[0001] The present invention relates to a terminal block and to a method of connecting an
inner conductive member and an outer conductive member arranged inside and outside
a device.
[0002] Conventionally, a terminal block for electrically connecting conductive members provided
in electric devices such as a motor, an inverter and the like is known from Japanese
Unexamined Patent Publication No.
2010-211933. This includes a housing made of synthetic resin and to be mounted through a case
of a specified device in an in-out direction and a plurality of terminals each configured
such that a connecting portion with a nut is provided on each of opposite ends of
an L-shaped busbar. The terminals are so structured that the connecting portions on
one end side and those on the other end side are mounted side by side to be respectively
located on an outer end part of the housing and in an inner end part of the housing.
[0003] Outer conductive members formed of busbars extending from the electric device such
as an inverter are bolted and connected to the outer connecting portions of the terminals
mounted in the terminal block, and inner conductive members formed of busbars extending
from the electric device such as a motor are likewise bolted and connected to the
inner connecting portions of the terminals, whereby the corresponding inner and outer
conductive members are electrically connected.
[0004] In the above conventional terminal block, an operation space allowing the insertion
of a bolting tool into the device is necessary particularly in bolting and connecting
the inner conductive members to the corresponding inner connecting portions of the
terminals. Thus, the device tends to be enlarged. Further, due to a bolting operation
in the device, there has been a problem of being difficult to operate and its improvement
has been desired.
[0005] The present invention was completed based on the above situation and aims to realize
space saving and improving operability in connecting a conductive member and a terminal.
[0006] This object is solved according to the invention by the features of the independent
claims. Particular embodiments of the invention are subject of the dependent claims.
[0007] According to one aspect of the invention, there is provided a terminal block for
connecting an inner conductive member and an outer conductive member arranged inside
and outside a device, including a housing provided to penetrate through a case of
the device in an in-out direction; and at least one terminal mounted or to be mounted
in the housing and including a connecting portion to be connected to the outer conductive
member and provided on an outer end part and a (particularly substantially tubular)
socket terminal to be fitted and connected to a pin terminal provided or to be provided
on the inner conductive member and provided on an inner end part; wherein at least
one flexible vibration absorbing portion is provided between the inner and outer connecting
portions of the terminal.
[0008] According to this configuration, the pin terminal is fitted into the mating socket
terminal in connecting the inner conductive member to the connecting portion on the
inner end side of the terminal. As compared with connection by bolting, it suffices
to fit the pin terminal into the socket terminal. Thus, a connecting operation itself
is simple, a need for an operation space for bolting can be eliminated, and space
saving can be realized.
[0009] Further, since the terminal provided in the terminal block includes the vibration
absorbing portion, if vibration acts on the inner or outer conductive member when
the inner and outer conductive members are connected via the terminal block, this
vibration is absorbed by the vibration absorbing portion and the transmission thereof
to the opposite conductive member side is suppressed.
[0010] Further, the following configurations may be adopted.
[0011] Particularly, a sub-housing is provided in which the socket terminal at least partly
is to be accommodated and on which a terminal insertion opening, into which the pin
terminal is insertable, is open.
[0012] Further particularly, the sub-housing is mounted in the housing loosely movably in
a direction intersecting with an axis of the socket terminal.
[0013] In this configuration, since the sub-housing is mounted in the housing, adopting
a so-called floating structure, even if the inner conductive member, i.e. the pin
terminal is arranged at a deviated position, the pin terminal and the socket terminal
can be precisely aligned with and fitted to each other while loosely moving the sub-housing
in a direction intersecting with a connection direction of individual pin terminals
and socket terminals (or a longitudinal axis of the socket terminal).
[0014] The vibration absorbing portion in the terminal comprises (particularly is formed
by) at least one braided wire.
[0015] In this configuration, a vibration absorbing function is more reliably exhibited.
Further, in the case of adopting the floating structure, the terminal is more easily
deformed, whereby a floating function can be more reliably exhibited.
[0016] Further particularly, the socket terminal is accommodated in an inner end part of
the housing; and wherein at least one terminal insertion opening, into which the pin
terminal is insertable, is provided on an outer surface of the housing to communicate
with the socket terminal.
[0017] Further particularly, at least one tapered guiding portion is formed on or near an
opening edge part of the terminal insertion opening.
[0018] Further particularly, the housing includes a housing main body molded with an opening
formed on the side of the socket terminal of the terminal and a cover to be mounted
on the opening of the housing main body to at least partly cover the socket terminal
[0019] Further particularly, the terminal insertion opening is formed over the housing main
body and the cover.
