JP6655443B2 - Fuse unit - Google Patents

Description

  The present invention relates to a fuse unit, and more particularly to a fuse unit attached to a battery.

Conventionally, when a fuse unit is installed in a battery in which a battery post is provided in a lower recess, although the fuse portion is disposed in the recess of the battery, there is not enough space in the recess, so that the fuse unit has Some protruded from the side of the battery.
For this reason, an invention is disclosed in which an external connection terminal and a fuse portion are arranged above the upper surface of the battery and inside the side surface of the battery in order to reduce the amount of protrusion from the side surface of the battery (for example, see Patent Reference 1).

JP 2013-20811 A (page 4, FIG. 9)

In the invention disclosed in Patent Document 1, the first external connection terminal and the fuse portion are disposed above the upper surface of the battery and inside the side surface of the battery. This has a remarkable effect that the amount of protrusion can be minimized and the number of external connection terminals and fuse portions can be increased without largely changing the shape of the fuse unit.
However, the invention disclosed in Patent Document 1 has the following problems.
(A) Since the fuse unit is fixed to one battery post by one battery terminal, it is difficult to assemble the battery horizontally with respect to the surface of the battery, and the vertical plane (the virtual plane including the axis of the battery post) There was a risk of being assembled in an inclined state.
(B) Further, the vibration load during running was supported at one location of the battery post.
(C) Further, since the second external connection terminal is arranged in the concave portion of the battery, it is difficult to pull out the electric wire connected to the second external connection terminal and the electric wire connected to the first external connection terminal in the same direction. Met.

  The present invention has been made in view of such a situation, a first object is to provide a fuse unit that can be horizontally assembled to a surface of a battery, and a second object is to provide a plurality of fuse units. The present invention provides a fuse unit capable of drawing out the electric wires in the same direction.

A fuse unit according to the present invention includes a battery terminal that grips a battery post provided on a battery, a unit body fixed to the battery via the battery terminal, and a protector fixed to the battery. ,
The unit main body includes a cylindrical unit main body receiving portion arranged such that a central axis is parallel to a central axis of the battery post,
A protector board disposed so as to be perpendicular to a center axis of the battery post; a protector pillar portion erected on one surface of the protector board and penetrating into the unit body receiving portion; A protector fitting pin portion that is erected on the other surface of the board and fits into a battery fitting hole formed in the battery, a protector frame connected to the protector board, and a hinge portion on the protector frame. And a protector lid rotatably provided through the
In a state in which the protector post has entered the unit main body receiving portion, an end surface of the unit main body receiving portion and one surface of the protector substrate abut, and between the unit main body receiving portion and the protector post. Is characterized in that a play space is formed in a direction parallel to one surface of the protector substrate, and the unit body receiving portion and the protector pillar are covered by the rotated protector lid.

Further, in the fuse unit according to the present invention, the protector frame may include a protector inner plate near the protector substrate, a protector outer plate arranged substantially parallel to the protector inner plate, the protector inner plate, and the protector. Comprising a protector bottom plate that connects the outer plate and
The protector lid portion is rotatably installed on the protector outer plate via the hinge portion,
The circumference is surrounded by the rotated protector lid and the protector frame, and an electric wire guide path which is a space open at both ends is formed.

Further, in the fuse unit according to the present invention, a protector partition plate facing the protector pillar portion is erected on the protector substrate,
The protector lid is provided with a protector lid lock claw or a protector lid lock groove that forms a lock mechanism,
The protector partition plate is provided with a protector lid lock claw or a protector partition lock groove or a protector partition lock lock claw that can be locked to the protector lid lock groove.

Further, in the fuse unit according to the present invention, the protector pillar portion includes a first protector pillar portion having a cross-shaped cross section and a second protector pillar portion having a C-shaped cross section.
The unit main body receiving portion includes a first unit main body receiving portion having a cross-shaped inner shell into which the first protector post portion can enter, and a circular or rectangular cross section into which the second protector post portion can enter. A second unit body receiving portion having an inner shell,
The protector lid, when rotated, a first protector lid that covers the first unit main body receiving portion in a state in which the first protector column has penetrated, and the first protector lid in a state in which the second protector column has penetrated. A second protector lid for covering the second unit main body receiving portion.

