the support portion 11. One end (rear end) of the cam member 35 is formed with a substantially circular fitting hole 36 penetrating in the vertical direction. The inner circumference of the fitting hole 36 extends in the vertical direction over its entire length. An extending locking rib 37 is formed. Further, the side surface (front end surface) opposite to the fitting hole 36 in the cam member 35 is an arc-shaped pressing surface 38, and the pressing surface 38 is vertically long (substantially parallel to the axis of the fitting hole 36). A serration 39 (anti-slip means which is a constituent element of the present invention) is formed in such a manner that elongated ribs or grooves extending continuously in the circumferential direction are formed.

  The rotating shaft 30 and the cam member 35 are attached to the main body 10 as follows. First, the upper surface plate 15 and the reinforcing plate 16 of the support portion 11 are in a state before bending (a state in which the upper surface plate 15 and the right side plate 14 are substantially flush with the left side plate 13 and the right side plate 14). The rotary shaft 30 with the head 34 removed, that is, only the shaft portion 31 is inserted between the side plates 13 and 14, and the male screw portion 33 is screwed into the female screw hole 17 while rotating the shaft portion 31. Then, the lock nut 40 is screwed into a portion of the male screw portion 33 protruding downward from the lower surface plate 12.

  Next, the fitting hole 36 of the cam member 35 is fitted to the shaft portion 31 from above. At this time, the shaft portion 31 and the cam member 35 are assembled so as to rotate integrally by fitting the locking groove 32 and the locking rib 37 together. At this time, as shown in FIG. 1, the right edge portion of the pressing surface 38 of the cam member 35 corresponds to the outer surface of the pressed piece 22 of the arc-shaped tightening portion 20 or corresponds, or the pressing surface 38 of the cam member 35. The right edge of the serration 39 is in a state of engaging with the serration 39 of the pressed piece 22 of the arc-shaped tightening portion 20.

  Thereafter, the top plate 15 is bent and the through hole 18 is fitted to the upper end portion of the shaft portion 31, and the reinforcing plate 16 is bent and the through hole 19 is fitted to the upper end portion of the shaft portion 31. Combine. As a result, the support portion 11 is molded, and the cam member 35 and the shaft portion 31 of the rotary shaft 30 are assembled in the support portion 11, and the cam member 35 and the shaft portion 31 are almost entirely supported by the support portion 11. Housed inside. Thereafter, the head portion 34 is assembled to the upper end portion of the shaft portion 31 protruding upward from the reinforcing plate 16 so as to be integrally rotatable. Thus, the assembly of the battery terminal T is completed.

  Next, an operation process for connecting the battery terminal T to the battery post P will be described. The battery post P has a shape protruding upward with its axis line directed in the vertical direction, and has a conical shape as a whole. The battery post P is externally fitted while covering the arc-shaped tightening portion 20 from above. Next, the lock nut 40 is loosened so as to be separated from the lower surface plate 12, the head 34 of the rotating shaft 30 is rotated in the clockwise direction in FIG. 1, and the cam member 35 is rotated integrally with the rotating shaft 30. . Then, while the pressing surface 38 of the cam member 35 presses the outer periphery of the pressed piece 22 radially inward (to the battery post P side), the pressed piece 22 is extended by the engagement between the serrations 23 and 39. It is displaced in the substantially circumferential direction toward the end side (counterclockwise direction in FIG. 1). As a result, the arc-shaped tightening portion 20 is brought into close contact with the outer periphery of the battery post P by being reduced in diameter, and the battery terminal T and the battery post P are connected so as to be conductive. When the arc-shaped tightening portion 20 is tightened with a predetermined strength, the lock nut 40 is rotated and brought into close contact (pressing) with the lower surface of the lower surface plate 12 to restrict the rotation of the rotating shaft 30 and the cam member 35, and the arc-shaped tightening portion 20 is Lock in tightened condition.

  Further, when retightening, the lock nut 40 is once loosened to allow the rotating shaft 30 to rotate, and in this state, the rotating shaft 30 is further rotated to reduce the diameter of the arc-shaped tightening portion 20. What is necessary is just to change. Also in this case, when the additional tightening is completed, the rotation of the rotary shaft 30 and the cam member 35 is restricted by the lock nut 40, and the arc-shaped tightening portion 20 is locked in the tightened state.

As described above, in the present embodiment, when the pressed piece 22 is pressed radially inward by the fastening means (the rotary shaft 30 and the cam member 35) provided in the support portion 11, the arcuate shape is displaced. Since the tightening portion 20 is deformed in a reduced diameter, it can be tightened by increasing the amount of displacement of the pressed piece 22.
Further, since serrations 23 and 39 are provided on the outer periphery of the pressed piece 22 and the outer periphery of the cam member 35 as anti-slip means for restricting the sliding of the cam member 35 in the turning direction, the rotational force of the cam member 35 is not affected. Transmission to the pressing piece 22 can be ensured.

<Other embodiments>
The present invention is not limited to the embodiment described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention, and further, within the scope not departing from the gist of the invention other than the following. Various modifications can be made.
(1) In the above embodiment, the pressed member is displaced by turning the cam member fixed to the rotating shaft substantially parallel to the battery post. However, according to the present invention, a bolt substantially perpendicular to the battery post is screwed. Thus, the pressed piece may be displaced.
(2) In the above embodiment, the cam member is cantilevered from the rotation shaft. However, according to the present invention, the cam member may have a circular or arc shape substantially concentric with the rotation shaft. .

The top view showing the state before tightening an arc-shaped fastening part in Embodiment 1. Plan view showing the state where the arc-shaped tightening part is fastened to the battery post XX sectional view of FIG. Top view of the main body Side view of the main unit Plan view of rotation axis Side view of rotating shaft Top view of cam member Side view of cam member

Explanation of symbols

P ... Battery post T ... Battery terminal 11 ... Supporting part 20 ... Arc-shaped tightening part 21 ... Base end edge (one end)
22 ... pressed piece 23 ... serration (slip prevention means)
30 ... Rotating shaft (tightening means)
35 ... Cam member (clamping means)
39. Serration (slip prevention means)

Claims (3)

A battery terminal adapted to closely contact the outer periphery of the battery post while reducing the diameter of the arc-shaped tightening portion,
One end of the arc-shaped tightening portion is supported by the support portion, and the other end portion is a pressed piece extending in a cantilever shape,
The battery terminal according to claim 1, wherein the support portion is provided with a fastening means capable of displacing the pressed piece radially inward while being displaced toward the extending end. The tightening means is substantially parallel to the axis of the arc-shaped tightening portion and is supported by the support portion, and is fixed to the rotation shaft and has an outer periphery brought into contact with the outer periphery of the pressed piece. The battery terminal according to claim 1, comprising a cam member. 3. The battery terminal according to claim 2, wherein anti-slip means is provided on the outer periphery of the pressed piece and the outer periphery of the cam member to restrict slippage of the cam member in the turning direction.

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