[0020] Further particularly, the connecting portion has such a plural- or two-piece structure
that a substantially tubular body is fitted on the outer periphery of a louver terminal
portion.
[0021] Further particularly, the louver terminal portion is shaped such that a plurality
of resilient contact pieces, each particularly including a contact portion on or near
a tip side and substantially extending forward, at least partly are arranged in a
ring shape while being circumferentially spaced apart on the front edge of an annular
base portion.
[0022] According to another aspect of the invention, there is provided a method of connecting
an inner conductive member and an outer conductive member arranged inside and outside
a device , particularly using a terminal block according to the above aspect or a
particular embodiment thereof, comprising the following steps: providing a housing
to penetrate through a case of the device in an in-out direction; mounting at least
one terminal in the housing and including a connecting portion to be connected to
the outer conductive member and provided on an outer end part; and providing a socket
terminal to be fitted and connected to a pin terminal to be provided on the inner
conductive member and provided on an inner end part; wherein at least one flexible
vibration absorbing portion is provided between the inner and outer connecting portions
of the terminal.
[0023] According to a particular embodiment, the method further comprises the step of at
least partly accommodating the socket terminal in a sub-housing, wherein a terminal
insertion opening, into which the pin terminal is insertable, is open in the sub-housing.
[0024] Further particularly, the sub-housing is mounted in the housing loosely movably in
a direction intersecting with an axis of the socket terminal.
[0025] Further particularly, the vibration absorbing portion in the terminal is formed to
comprise at least one braided wire.
[0026] Further particularly, the socket terminal is accommodated in an inner end part of
the housing; and wherein at least one terminal insertion opening, into which the pin
terminal is insertable, is provided on an outer surface of the housing to communicate
with the socket terminal.
[0027] According to the above, it is possible to realize space saving, efficiently perform
a connecting operation of a conductive member and a terminal and suppress the transmission
of vibration between inner and outer conductive members in a state where the inner
and outer conductive members are connected to each other.
[0028] These and other objects, features and advantages of the present invention will become
more apparent upon reading of the following detailed description of preferred embodiments
and accompanying drawings. It should be understood that even though embodiments are
separately described, single features thereof may be combined to additional embodiments.
FIG. 1 is a perspective view showing the external appearance of a terminal block according
to one embodiment of the present invention,
FIG. 2 is a front view of the terminal block,
FIG. 3 is a side view of the terminal block,
FIG. 4 is a perspective view partly in section of the terminal block,
FIG. 5 is a section along V-V of FIG. 2, and
FIG. 6 is a vertical section when a housing main body is molded.
<Embodiment>
[0029] One particular embodiment of the present invention is described with reference to
FIGS. 1 to 6.
[0030] In this embodiment is illustrated a terminal block T for electrically connecting
one or more conductive members, e.g. three conductive members provided in a three-phase
alternating current motor mounted in a vehicle such as an electric vehicle or a hybrid
vehicle and one or more respective mating conductive members, e.g. three conductive
members provided in an inverter. The terminal block T is applied in a case where the
motor and the inverter are directly coupled.
[0031] More specifically, as shown in FIG. 5, the terminal block T is to be provided on
a lateral wall (e.g. an upper wall) 2 of a transmission case 1 (as a particular electric
or electronic device) and an unillustrated motor-side case is adjacently assembled
particularly on a front opening side (left side in FIG. 5) of the transmission case
1, whereas an inverter-side case is assembled on the lateral (e.g. upper) surfaces
of the integrally joined transmission case 1 and motor-side case. The three conductive
members (as a particular inner conductive member) extending from the motor and the
conductive members (as a particular outer conductive member) extending from the inverter
are electrically connected via the terminal block T as described above.
[0032] In this specific embodiment, the outer conductive members extending from the inverter
are one or more busbars, whereas the inner conductive members extending from the motor
are obtained by wires, particularly by solidifying enamel wires in a substantially
straight posture using an adhesive or the like, and one or more (particularly substantially
round) pin terminals p are to be substantially coaxially connected on the tips of
the inner conductive members as shown in FIG. 5.
[0033] The structure of the terminal block T is described in detail. As shown in FIG. 1,
the terminal block T includes one or more, particularly shown three terminals 10 and
a housing 30 which is made of synthetic resin and in which one or more, particularly
these three terminals 10 are to be mounted particularly side by side.
[0034] The terminal 10 particularly is structured such that a flexible conductor 12, which
serves as a vibration absorbing portion, is connected to a hanging or projecting end
of a busbar 11 particularly substantially bent into an L shape. This flexible conductor
12 particularly is structured by bending at least one braided wire into a substantially
S shape.