(A) In the fuse unit according to the present invention, the unit body and the protector are separately fixed to the battery, and the end surface of the unit body receiving portion and one surface of the protector board are in contact with each other. It is easy to assemble the battery horizontally with respect to the surface of the battery, and the possibility of assembling the battery post in an inclined state with respect to the battery post is eliminated.
(B) Further, the vibration load during traveling can be supported at a plurality of locations of the battery post and the protector fitting pin portion.
(C) Further, since the protector frame forms the wire guide path, a plurality of wires can be drawn out in the same direction.

FIG. 2 is a perspective view showing the entire fuse unit according to the first embodiment of the present invention; FIG. 4 is a perspective view for explaining the fuse unit according to Embodiment 1 of the present invention and showing an assembled battery. FIG. 4 is a perspective view for explaining the fuse unit according to Embodiment 1 of the present invention and showing a state where the fuse unit is assembled to a battery. FIG. 3 is a perspective view illustrating a part (unit main body) illustrating the fuse unit according to Embodiment 1 of the present invention. FIGS. 4A and 4B illustrate a fuse unit according to Embodiment 1 of the present invention, in which FIG. 4A is a perspective view illustrating a part (protector), and FIG. It is a perspective view. FIG. 4 is a perspective view for explaining the fuse unit according to the first embodiment of the present invention and showing a first step of an assembling procedure. FIGS. 2A and 2B are views illustrating a fuse unit according to the first embodiment of the present invention, in which FIG. 1A is a perspective view illustrating a second step of an assembling procedure, and FIG. FIG. 4A and 4B illustrate a fuse unit according to Embodiment 1 of the present invention, in which FIG. 4A is a perspective view illustrating a third step of an assembly procedure, and FIG. 4B is a perspective view illustrating a part of FIG. FIG. FIG. 7 is a plan view for explaining the fuse unit according to the first embodiment of the present invention and illustrating a fourth step in the assembly procedure. 9A and 9B are diagrams illustrating a fuse unit according to the first embodiment of the present invention, in which FIG. 9A is an enlarged cross-sectional view taken along a line AA in FIG. 9, and FIG. It is sectional drawing which expands and shows.

  Hereinafter, embodiments for carrying out the invention (hereinafter, referred to as “embodiments”) will be described with reference to the drawings. In addition, each drawing is schematically drawn, and the present invention is not limited to the illustrated form (shape and number of parts). In some cases, descriptions of some members or some reference numerals are omitted to avoid complexity of the drawings.

[Embodiment 1]
1 to 5 illustrate a fuse unit according to Embodiment 1 of the present invention. FIG. 1 is a perspective view showing the whole, FIG. 2 is a perspective view showing a battery to be assembled, and FIG. FIG. 4A is a perspective view showing a part (unit main body), FIG. 5A is a perspective view showing a part (protector), and FIG. 5B is a perspective view showing the assembled state. FIG. 3 is a perspective view showing a part (a protector) in an enlarged manner.

(Fuse unit)
In FIG. 1, the fuse unit 100 has a battery terminal 10, a unit body 20, and a protector 30. Hereinafter, each will be described in detail.

(battery)
In FIG. 2, a battery 40 to which the fuse unit 100 is attached has a battery post 41 that is perpendicular to a predetermined surface (hereinafter, referred to as a “battery concave surface”) 42 and is one step higher in parallel with the battery concave surface 42. A first battery fitting hole 43a and a second battery fitting hole 43b perpendicular to the battery top surface 44 are formed on a surface (hereinafter, referred to as "battery top surface") 44.

