JP6657752B2 - Busbar module - Google Patents

Description

  The present invention relates to a bus bar module.

  Electric vehicles, hybrid vehicles, and the like are provided with a power conversion device such as an inverter or a converter. Patent Literature 1 discloses a bus bar module including a connector provided in a power conversion device. Such a bus bar module is formed by molding a plurality of bus bars having connection terminals, and is provided with an interlock mechanism that detects removal of a protective cover provided in the power converter and shuts off a circuit in the power converter. . The interlock mechanism has an interlock pin that comes into contact with the protective cover, and an interlock connector terminal into which the interlock pin is inserted, and moves the interlock pin when the protective cover is removed. It is configured to detect via the.

JP 2011-166993 A

  The bus bar module disclosed in Patent Document 1 has a long shape, a plurality of connection terminals are arranged in the longitudinal direction of the bus bar module, and an interlock connector terminal is arranged between adjacent connection terminals. . Therefore, the physique of the bus bar module tends to increase in the longitudinal direction, that is, in the direction in which the connection terminals are arranged. Further, since a plurality of fixing portions for connecting the bus bar module are provided at both ends in the direction in which the connection terminals are arranged, the distance between the fixing portions tends to be large in the direction in which the bus terminals are arranged, so that the vibration resistance of the bus bar module may be reduced. is there.

  The present invention has been made in view of such a background, and an object of the present invention is to provide a bus bar module in which a physical size can be reduced and vibration resistance is improved.

One embodiment of the present invention is a long busbar module (1) provided in a power conversion device (100),
A plurality of bus bars (10, 11, 12) each having a connection terminal (111, 121) to which an external terminal (102) of an external device is connected;
An interlock connector (20) to which an interlock pin (21) is connected;
A control circuit connecting part (30) for connecting a control circuit for controlling power supply to the power converter and the interlock connector,
A mold part (40) having a pair of fixing parts (41a, 41b) fixed to the power converter while resin molding the plurality of bus bars, the interlock connector, and the control circuit connection part;
When the connection between the interlock pin and the interlock connector is released, supply of power to the power converter through the control circuit is configured to be interrupted,
The connection terminals of the plurality of busbars are arranged along the longitudinal direction (X) of the busbar module so that the connection direction (Y1) of the external terminals is parallel.
When the direction orthogonal to the longitudinal direction is defined as a vertical direction (Z) when viewed from the connection direction (Y1) of the external terminals, the interlock connector is located above (Z1) or below (Z2) the plurality of connection terminals. ), And the pair of fixing portions are provided at positions sandwiching the connection terminal in the longitudinal direction ,
The plurality of bus bars have a plurality of first bus bars (11) in which the respective connection terminals are arranged in the longitudinal direction, and the plurality of first bus bars (11) are located at different positions in the vertical direction. A plurality of second busbars (12) arranged in the direction, the molded part includes terminal blocks (43, 44) each supporting the connection terminal, and at least a part of the interlock connector includes: It is located (Q) between the upper end (431) of the terminal block (43) located at the highest position and the lower end (441) of the terminal block (44) positioned at the lowest position as viewed from the connection direction,
The control circuit connecting portion (30) extends in parallel with the connection direction of the interlock pin, and is bent so as to be parallel to a vertical direction orthogonal to the connection direction of the interlock pin. The bus bar module is configured to be connected to the control circuit formed on the control circuit board (104) provided in parallel with the connection direction of (1) .

  The bus bar module has a long shape, and the connection terminals are arranged along the longitudinal direction. That is, the longitudinal direction of the bus bar module coincides with the arrangement direction of the connection terminals. The interlock connector is located above or below the connection terminal when viewed from the connection direction of the external terminal. Therefore, the physical size of the bus bar module can be reduced in the longitudinal direction, that is, in the arrangement direction of the connection terminals, as compared with the case where the interlock connectors are arranged in the longitudinal direction together with the connection terminals. And since the said physique becomes small in the arrangement | sequence direction of a connection terminal, since the distance between a pair of fixed part for fixing the said bus bar module to a power converter can be made small, the vibration resistance of a bus bar module can be improved. it can.