[0035] A (particularly substantially horizontal) part of the busbar 11 which is one end
side of the terminal 10 serves as an outer connecting portion 14 to be connected to
the outer conductive member and particularly is formed with an insertion hole 15 for
a bolt. A socket terminal 20 which functions as an inner connecting portion to be
connected to the inner conductive member is provided on another end (particularly
a distal or lower end) of the flexible conductor 12 which is the other end side of
the terminal 10.
[0036] This socket terminal 20 particularly has such a plural- or two-piece structure that
a substantially tubular body 25 is fitted on the outer periphery of a louver terminal
portion 21. The louver terminal portion 21 is shaped such that a plurality of resilient
contact pieces 23 each including a contact portion 23A on or near a tip side and substantially
extending forward at least partly are arranged in a ring shape while being circumferentially
spaced apart on the front edge of an annular base portion 22. A rear edge part of
the lower surface of the base portion 22 is bent outward to form a projection 22A.
Further, a coupling piece 24 is erected or projects from (particularly the rear edge
of the upper surface of) the base portion 22.
[0037] A jaw portion 26 (shown in Fig. 6) substantially facing inward to protect the tips
of the resilient contact pieces 23 of the louver terminal portion 21 is formed on
or near the front end of the tubular body 25. The lower surface of the tubular body
25 particularly is cut from the rear edge to form at least one groove 28 into which
the above projection 22A at least partly is insertable. The tubular body 25 is to
be fitted onto or connected with (particularly the outer periphery of) the louver
terminal portion 21 particularly substantially from front, the pushing thereof particularly
is stopped when the projection 22A comes into contact with the back edge of the groove
28, and the tubular body 25 particularly is retained and mounted by bending or folding
back one or more, particularly a pair of joining pieces 27 projecting from the rear
edge onto the base portion 22.
[0038] More specifically, after the L-shaped busbar 11 forming the terminal 10 particularly
substantially is set in a backward facing orientation, an upper or distal end part
of this flexible conductor 12 is placed in contact with (particularly the rear surface
of a lower end part of) the busbar 11 and fixed such as by spot welding, soldering,
gluing or the like. In addition, (particularly a lower end part of) the flexible conductor
12 is placed in contact with (particularly the front surface of an upper end part
of) the coupling piece 24 erected or projecting from the base portion 22 of the louver
terminal 21 and likewise fixed such as by spot welding, soldering, gluing or the like.
In this way, the terminal 10 is formed, and the socket terminal 20 as the inner connecting
portion is provided on a lower end part of the terminal 10 particularly in such a
posture as to substantially face in a direction (leftward direction of FIG. 6) opposite
to a bending direction of the outer connecting portion 14.
[0039] In this specific embodiment, a total of three terminals 10 are provided, and each
terminal 10 is so mounted in the housing 30 that the socket terminal 20 at least partly
is accommodated in a sub-housing 60 (see FIG. 5). The sub-housing 60 is described
later.
[0040] The housing 30 particularly is composed of or comprises a housing main body 31 and
a cover 50. As shown in FIGS. 1 and 6, the housing main body 31 substantially is formed
into a box shape having a lower surface opening long and narrow substantially in a
lateral direction, a laterally long flange 32 is formed on the lateral or upper edge
thereof, and one or more mounting holes 33, into which one or more collars 34 at least
partly are fitted, are provided laterally of the flange 32, particularly on substantially
opposite lateral (left and right) ends of this flange 32. A packing mounting groove
35 particularly is circumferentially provided on the lower surface of the flange 32,
and an annular surface packing 36 is to be mounted thereinto.
[0041] A seat block 40 on which the outer connecting portion(s) 14 of the respective terminal(s)
10 is/are mounted (particularly substantially side by side) is provided in a central
or intermediate part of the lateral or upper surface of the housing main body 31.
This seat block 40 is formed with one or more (e.g. three) seats 41 on which the outer
connecting portions 14 are individually mounted, and the (particularly each) seat
41 is formed with an accommodating chamber 43 for a nut 42 which is recessed from
a placing surface and substantially open forward. The nut 42 is to be at least partly
accommodated in each accommodating chamber 43 with the displacement (particularly
rotation) thereof prevented.
[0042] First, a procedure of producing the housing main body 31 is described with reference
to FIG. 6. First, the seat block 40 is formed over the busbars 11 of the one or more,
particularly three terminals 10 arranged at specified (predetermined or predeterminable)
intervals by primary molding, whereby the one or more, particularly three terminals
10 are held in specified (predetermined or predeterminable) postures on the seat block
40.