(Assembled state)
In FIG. 3, the fuse unit 100 is assembled to the battery 40. At this time, the battery terminal 10 is fixed to the battery post 41.
That is, the post grip 13 of the battery terminal 10 grips the battery post 41. Further, the terminal connection nut 28 is screwed into the terminal stud bolt 11 provided on the battery terminal 10, and the battery terminal 10 and the unit main body 20 are connected (see FIG. 8).
The first connection nut 28a is screwed into the first stud bolt 29a provided on the unit body 20, and the first wire terminal 91a fixed to the first wire 90a is connected to the first stud bolt 29a. (See FIG. 8). The second electric wire 90b is fixed to the second stud bolt 29b by the second connection nut 28b.
The first electric wire 90a is connected to a starter motor or a relay block (not shown) via a directly above FL fuse (fusible link fuse) 27 described later, and the second electric wire 90b is connected to a heater (not shown).
Further, protector 30 is fixed to battery 40 at first battery fitting hole 43a and second battery fitting hole 43b (see FIG. 2) provided on battery upper surface 44 (see FIG. 10).
Hereinafter, each member will be described, and then, an assembling procedure will be described.

(Unit body)
In FIG. 4, the unit main body 20 is disposed so as to face the battery concave surface 42 (see FIG. 2), and a unit main body substrate (hereinafter, referred to as a “main substrate”) 23 integrally formed with a busper formed of a conductive material. And a power supply through-hole 21 formed in the main body substrate 23 and electrically connected to the battery terminal 10, and a part of the protector 30 (a first pillar portion 32 a and a second pillar portion 32 b to be described later). A first unit main body receiving portion (hereinafter, referred to as a "first main body receiving portion") 22a and a second unit main body receiving portion (hereinafter, referred to as a "second main body receiving portion") 22b into which a clearance is made to enter. ing.
Further, a first external terminal connection portion 24a on which the first stud bolt 29a is erected and a second external terminal connection portion 24b on which the second stud bolt 29b is erected are disposed with the main substrate 23 interposed therebetween. The main body substrate 23 has a FL fuse (fusible link fuse) 27 directly above.
The second external terminal connecting portion 24b is provided with a main body side plate 25 substantially perpendicular to the main body substrate 23, and the first main body receiving portion 22a and the second main body Two main body receiving portions 22b are provided.

(First body receiving portion and second body receiving portion of the unit body)
The first main body receiving portion 22a has a cross-shaped inner shell, and the outer shell is a tubular body having a rectangular cross-section. The second main body receiving portion 22b is a tubular body (square tube) whose inner and outer shells are both rectangular. The first main body central axis 22x, which is the central axis of the inner contour of the first main body receiving portion 22a, and the second main body central axis 22y, which is the central axis of the inner contour of the second main body receiving portion 22b, both pass through for power supply. The central axis of the hole 21 is parallel to the central axis 21z of the through hole.
One end face 22c of the first main body receiving portion 22a (hereinafter, referred to as "first main body receiving surface") 22c is perpendicular to the first main body central axis 22x, and is formed on one end surface of the second main body receiving portion 22b (hereinafter, referred to as "first main body receiving surface"). The second main body receiving surface 22d) is perpendicular to the second main body central axis 22y. Further, the inner contour of the first main body receiving portion 22a has a plane parallel and perpendicular to an imaginary plane connecting the first main body central axis 22x and the second main body central axis 22y.
The first main body receiving portion 22a and the second main body receiving portion 22b are configured such that portions of the protector 30 (first column portion 32a and second column portion 32b) to be described later enter with a clearance (clearance). However, the inner contour shape is not limited to the cross-sectional shape (this will be described in detail separately).

(Through hole for power supply in the unit body)
When the battery terminal 10 is disposed between the first external terminal connection portion 24a and the second external terminal connection portion 24b, the terminal stud bolt 11 provided on the battery terminal 10 is provided on the main body substrate 23. Through the supplied power supply through-hole 21. Then, by screwing the terminal connection nut 28 to the terminal stud bolt 11, the main body substrate 23 is in close contact with the battery terminal 10 and is electrically connected (see FIG. 3). At this time, the terminal connection nut 28 enters the main body seat 26 provided around the power supply through hole 21.