  As described above, according to the present invention, it is possible to provide a bus bar module whose physique can be reduced and whose vibration resistance is improved.

  Note that reference numerals in parentheses described in the claims and means for solving the problems indicate the correspondence with specific means described in the embodiments described below, and limit the technical scope of the present invention. Not something.

FIG. 2 is a perspective view of the bus bar module according to the first embodiment. FIG. 2 is a front view of the bus bar module according to the first embodiment. FIG. 3 is a front view of the first embodiment in a state where the bus bar module is attached to the power converter. FIG. 4 is a schematic cross-sectional view taken along a line IV-IV in FIG. 3 for describing a mounting mode of an external terminal and an interlock pin in the first embodiment. FIG. 2 is a top view of the bus bar module according to the first embodiment.

(Embodiment 1)
An embodiment of a bus bar module will be described with reference to FIGS.
The bus bar module 1 of the present embodiment has a long shape and is provided in the power conversion device 100. The bus bar module 1 includes a plurality of bus bars 10, an interlock connector 20, a control circuit connection unit 30, and a mold unit 40.
The plurality of bus bars 10 include connection terminals 111 to which external terminals 102 of an external device (not shown) are connected.
The interlock pin 21 is connected to the interlock connector 20.
The control circuit connection unit 30 connects a control circuit that controls power supply to the power conversion device 100 and the interlock connector 20.
The mold section 40 includes a pair of fixing sections 41 a and 41 b which are formed by resin molding the plurality of bus bars 10, the interlock connector 20 and the control circuit connecting section 30, and are fixed to the power conversion device 100.

The bus bar module 1 is configured such that when the connection between the interlock pin 21 and the interlock connector 20 is released, the supply of power to the power converter 100 via the control circuit is cut off.
The connection terminals 111 of the plurality of busbars 10 are arranged along the longitudinal direction X of the busbar module 1 so that the connection direction Y1 of the external terminals is parallel.
As shown in FIG. 2, when a direction Z orthogonal to the longitudinal direction X is defined as a vertical direction when viewed from the connection direction Y1 of the external terminal 102, the interlock connector 20 is connected to the upper Z1 or the lower Z2 of the plurality of connection terminals 111. It is located in. The pair of fixing portions 41a and 41b are provided at positions sandwiching the connection terminal 111 in the longitudinal direction X.

Hereinafter, the bus bar module 1 of the present embodiment will be described in detail.
As shown in FIG. 3, the bus bar module 1 is provided in a power converter 100 having functions as an inverter and a converter. Busbar module 1 is fixed in housing 101 of power converter 100. The housing 101 has an opening 101a. The external terminal 102 and the interlock pin 21 shown in FIG. 1 can be connected to the connection terminals 111 and 121 of the bus bar module 1 and the interlock connector 20 via the opening 101a.

  As shown in FIGS. 1 and 2, the bus bar module 1 has a resin mold part 40. A pair of fixing portions 41 a and 41 b fixed to the housing 101 are formed in the mold portion 40. Further, five nuts 14 are inserted into the mold part 40 along the longitudinal direction X. Further, terminal blocks 43 and 44 that support the connection terminals 111 and 121 are formed around the nut 14.

  In the present embodiment, as shown in FIG. 1, five bus bars 10 are provided. Three of the first bus bars 11 are inserted into the mold part 40, and the remaining two second bus bars 12 are not inserted into the mold part 40. The first bus bar 11 has a connection terminal 111 in which a fixing hole 110 is formed. A bolt 15 is inserted into the fixing hole 110 for connection to an external terminal 102 of an external device (not shown). The second bus bar 12 also has a fixing hole 121 into which the bolt 15 is inserted for connection to an external terminal (not shown).