[0043] Subsequently, secondary molding is performed with this seat block 40 and the one
or more, particularly three terminals 10 as a core, thereby forming the housing main
body 31. At this time, a first part (particularly a lower half) of the (particularly
each) socket terminal 20 projects laterally (particularly substantially downward)
from the lateral edge (particularly the lower edge) of (particularly a front wall
31A directly behind the front wall 31A of) the housing main body 31. Note that the
collars 34 are also mounted.
[0044] The cover 50 particularly is formed separately from the housing main body 31 and/or
substantially in the form of a rectangular deep dish to at least partly cover the
aforementioned lateral or lower surface opening of the housing main body 31. As shown
in FIG. 3, one or more resiliently displaceable lock frames 51 are formed to rise
on one or more lateral (left and/or right) side surfaces of the cover 50, whereas
one or more lock projections 38 are provided on one or more lateral (left and/or right)
side surfaces of the housing main body 31. When the cover 50 is properly mounted on
the lateral or lower surface opening of the housing main body 31, the lock frame(s)
51 is/are resiliently fitted to the lock projection(s) 38, thereby forming the housing
30 in which the housing main body 31 and the cover 50 are integrally joined.
[0045] As described above, the socket terminal 20 as the inner connecting portion of the
terminal 10 is to be at least partly accommodated in the sub-housing 60. This sub-housing
60 is made e.g. of synthetic resin and particularly substantially formed into a hollow
cylindrical shape which is provided with a front wall 61 and into which the socket
terminal 20 is at least partly insertable particularly substantially from behind as
shown in FIGS. 4 and 5. The sub-housing 60 particularly has a length equivalent to
a dimension of the housing main body 31 in a front-back direction, but a first part
(particularly an upper half) is cut off in a length area (particularly having less
than half the length) on a rear end side, thereby forming an escaping portion 62.
In other words, only a semicylindrical portion 63 on a second part (particularly a
lower half) is present on the rear end side of the sub-housing 60.
[0046] A terminal insertion opening 65, into which the above (particularly substantially
round) pin terminal p at least partly is insertable, is open on the front wall 61
of the sub-housing 60, and a guiding portion 66 widened toward a front side is formed
in a front end part of the terminal insertion opening 65.
[0047] A locking lance 67 for locking the projection 22A of the socket terminal 20 is resiliently
deflectably provided on (particularly the bottom wall of) the sub-housing 60 particularly
while substantially extending backward. The socket terminal 20 is to be at least partly
inserted into the sub-housing 60 (particularly substantially from behind) and displaced
or pushed while resiliently deflecting the locking lance 67. When the socket terminal
20 is positioned or pushed to such a position as to come into contact with the front
wall 61, the projection 22A passes over a locking portion 67A of the locking lance
67 and the locking portion 67A is engaged with the projection 22A while the locking
lance 67 at least partly is restored and displaced, whereby the socket terminal 20
is retained and accommodated in the sub-housing 60.
[0048] A front rib 68 (particularly substantially having a constant height or projecting
distance) is formed (particularly over the substantially entire circumference) on
the outer periphery of a front end part of the sub-housing 60, specifically in a central
or intermediate part of the front wall 61 in a thickness direction. Further, a rear
rib 60 (particularly substantially having the same height as the front rib 68) is
formed on the outer periphery of the semicylindrical portion 63 of the sub-housing
60.
[0049] On the other hand, as shown in FIGS. 1 and 5, one or more fitting holes 45A into
which front end part(s) (front wall(s) 61) of the sub-housing(s) 60 accommodating
the above socket terminals 20 is/are to be fitted are formed in positions corresponding
to the terminal(s) 10 (socket terminal(s) 20) and/or at the same interval(s) as the
terminal(s) 10 (socket terminals 20) on a joint of the lower edge of the housing main
body 31 and the upper edge of the cover 50 on the front surface of the housing 30.
A fitting groove 46A into which the front rib 68 of the sub-housing 60 at least partly
is to be fitted is formed over the entire circumference on the inner surface of each
fitting hole 45A.
[0050] Note that since the housing main body 31 and the cover 50 are integrally assembled
later as described above, a first part (particularly an upper half) of each fitting
hole 45A is formed on the (lower) edge of the front wall 31A of the housing main body
31 and a second part (particularly a lower half) thereof is formed on the upper edge
of a front wall 50A of the cover 50.