(protector)
5, a protector 30 includes a protector substrate 31 having a surface arranged to face a battery upper surface 44 (see FIG. 2), and a first main body receiving portion 22a which is erected on one surface of the protector substrate 31. And a first protector post (hereinafter referred to as a "first post") 32a and a second protector post (hereinafter referred to as a "second post") which enter the second main body receiving portion 22b with a play space (clearance). 32b). The other surface (hereinafter, referred to as a “protector substrate installation surface”) 31c of the protector substrate 31 is provided with a first protector fitting pin portion (hereinafter, referred to as a “first fitting pin portion”) 33a and a second protector fitting portion. A mating pin portion (hereinafter, referred to as a "second fitting pin portion") 33b is provided upright.
Hereinafter, the parts of the protector 30 will be described in detail.

(First and second pillars of the protector)
The first pillar 32a is a pillar having a cross-shaped cross-section, while the second pillar 32b is a tubular body having a C-shaped cross-section and a partly open.
The first pillar central axis 32x, which is the central axis of the first pillar 32a, and the second pillar central axis 32y, which is the central axis of the second pillar 32b, are both perpendicular to the protector substrate 31. The distance between the first pillar central axis 32x and the second pillar central axis 32y is substantially the same as the distance between the first body central axis 22x and the second body central axis 22y in the unit body 20. The outer periphery of the first pillar 32a has a plane parallel and perpendicular to an imaginary plane including the first pillar central axis 32x and the second pillar central axis 32y.
In addition, the present invention is not limited to the one including both the first pillar portion 32a and the second pillar portion 32b, and may be any one. The first pillar portion 32a and the second pillar portion 32b can secure desired strength with minimum capacity by adopting the above-mentioned cross-sectional shapes, respectively. It is not limited to.

(First and second fitting pin portions of the protector)
Each of the first fitting pin portion 33a and the second fitting pin portion 33b is a column, and has a first fitting pin portion central axis 33x, which is a central axis of the first fitting pin portion 33a, and a second fitting pin. The center axis 33y of the second fitting pin, which is the center axis of the portion 33b, is perpendicular to the protector board 31. Then, the first fitting pin 33a and the second fitting pin 33b are respectively inserted into the first battery fitting hole 43a and the second battery fitting hole 43b (see FIG. 2) formed on the battery upper surface 44. It is press-fitted and fixed so that it cannot easily come out.

(Protector frame)
Further, a protector frame 34 is integrally connected to the protector substrate 31.
That is, the protector frame 34 has a substantially L-shaped protector inner plate 34c connected to the protector substrate 31 near the protector substrate 31 and a substantially L-shaped protector disposed substantially parallel to the protector inner plate 34c. An outer plate 34a and a substantially L-shaped protector bottom plate 34b for connecting the protector inner plate 34c and the protector outer plate 34a are provided.

(First space and second space of the protector)
Further, a first protector partition plate 34d, a second protector partition plate 34e, and a third protector partition plate 34f are provided so as to straddle the protector substrate 31 and the protector inner plate 34c.
That is, a part of the surface on the opposite side of the protector substrate installation surface 31c (hereinafter, referred to as “first space bottom surface 32c”), a part of the protector inner plate 34c and the first protector partition plate 34d, and two surfaces are opened. A substantially rectangular parallelepiped space (hereinafter, referred to as “first protector space”) 31a is formed, and the first pillar 32a is disposed in the first protector space 31a.
On the other hand, a part of the surface on the opposite side of the protector substrate installation surface 31c (hereinafter, referred to as a “second space bottom surface 32d”), a part of the protector inner plate 34c, a second protector partition plate 34e, and a third protector partition plate 34f. A substantially rectangular parallelepiped space (hereinafter, referred to as a “second protector space”) 31b that is surrounded and opened on two surfaces is formed, and the second pillar portion 32b is disposed in the second protector space 31b.