  As shown in FIG. 1 and FIG. 2, in the bus bar module 1 having a long shape, a direction in which the outer shape is the longest is defined as a longitudinal direction X. The connection terminals 111 of the two first bus bars 11 are arranged along the longitudinal direction X. That is, the arrangement direction of the two connection terminals 111 matches the longitudinal direction X of the bus bar module 1. In the present embodiment, each of the two connection terminals 111 is located on a virtual straight line L parallel to the longitudinal direction X. The direction in which the external terminal 102 is connected to the connection terminal 111 is referred to as a connection direction Y1, and the direction in which the external terminal 102 is removed from the connection terminal 111 and the connection is released in a state where both are connected is referred to as a release direction Y2. And Then, the connection direction Y1 and the release direction Y2 are combined to form a thickness direction Y. Further, a direction orthogonal to both the longitudinal direction X and the thickness direction Y is referred to as a vertical direction Z, a direction going downward from the connection terminal 111 in the Z direction is referred to as a downward Z1, and a direction Z2 facing upward. In the present embodiment, as shown in FIG. 1, the three third bus bars 12 also have their connection terminals 121 arranged along the longitudinal direction X, and are located on the virtual straight line M. The virtual straight line M is parallel to the virtual straight line L, and the positions of the virtual straight line L and the virtual straight line M in the vertical direction Z are different.

1 and 2, the interlock connector 20 is formed below the first bus bar 11 at a position Z2 when viewed from the connection direction Y1 . The interlock connector 20 has a cylindrical shape extending in the thickness direction Y, and is configured so that the interlock pin 21 can be inserted therein.

In the present embodiment, as shown in FIG. 2, the interlock connector 20 includes an upper end 431 of the terminal block 43 located at the uppermost Z1 as viewed from the connection direction Y1, and a lower end 441 of the terminal block 44 located at the lowermost Z1. And Q.

  In the present embodiment, as shown in FIG. 5, the interlock connector 20 is within a range P inside the connection terminals 111 located at both ends in the longitudinal direction X when viewed from the vertical direction Z. The range P is, as shown in FIGS. 2 and 5, of the plurality of connection terminals 111 arranged in the longitudinal direction X, of the connection terminals 111 located at both ends in the longitudinal direction X, facing the adjacent connection terminals 111. Between the side end 111b and the opposite end 111a.

  As shown in FIG. 4, the interlock connector 20 is connected to one end of the control circuit connection unit 30. The other end of the control circuit connection part 30 projects downward Z2 from the mold part 40, and is connected to a control circuit (not shown) formed on the control circuit board 104.

  As shown in FIG. 4, an interlock pin 21 is configured to be inserted into the interlock connector 20. In this embodiment, the interlock pin 21 is configured to be inserted and connected to the interlock connector 20 in the same direction as the connection direction Y1 of the external terminal 102.

  As shown in FIG. 5, in this embodiment, the pair of fixing portions 41a and 41b are provided at positions sandwiching the connection terminals 111 arranged in the longitudinal direction X in the longitudinal direction X when viewed from the vertical direction Z. . One of the fixing portions 41a of the pair of fixing portions 41a and 41b is formed at one end of the bus bar module 1 in the longitudinal direction X. At the other end of the bus bar module 1 in the longitudinal direction X, another fixing part 42 different from the pair of fixing parts 41a and 41b is formed.

Next, the operation and effect of the bus bar module 1 of the present embodiment will be described in detail.
In the busbar module 1 of the present embodiment, the interlock connector 20 is located below the connection terminal 111 of the first busbar 11 at Z2 when viewed from the connection direction Y1 of the external terminal 102. Therefore, the physical size of the bus bar module 1 can be reduced in the longitudinal direction X, that is, in the direction in which the connection terminals 111 are arranged, as compared with the case where the interlock connector 20 is arranged along with the connection terminals 111 in the longitudinal direction X. Since the physique decreases in the direction in which the connection terminals 111 are arranged, the distance between the pair of fixing portions 41a and 41b for fixing the bus bar module 1 to the power conversion device 100 can be reduced. Vibration resistance can be improved.

  The interlock connector 20 may be located above the connection terminal 111 of the bus bar 11 at a position Z1 when viewed from the connection direction Y1 of the external terminal 102. Also in this case, the above-described effects can be obtained.

  Further, in the present embodiment, the interlock connector 20 is within the range P inside the connection terminals 111 located at both ends in the longitudinal direction X when viewed from the vertical direction Z, of the connection terminals 111 arranged in the longitudinal direction X. ing. As a result, the entire interlock connector 20 overlaps with the connection terminal 111 in the longitudinal direction X, so that the physical size of the bus bar module 1 can be further reduced in the longitudinal direction X.