[0051] Further, one or more (particularly substantially semicircular) fitting holes 45B
into which rear end part(s) of the semicylindrical portion(s) 63 of the sub-housing(s)
60 is/are to be fitted are formed on (particularly the upper edge of a rear wall 50B
of) the cover 50, and one or more fitting grooves 46B into which the rear rib(s) 69
of the sub-housing(s) 60 at least partly is/are to be fitted are formed on the inner
surface(s) (particularly lower semi-circumferential surface(s)) of the fitting hole(s)
45B.
[0052] An inner diameter of the fitting hole 45A on the front surface side of the housing
30 particularly is set to be larger than an outer diameter of the front end part of
the sub-housing 60 by a fixed dimension and an inner diameter of the fitting groove
46A particularly is set to be larger than an outer diameter of the front rib 68 (particularly
by the substantially same dimension). Further, an inner diameter of the semicircular
fitting hole 45B on the rear surface side of the housing 30 particularly is set to
be larger than an outer diameter of the semicylindrical portion 63 of the sub-housing
60 (particularly by the substantially same dimension), and/or an inner diameter of
the fitting groove 46B is set to be larger than an outer diameter of the rear rib
69 (particularly by the substantially same dimension).
[0053] Next, an example of an assembling procedure of the terminal block T according to
this embodiment and a use example of this terminal block T are described.
[0054] As partly already described, the housing main body 31 integrally including the one
or more (e.g. three) terminals 10 is formed by two moldings as shown in FIG. 6. The
outer connecting portion 14 of each terminal 10 is placed on the corresponding seat
41 right above the accommodating chamber 43 for the nut 42 while being substantially
held in a forward facing posture. Further, the socket terminal 20 as the inner connecting
portion of the
[0055] (particularly each) terminal 10 particularly is located on the substantially same
axis as the fitting hole 45A (precisely, upper half of this fitting hole 45A) behind
the fitting hole 45A while being similarly substantially held in a forward facing
posture.
[0056] Next, the one or more sub-housings 60 are mounted on the one or more socket terminals
20 as the inner connecting portion(s) of the one or more (e.g. three) terminals 10
integrally provided in the housing main body 31 in a manner already described above.
Subsequently, the cover 50 is mounted on (particularly the lower surface opening of)
the housing main body 31. The lock frame(s) 51 move(s) onto the lock projection(s)
38, is/are displaced or pushed up from below while being resiliently displaced, and
is/are fitted to the lock projection(s) 38 while being restored into or towards an
original shape when the upper edge of the cover 50 comes into contact with the lower
edge of the housing main body 31, whereby the cover 50 is integrally joined and the
housing 30 is formed as shown in FIG. 5.
[0057] At this time, as shown in FIG. 5, the (particularly each) sub-housing 60 is fitted
with a specified (predetermined or predeterminable) radial clearance formed between
a front end part thereof and the fitting hole 45A on the front surface side of the
housing 30 while the front rib 68 at least partly is fitted into the fitting groove
46A. Further, the semicylindrical portion 63 of the sub-housing 60 is fitted with
a specified (predetermined or predeterminable) radial clearance formed in the semicircular
fitting hole 46B on the rear surface side of the housing 30 while the rear rib 69
at least partly is fitted into the fitting groove 46B. Specifically, each sub-housing
60 is mounted in a lower end part of the housing 30 with movements thereof in an axial
direction (front-back direction) restricted and with loose movements thereof in a
direction (radial direction) intersecting with an axis allowed in the clearances.
[0058] The nut 42 at least partly is inserted into the accommodating chamber 43 of each
seat 41 on such a housing 30, and the surface packing 36 is mounted into the packing
mounting groove 35 on the lower surface of the flange 32, whereby the terminal block
T is completed.
[0059] The terminal block T assembled as described above is mounted on (particularly the
upper wall 2 of) the transmission case 1 as shown in FIG. 5. Specifically, the lower
end part of the housing 30 at least partly is inserted into a through hole 3 open
on the case upper wall 2 from above and, thereafter, one or more bolts are inserted
into the mounting hole(s) 33 of the flange 32 and screwed into bolt hole(s) on the
case upper wall 2, whereby the flange 32, i.e. the terminal block T is fixed to the
case upper wall 2. Particularly simultaneously, the surface packing 36 is compressed
and pressed against the hole edge of the through hole 3, thereby sealing the through
hole 3.