(Protector lid)
A first wire guide path lid 36a is rotatably installed on the protector outer plate 34a via a first hinge 35a, and a second wire guide path lid 36b is rotated via a second hinge 35b. It is installed as possible. The first wire guide path cover 36a and the second wire guide path cover 36b cover a later-described wire guide path 50 when rotated.
A first space cover 37a that covers one opening of the first protector space 31a (an opening facing the first space bottom surface 32c) when the first wire guide path cover 36a is rotated is installed. Have been. That is, the first column 32a is sandwiched between the first space lid 37a and the first space bottom surface 32c. The first pillar 32a may be in contact with the first space lid 37a or may be opposed with a gap.
In addition, a second space cover 37b that covers one opening of the second protector space 31b (an opening facing the second space bottom surface 32d) when the second wire guide path cover 36b is turned is installed. Have been. That is, the second pillar 32b is sandwiched between the second space lid 37b and the second space bottom 32d. The second pillar 32b may be in contact with the second space lid 37b or may be opposed with a gap.
In the present invention, the first wire guideway cover 36a and the first space cover 37a are collectively referred to as a "first protector cover", and the second wire guideway cover 36b and the second space cover 37b are referred to as "first protector cover". The first and second protector lids are collectively referred to as a “second protector lid”, and the first and second protector lids are collectively referred to as a “protector lid”.

(Protector lock)
Further, a first lock groove (corresponding to a protector cover lock groove) 38a that forms a lock mechanism is provided in the first space cover 37a, and the first protector partition plate 34d can be locked in the first lock groove 38a. A first lock claw 39a (corresponding to a protector partition plate lock claw; see FIG. 10A) is provided. For this reason, when the first wire guide path cover 36a rotates, the first lock claw 39a is locked in the first lock groove 38a, and the first wire guide path cover 36a and the first space cover 37a are fixed. Will be done.
Similarly, a second lock groove (corresponding to a protector lid lock groove) 38b and a third lock groove (corresponding to a protector lid lock groove) 38c that form a lock mechanism are provided in the second space lid 37b. The second protector partition plate 34e is provided with a second lock claw 39b (corresponding to a protector partition plate lock claw) that can be locked in the second lock groove 38b, and the third protector partition plate 34f is engaged with the third lock groove 38c. A lockable third lock claw (corresponding to a protector partition plate lock claw, not shown) is provided.
For this reason, when the second electric wire guideway cover 36b rotates, the second lock claw 39b is locked in the second lock groove 38b, and the third lock claw is locked in the third lock groove 38c. The wire guide path cover 36b and the second space cover 37b are fixed.
Note that the present invention does not limit the lock mechanism. For example, the first lock groove 38a may be provided on the protector inner plate 34c instead of the first protector partition plate 34d, or the first space cover 37a may be provided. A first lock claw 39a may be provided, and a first lock groove 38a may be provided in the first protector partition plate 34d.

(Electric wire guideway)
When the first wire guide path cover 36a and the second wire guide path cover 36b rotate, the first wire guide path cover 36a, the second wire guide path cover 36b, the protector outer plate 34a, and the protector bottom plate. The circumference is surrounded by the protector 34b and the protector inner plate 34c (accurately, a part of the circumference is open), and a space (hereinafter referred to as “wire guide path”) 50 having both ends open is formed. The central axis 9 of the first electric wire 90a (see FIG. 3) guided along the electric wire guide path 50 is schematically shown by a two-dot chain line.
In addition, since the present invention does not limit the shape of the protector frame 34, it is possible to appropriately design the wire guide path 50 that opens in a desired direction.

(Assembly procedure)
Next, a procedure for assembling the fuse unit 100 to the battery 40 will be described.
The assembling procedure for assembling the fuse unit 100 to the battery 40 includes a first step of connecting the battery terminal 10 to the unit main body 20 and the first electric wire 90a and the second electric wire 90b, and a second step of abutting the unit main body 20 and the protector 30. It has a step, a third step of temporarily fixing the unit main body 20 and the protector 30 so as to be mutually movable, and a fourth step of fixing the unit main body 20 and the protector 30 to the battery 40, respectively.
Although the fuse unit 100 fixed to the battery 40 has a battery cover attached thereto, the description of the battery cover is omitted. Hereinafter, each step will be described in detail.