  Further, in the present embodiment, the plurality of bus bars 10 are located at positions different from each other in the vertical direction Z with the plurality of first bus bars 11 in which the respective connection terminals 111 are arranged in the longitudinal direction X. Each connection terminal 121 includes a plurality of second busbars 12 arranged in the longitudinal direction X. The interlock connector 20 is connected to the upper end 431 of the terminal block 43 located at the uppermost position Z1 when viewed from the connection direction Y1. , Between the lower end 441 of the terminal block 44 located at the lowermost position Z1. This prevents the interlock connector 20 from increasing the physical size of the bus bar module 1 in the up-down direction Z, thereby contributing to a reduction in the physical size of the bus bar module 1 as a whole.

  In the present embodiment, the connection direction Y1 of the external terminal 102 and the connection direction Y1 of the interlock pin 21 are the same. This makes it possible to easily connect and release the external terminal 102 and the interlock pin 21 via the external connection module integrally provided with the external terminal 102 and the interlock pin 21.

  In the present embodiment, the interlock connector 20 is provided on the upper Z1 or the lower Z2 of the plurality of first busbars 11 in the bus bar module 1, but the interlock connector 20 is provided on the upper Z1 or the lower Z2 of the plurality of second bus bars 12 in the bus bar module 1. May be provided.

  As described above, according to the present embodiment, it is possible to provide the bus bar module 1 having a reduced physique and improved vibration resistance.

  The present invention is not limited to the above embodiments, and can be applied to various embodiments without departing from the gist thereof.

DESCRIPTION OF SYMBOLS 1 Bus bar module 10 Bus bar 11 First bus bar 111 Connection terminal 102 External terminal 20 Interlock connector 21 Interlock pin 30 Control circuit connection part 40 Mold part 41a, 41b Fixed part

Claims (3)

An elongated busbar module (1) provided in a power converter (100),
A plurality of bus bars (10, 11, 12) each having a connection terminal (111, 121) to which an external terminal (102) of an external device is connected;
An interlock connector (20) to which an interlock pin (21) is connected;
A control circuit connecting part (30) for connecting a control circuit for controlling power supply to the power converter and the interlock connector,
A mold part (40) having a pair of fixing parts (41a, 41b) fixed to the power converter while resin molding the plurality of bus bars, the interlock connector, and the control circuit connection part;
When the connection between the interlock pin and the interlock connector is released, supply of power to the power converter through the control circuit is configured to be interrupted,
The connection terminals of the plurality of bus bars are arranged along the longitudinal direction (X) of the bus bar module so that the connection directions (Y1) of the external terminals are parallel to each other.
When the direction orthogonal to the longitudinal direction is defined as a vertical direction (Z) when viewed from the connection direction (Y1) of the external terminals, the interlock connector is located above (Z1) or below (Z2) the plurality of connection terminals. ), And the pair of fixing portions are provided at positions sandwiching the connection terminal in the longitudinal direction ,
The plurality of bus bars have a plurality of first bus bars (11) in which the respective connection terminals are arranged in the longitudinal direction, and the plurality of first bus bars (11) are located at different positions in the vertical direction. A plurality of second busbars (12) arranged in the direction, the molded part includes terminal blocks (43, 44) each supporting the connection terminal, and at least a part of the interlock connector includes: It is located (Q) between the upper end (431) of the terminal block (43) located at the highest position and the lower end (441) of the terminal block (44) positioned at the lowest position as viewed from the connection direction,
The control circuit connecting portion (30) extends in parallel with the connection direction of the interlock pin, and is bent so as to be parallel to a vertical direction perpendicular to the connection direction of the interlock pin, and is connected to the interlock pin. A bus bar module configured to be connected to the control circuit formed on a control circuit board (104) provided in parallel with the connection direction of (1) .   The interlock connector, when viewed from the up-down direction, falls within a range (P) inside the connection terminals located at both ends in the longitudinal direction among the connection terminals arranged in the longitudinal direction. Item 2. The bus bar module according to item 1. A connection direction of the connection direction and the interlock pin of the external terminals is in the same direction, the bus bar module according to claim 1 or 2.

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