[0060] When the terminal block T is mounted in this way, the outer connecting portion 14
of each terminal 10 is exposed on (particularly an upper or lateral surface side (outer
side) of) the case upper wall 2 while being arranged on (particularly the upper surface
of) the housing 30 (seat block 40). On the other hand, the socket terminal 20 as the
inner connecting portion of each terminal 10 at least partly is accommodated in the
sub-housing 60 supported loosely movably in the radial direction relative to the housing
30.. In other words, the sub-housing 60 is arranged in a floating structure allowing
for a displacement of the sub-housing 60 with respect to the housing 30 in a direction
intersecting with a longitudinal axis of the socket terminal 20 so that a relative
position of the socket terminal 20 with respect to the pin terminal p can be achieved.
[0061] Next, a procedure of connecting the one or more conductive members with one or more
respective mating conductive members, particularly of connecting the three conductive
members of the three-phase alternating current motor and those of the inverter utilizing
the terminal block T is described. It should be understood that the terminal block
T may be utilized for connecting any kind of conductive member with a respective mating
conductive member irrespective of the given specific example of the three-phase alternating
current motor and inverter.
[0062] First, the one or more, particularly three inner conductive members (enamel wires)
of the motor side are connected to the inner connecting portions of the corresponding
terminals 10 by inserting the (particularly substantially round) pin terminal(s) p
provided on the tip(s) of the enamel wire(s) into the socket terminal(s) 20 behind
the terminal insertion opening(s) 65 of the sub-housing(s) 60 mounted in the lower
end part of the housing 30 through the terminal insertion opening(s) 65 as indicated
by an arrow in FIG. 5.
[0063] At this time, even if the (round) pin terminal(s) p is/are misaligned with the socket
terminal(s) 20, it/they is/are inserted while being aligned by the guiding portion(s)
66.
[0064] Further, if there is a variation in the arrangement position(s) of the respective
(round) pin terminal(s) p and misalignment(s) is/are particularly large, the sub-housing(s)
60 is/are moved in the radial direction for alignment while slightly deforming the
flexible conductor(s) 12 of the terminal(s) 10 as the (round) terminal pin(s) p is/are
inserted along the guiding portion(s) 66.
[0065] Subsequently, the (particularly round) pin terminal(s) p is/are pushed or displaced
while resiliently displacing the resilient contact piece(s) 23 of the louver terminal
portion(s) 21. When the pushing or displacement of the (round) pin terminal(s) p is
stopped, the resilient contact piece(s) 23 at least partly is/are restored in a diameter
reducing direction, whereby the (round) pin terminal(s) p and the socket terminal(s)
20 are resiliently fitted into contact with each other and the one or more (e.g. three)
inner conductive members (particularly enamel wires) of the motor side are connected
to the inner connecting portion(s) (socket terminal(s) 20) of the corresponding terminal(s)
10.
[0066] Thereafter, the motor-side case is adjacently assembled to at least partly cover
a front surface opening of the transmission case 1.
[0067] Subsequently, the one or more, particularly three outer conductive members (busbars)
of the inverter side are connected to the one or more respective outer connecting
portions 14 of the one or more corresponding terminals 10. Although not shown, the
respective busbars particularly are placed on the outer connecting portions 14 arranged
substantially side by side on the upper surface of the housing 30, one or more bolts
at least partly are inserted through the insertion holes of the busbars and the insertion
holes 15 of the outer connecting portions 14 and threadably tightened into the respective
nut(s) 42 at least partly accommodated in the accommodating chambers 43 with the displacement/rotation
thereof prevented, whereby the one or more, particularly three outer conductive members
(busbars) of the inverter side are connected to the one or more, particularly respective
outer connecting portions 14 of the one or more corresponding terminals 10.
[0068] Thereafter, the inverter-side case is assembled on the lateral or upper surfaces
of the transmission case 1 and the motor-side case integrally joined as described
above.
[0069] In the above manner, specifically the three conductive members provided in the three-phase
alternating current motor and those provided in the inverter are electrically connected
via the terminal block T and a terminal connection structure of a type in which the
motor and the inverter are directly coupled is constructed.
[0070] In a state where the inner conductive member(s) of the motor side and the outer conductive
member(s) of the inverter side are connected via the terminal(s) 10 of the terminal
block T as just described, the inner conductive member of the motor side may, for
example, vibrate. However, since the flexible conductor 12 is provided at an intermediate
position of the terminal 10, this vibration is absorbed by the flexible conductor
12 and the transmission thereof to the (substantially opposite) outer conductive member
is suppressed. Thus, stress is reduced and/or the loosening of a bolt-fastened part
of the outer conductive member and the like are prevented. Also when vibration acts
on the outer conductive member, it is similarly absorbed by the flexible conductor
12 and the transmission thereof to the inner conductive member is suppressed.