  6 to 10 illustrate the fuse unit according to the first embodiment of the present invention. FIG. 6 is a perspective view showing a first step of an assembling procedure, and FIG. FIG. 7B is an enlarged perspective view showing a part of FIG. 7A, and FIG. 8A is a perspective view showing a third step of the assembling procedure. 8 (b) is an enlarged perspective view showing a part of FIG. 8 (a), FIG. 9 is a plan view showing a fourth step of the assembling procedure, and FIG. 10 (a) is AA in FIG. FIG. 10B is an enlarged cross-sectional view showing a cross section, and FIG. 10B is an enlarged cross-sectional view showing a BB cross section in FIG. 9.

(First step)
In FIG. 6, the battery terminal 10 is disposed between the first external terminal connection portion 24a and the second external terminal connection portion 24b of the unit body 20, and the terminal stud bolt 11 provided on the battery terminal 10 is provided. It is inserted into the power supply through hole 21. Then, a terminal connection nut 28 is screwed into the terminal stud bolt 11 to bring the main body substrate 23 into close contact with the battery terminal 10 and electrically connect the two.
Further, the first electric wire 90a (see FIG. 3) is connected to the first stud bolt 29a of the unit body 20. That is, the first connection nut 28a is screwed into the first stud bolt 29a to fix the first wire terminal 91a provided on the first wire 90a to the first stud bolt 29a (see FIG. 3). At this time, the central axis of the first electric wire 90a (schematically indicated by a dashed line) is drawn in the direction indicated by the arrow 1.
Similarly, the second electric wire 90b (see FIG. 3) is connected to the second stud bolt 29b.

(2nd step)
In FIG. 7, the first main body receiving portion 22a and the second main body receiving portion 22b of the unit main body 20 are disposed in the first protector space 31a and the second protector space 31b of the protector 30, respectively. The first pillar portion 32a and the second pillar portion 32b are inserted into the second main body receiving portion 22b, respectively.
At this time, there is a clearance (clearance) between the inner shell of the first main body receiving portion 22a and the outer shell of the first pillar portion 32a in a direction parallel to the first space bottom surface 32c. Similarly, between the inner shell of the second main body receiving portion 22b and the outer shell of the second pillar portion 32b, there is a clearance (clearance) in a direction parallel to the second space bottom surface 32d. Therefore, the unit body 20 and the protector 30 can relatively move in a direction substantially parallel to the protector substrate 31 within the range of the play gap.
Further, the first electric wire 90a (see FIG. 3) is pushed into a substantially L-shaped groove formed by the protector outer plate 34a, the protector bottom plate 34b, and the protector inner plate 34c. Therefore, a part of the first electric wire 90a is drawn out in the direction of arrow 2 along the electric wire guide path 50 (more precisely, the surface facing the protector bottom plate 34b is open).

(3rd step)
In FIG. 8, the first wire guide path cover 36a and the second wire guide path cover 36b are respectively rotated, and the first space cover 37a and the second space cover 37b are used to rotate one of the first protector spaces 31a. And one opening of the second protector space 31b. At this time, the first lock groove 38a, the second lock groove 38b, and the third lock groove 38c are engaged with the first lock claw 39a, the second lock claw 39b, and the third lock claw, respectively. The space 37a and the second space lid 37b are fixed in a posture facing the first space bottom surface 32c and the second space bottom surface 32d, respectively (see FIG. 10A).
That is, the first main body receiving portion 22a is movable in the first protector space 31a in a direction substantially parallel to the protector substrate 31, and is perpendicular to the protector substrate 31 by the first space cover 37a and the first space bottom surface 32c. The direction is constrained (accurately, there is a case where it is slightly movable and a case where it is not movable), and it is held (temporarily fixed) so as not to be detached from the first protector space 31a.
Similarly, the second body receiving portion 22b is irremovably held (temporarily fixed) in the second protector space 31b.
Then, the first electric wire 90 a (see FIG. 3) is pulled out in the direction of arrow 2 with a part thereof being accommodated in the electric wire guide path 50.

(4th step)
9 and 10, the first fitting pin 33a and the second fitting pin 33b of the protector 30 are respectively connected to a first battery fitting hole 43a and a second battery fitting hole 43b (see FIG. 2). Then, the protector 30 is fixed to the battery 40 with the protector substrate mounting surface 31c pressed against the battery upper surface 44.
Further, the battery terminal 10 is fixed to the battery post 41. As a result, the fuse unit 100 is assembled to the battery 40. At this time, the first main body receiving surface 22c of the first main body receiving portion 22a presses the first space bottom surface 32c of the first protector space 31a, and the second main body receiving surface 22d of the second main body receiving portion 22b is connected to the second protector space 31b. Of the second space bottom surface 32d.
That is, in the battery terminal 10, the battery post 41 is inserted into the C-shaped cross section of the post holding section 13 provided on the terminal board 12 (the terminal stud bolt 11 is provided upright). By inserting a tightening bolt 19 into a through hole (not shown) formed in a pair of tightening plates 14 provided at the open ends, and screwing a tightening nut 18 into the tightening bolt 19, the tightening plate 14 is tightened. Bring them closer together. Then, the inner diameter of the post gripper 13 is reduced, and the post gripper 13 grips the battery post 41.
At this time, the terminal stud bolt central axis 11z of the terminal stud bolt 11 and the gripper central axis 13z of the post gripper 13 are both perpendicular to the terminal substrate 12, so that the main body substrate 23 of the unit main body 20 It becomes parallel to the battery concave surface 42 (perpendicular to the battery post 41) (see FIG. 10B).

(Effects)
(A) In the unit main body 20 fixed at the battery post 41, the first main body receiving surface 22c and the second main body receiving surface 22d press the first space bottom surface 32c and the second space bottom surface 32d of the protector 30, respectively. 30 is fixed in the first battery fitting hole 43a and the second battery fitting hole 43b in a state where the protector board mounting surface 31c is pressed against the battery upper surface 44. For this reason, the unit main body 20 is assembled parallel to the battery concave surface 42, and the possibility that the unit main body 20 is inclined and assembled to the battery post 41 is eliminated.
(B) Further, the vibration load applied to the fuse unit 100 during traveling can be supported at three places of the battery post 41, the first fitting pin 33a, and the second fitting pin 33b. At this time, the displacement (deformation) of the unit body 20 in the direction of the battery 40 is indirectly regulated by the battery upper surface 44 via the protector 30.
(C) Further, in the fuse unit 100, since the protector frame 34 forms the wire guide path 50, the first wire 90a can be pulled out in the same direction as the second wire 90b.

  The present invention has been described based on the embodiments. This embodiment is an exemplification, and it will be understood by those skilled in the art that various modifications can be made to the respective components and combinations thereof, and that such modifications are also within the scope of the present invention.

  As described above, the present invention can be widely used as a fuse unit to be assembled to various batteries.