[0071] In this embodiment, parts for connecting the inner conductive members of the motor
side to the inner connecting portion(s) of the terminal(s) 10 mounted in or on the
terminal block T are so structured that the (particularly round) pin terminal(s) p
is/are provided on the inner conductive member(s) and, on the other hand, the inner
connecting portion(s) of the terminal(s) 10 is/are formed by the socket terminal(s)
20. Thus, the connection of the inner conductive member(s) to the inner connecting
portion(s) of the terminal(s) 10 is realized by at least partly fitting the (round)
pin terminal(s) p into the mating socket terminal(s) 20.
[0072] For example, as compared with connection by bolting, the connecting operation itself
is simple since it suffices to at least partly fit the (round) pin terminal(s) p into
the socket terminal(s) 20. Further, space saving can be realized and, for example,
the miniaturization of the motor case can be realized since a need for an operation
space for bolting can be eliminated.
[0073] Further, since the at least one flexible conductor 12 as the vibration absorbing
portion is provided for the terminal 10 provided in the terminal block T, if vibration
acts on the inner or outer conductive member, this vibration is absorbed by the flexible
conductor 12 and the transmission thereof to the opposite terminal side is suppressed.
[0074] Further, in this embodiment, the socket terminal(s) 20 of the respective terminal(s)
10 particularly is/are individually accommodated in the sub-housing(s) 60, whereas
the respective sub-housing(s) 60 is/are mounted in the housing 30, loosely movably
in the radial direction, i.e. adopting a so-called floating structure. For example,
such as when there is a variation in the arrangement position(s) of the respective
inner conductive member(s), i.e. the respective (round) pin terminal(s) p, i.e. misalignment(s)
is/are large, the individual (round) pin terminal(s) p and socket terminal(s) 20 can
be precisely aligned with and fitted or connected to each other while loosely moving
the sub-housing(s) 60. This is particularly effective when the rigidity of the inner
conductive member(s) provided with the (round) pin terminal(s) p is high and there
is a limit in the amount of deflection deformation of the inner conductive member(s).
[0075] Note that the sub-housing 60 loosely moves in the radial direction while deforming
the terminal 10. By providing the flexible conductor 12 in a part of the terminal
10, the terminal 10 is easily deformed and a floating function can be more reliably
exhibited.
Accordingly, to provide a terminal block capable of realizing space saving, improving
operability in connecting a conductive member and a terminal and suppressing the transmission
of vibration between inner and outer conductive members, a terminal block T for connecting
inner conductive member(s) and outer conductive member(s) arranged inside and outside
a device includes a housing 30 provided to penetrate through a case 2 of the device
in an in-out direction, and one or more terminals 10 mounted in the housing 30 and
each including a connecting portion 14 to be connected to the outer conductive member
and provided on an outer end part and a (particularly substantially tubular) socket
terminal 20 to be fitted and connected to at least one pin terminal p provided on
the inner conductive member and provided on an inner end part. At least one flexible
vibration absorbing portion 12 is provided between the inner and outer connecting
portions 20, 14 of the terminal 10.<Other Embodiments>
[0076] The present invention is not limited to the above described and illustrated embodiment.
For example, the following embodiments are also included in the technical scope of
the present invention.
(1) Although the flexible conductor formed by the braided wire is illustrated as the
vibration absorbing portion provided in the terminal in the above embodiment, another
structure such as a corrugated metal thin plate may be adopted as long as it is flexible.
(2) The present invention can be similarly applied to a structure in which a socket
terminal as an inner connecting portion of a terminal is arranged at a fixed position
without having a floating function.
(3) Although the round pin terminal is provided on the tip of the inner conductive
member in the above embodiment, a pin terminal having a different cross-section (particularly
an irregular cross-section other than a right circular cross-section) may be used.
In that case, the socket terminal as the inner connecting portion of the terminal
provided in the terminal block may have a tubular shape having such a cross-sectional
shape that the pin terminal is tightly fitted.
(4) Although the terminal block is mounted in the case of the other device other than
the motor case and the inverter case in the above embodiment, the terminal block may
be provided, for example, in the motor case and such a mode is also included in the
technical scope of the present invention.
(5) Although the motor and the inverter are directly coupled in the above embodiment,
the present invention can be similarly applied when a motor and an inverter are separately
disposed.
(6) The present invention can be widely applied to terminal blocks in general for
electrically connecting conductive members extending from two electric devices which
are not limited to a motor and an inverter.