1: Arrow (direction of pulling out the first electric wire)
2: Arrow (direction of pulling out the first electric wire)
9: Central axis of the first electric wire 10: Battery terminal 11: Terminal stud bolt 11z: Terminal stud bolt central axis 12: Terminal board 13: Post holding part 13z: Holding part central axis 14: Tightening plate 18: Tightening nut 19 : Tightening bolt 20: Unit main body 21: Power supply through hole 21z: Through hole center shaft 22a: First unit main body receiving portion (first main body receiving portion)
22b: second unit main body receiving portion (second main body receiving portion)
22c: first main body receiving surface 22d: second main body receiving surface 22x: first main body central axis 22y: second main body central axis 23: unit main body substrate (main body substrate)
24a: first external terminal connection portion 24b: second external terminal connection portion 25: main body side plate 26: main body seat portion 27: FL fuse (fusible link fuse)
28: terminal connection nut 28a: first connection nut 28b: second connection nut 29a: first stud bolt 29b: second stud bolt 30: protector 31: protector substrate 31a: first protector space 31b: second protector space 31c: Protector board installation surface 32a: first protector pillar (first pillar)
32b: second protector pillar (second pillar)
32c: first space bottom surface 32d: second space bottom surface 32x: first pillar center axis 32y: second pillar center axis 33a: first protector fitting pin portion (first fitting pin portion).
33b: second protector fitting pin portion (second fitting pin portion)
33x: first fitting pin central axis 33y: second fitting pin central axis 34: protector frame 34a: protector outer plate 34b: protector bottom plate 34c: protector inner plate 34d: first protector partition plate 34e: second protector Partition plate 34f: Third protector Partition plate 35a: First hinge portion 35b: Second hinge portion 36a: First wire guideway cover portion 36b: Second wire guideway cover portion 37a: First space cover portion 37b: Second. Space cover 38a: first lock groove 38b: second lock groove 38c: third lock groove 39a: first lock claw 39b: second lock claw 40: battery 41: battery post 42: battery concave surface 43a: first battery fit. Mating hole 43b: second battery fitting hole 44: battery upper surface 50: electric wire guideway 90a: first electric wire 90b: second Line 91a: first wire terminal 100: fuse unit

Claims (4)

A battery terminal for holding a battery post provided on the battery,
A unit body fixed to the battery via the battery terminal;
A protector fixed to the battery,
The unit main body includes a cylindrical unit main body receiving portion arranged such that a central axis is parallel to a central axis of the battery post,
A protector board disposed so as to be perpendicular to a center axis of the battery post; a protector pillar portion erected on one surface of the protector board and penetrating into the unit body receiving portion; A protector fitting pin portion that is erected on the other surface of the board and fits into a battery fitting hole formed in the battery, a protector frame connected to the protector board, and a hinge portion on the protector frame. And a protector lid rotatably provided through the
In a state in which the protector post has entered the unit main body receiving portion, an end surface of the unit main body receiving portion and one surface of the protector substrate abut, and between the unit main body receiving portion and the protector post. In the fuse unit, a play gap is formed in a direction parallel to one surface of the protector substrate, and the unit body receiving portion and the protector pillar are covered by the rotated protector lid. The protector frame includes a protector inner plate closer to the protector substrate, a protector outer plate arranged substantially parallel to the protector inner plate, and a protector bottom plate connecting the protector inner plate and the protector outer plate. Have,
The protector lid portion is rotatably installed on the protector outer plate via the hinge portion,
2. The fuse unit according to claim 1, wherein the circumference is surrounded by the rotated protector lid and the protector frame, and an electric wire guide path is formed as a space open at both ends. On the protector substrate, a protector partition plate facing the protector pillar is erected,
The protector lid is provided with a protector lid lock claw or a protector lid lock groove that forms a lock mechanism,
The protector partition plate is provided with a protector lid lock claw or a protector partition lock groove or a protector partition lock lock claw that can be locked to the protector lid lock groove. Fuse unit as described. The protector pillar includes a first protector pillar having a cross-shaped cross section and a second protector pillar having a C-shaped cross section.
The unit main body receiving portion includes a first unit main body receiving portion having a cross-shaped inner shell into which the first protector post portion can enter, and a circular or rectangular cross section into which the second protector post portion can enter. A second unit body receiving portion having an inner shell,
The protector lid, when rotated, a first protector lid that covers the first unit main body receiving portion in a state in which the first protector column has penetrated, and the first protector lid in a state in which the second protector column has penetrated. The fuse unit according to any one of claims 1 to 3, comprising a second protector lid for covering the second unit main body receiving portion.

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