Reference Signs
[0077]
- T
- terminal block
- 1
- transmission case
- 2
- case upper wall
- 3
- through hole
- 10
- terminal
- 11
- busbar
- 12
- flexible conductor (vibration absorbing portion)
- 14
- outer connecting portion
- 15
- insertion hole
- 20
- socket terminal
- 30
- housing
- 31
- housing main body
- 45A, 45B
- fitting hole
- 46A, 46B
- fitting groove
- 50
- cover
- 60
- sub-housing
- 65
- terminal insertion opening
- 68
- front rib
- 69
- rear rib
- p
- round pin terminal (pin terminal)
1. A terminal block (T) for connecting an inner conductive member and an outer conductive
member arranged inside and outside a device, comprising:
a housing (30) provided to penetrate through a case (2) of the device in an in-out
direction; and
at least one terminal (10) to be mounted in the housing (30) and including a connecting
portion (14) to be connected to the outer conductive member and provided on an outer
end part and a socket terminal (20) to be fitted and connected to a pin terminal (p)
to be provided on the inner conductive member and provided on an inner end part;
wherein at least one flexible vibration absorbing portion (12) is provided between
the inner and outer connecting portions (20, 14) of the terminal (10).
2. A terminal block according to claim 1, further comprising a sub-housing (60) in which
the socket terminal (20) at least partly is to be accommodated and on which a terminal
insertion opening (65), into which the pin terminal (p) is insertable, is open.
3. A terminal block according to claim 2, wherein the sub-housing (60) is to be mounted
in the housing (30) loosely movably in a direction intersecting with an axis of the
socket terminal (20).
4. A terminal block according to any one of the preceding claims, wherein the vibration
absorbing portion (12) in the terminal (10) comprises at least one braided wire (12).
5. A terminal block according to any one of the preceding claims, wherein the socket
terminal (20) is accommodated in an inner end part of the housing (30); and wherein
at least one terminal insertion opening (45), into which the pin terminal (p) is insertable,
is provided on an outer surface of the housing (30) to communicate with the socket
terminal (20).
6. A terminal block according to claim 5, wherein at least one tapered guiding portion
(46) is formed on or near an opening edge part of the terminal insertion opening (45).
7. A terminal block according to claim 5 or 6, wherein:
the housing (30) includes a housing main body (31) molded with an opening formed on
the side of the socket terminal (20) of the terminal (10) and a cover (50) to be mounted
on the opening of the housing main body (31) to at least partly cover the socket terminal
(20)
8. A terminal block according to claim 7, wherein the terminal insertion opening (45)
is formed over the housing main body (31) and the cover (50).
9. A terminal block according to any one of the preceding claims, wherein the connecting
portion (20) has such a plural- or two-piece structure that a substantially tubular
body (25) is fitted on the outer periphery of a louver terminal portion (21).
10. A terminal block according to claim 9, wherein the louver terminal portion (21) is
shaped such that a plurality of resilient contact pieces (23), each particularly including
a contact portion (23A) on or near a tip side and substantially extending forward,
at least partly are arranged in a ring shape while being circumferentially spaced
apart on the front edge of an annular base portion (22).
11. A method of connecting an inner conductive member and an outer conductive member arranged
inside and outside a device, comprising the following steps:
providing a housing (30) to penetrate through a case (2) of the device in an in-out
direction;
mounting at least one terminal (10) in the housing (30) and including a connecting
portion (14) to be connected to the outer conductive member and provided on an outer
end part; and
providing a socket terminal (20) to be fitted and connected to a pin terminal (p)
to be provided on the inner conductive member and provided on an inner end part;
wherein at least one flexible vibration absorbing portion (12) is provided between
the inner and outer connecting portions (20, 14) of the terminal (10).
12. A method according to claim 11, further comprising the step of at least partly accommodating
the socket terminal (20) in a sub-housing (60), wherein a terminal insertion opening
(65), into which the pin terminal (p) is insertable, is open in the sub-housing (60).
13. A method according to claim 12, wherein the sub-housing (60) is mounted in the housing
(30) loosely movably in a direction intersecting with an axis of the socket terminal
(20).
14. A method according to any one of the preceding claims 11 to 13, wherein the vibration
absorbing portion (12) in the terminal (10) is formed to comprise at least one braided
wire (12).
15. A method according to any one of the preceding claims 11 to 14, wherein the socket
terminal (20) is accommodated in an inner end part of the housing (30); and wherein
at least one terminal insertion opening (45), into which the pin terminal (p) is insertable,
is provided on an outer surface of the housing (30) to communicate with the socket
terminal (20).