JP2009158359A - Resin mold bus bar and power conversion device using it - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a bus bar for improving connection reliability between a resin mold bus bar and electric equipment while absorbing misregistration of a connection part of the bus bar by elastic deformation, and a power conversion device using it. <P>SOLUTION: The connection part 6 is made longer in a width direction than a crossarm part 5. Thus, the stiffness of the connection part to a bending moment which act on a longitudinal direction of the crossarm part is made larger than that of the crossarm part. Accordingly, when a load is added on the contact face 7 of the resin mold bus bar 1 in a perpendicular direction, the crossarm part 5 is bent, the misregistration of the contact face 7 can be absorbed and also deformation of the contact face 7 which affects joint reliability can be reduced. Further, since the connection part 6 is extended higher than the upper face of the body part of the surrounding electric equipment, a space for inserting a press tool can be secured. As a result, joint workability is improved and joint reliability is increased. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a resin-molded bus bar having a conductive plate-like conductive member and a resin mold part that covers the outer periphery of the conductive member with resin. Specifically, the present invention facilitates connection to terminals of electrical equipment. The present invention provides a resin molded bus bar that can be reliably performed and a power conversion device using the same.

  In hybrid vehicles and electric vehicles, power conversion devices that convert DC power from batteries into AC power are widely used. A bus bar is used for connection between terminals of electrical devices such as switching elements, capacitors, and reactors incorporated in the power conversion device.

And as a bus bar used for the terminal connection of an electric equipment, the technique which absorbs position shift and makes an electrical connection by elastically deforming the terminal of a bus bar is indicated by the following patent documents 1.
Japanese Patent Laid-Open No. 11-219739

  In the invention of Patent Document 1, the entire bus bar terminal is elastically deformed, and even the portion where the bus bar terminal and the electric device terminal are in contact is elastically deformed. Stress due to deformation remains in the joint portion. And when a vibration etc. are repeatedly added to a bus bar in the state in which the stress remains in a junction part, a crack etc. will generate | occur | produce in a junction part and there exists a problem that joining reliability cannot be ensured.

  In view of the above-described circumstances, an object of the present invention is to provide a bus bar that improves the connection reliability between a resin-molded bus bar and an electric device while absorbing a displacement of a connection portion of the bus bar by elastic deformation, and power conversion using the bus bar. Is to provide a device.

  In order to achieve the above object, the present invention provides a bus bar comprising a conductive member having conductivity, a resin mold part covering the conductive member with a resin, and a conductive member protruding from the resin mold part. A resin molded bus bar having a terminal portion, the bus bar terminal portion having an arm portion extending outward from the resin mold portion, and a connecting portion having a contact surface that contacts a terminal of the electric device at the tip of the arm portion. The rigidity of the connecting portion with respect to the bending moment acting in the longitudinal direction of the arm portion when a load is applied in the direction perpendicular to the contact surface is greater than the rigidity of the arm portion.

  In the invention according to claim 2, the width direction dimension of the connecting portion when the direction perpendicular to the contact surface and the direction perpendicular to the longitudinal direction of the arm portion is defined as the width direction of the bus bar terminal is the arm portion. It is characterized by being larger than the dimension in the width direction.

  Further, in the invention according to claim 3, the connecting portion protrudes upward from the arm portion and protrudes upward from the upper surface of the main body portion of the electric device to which the resin mold bus bar is connected. Yes.

  The invention according to claim 4 is characterized in that a plurality of bus bar terminal portions are provided, and directions of loads applied to the plurality of contact surfaces are the same.

  Further, in the invention according to claim 5, one bus bar terminal portion and another adjacent bus bar terminal portion protrude from different outer surfaces of the resin mold portion that are not parallel to each other, and the arm portion of the one bus bar terminal portion bends. Thus, the contact surface of one bus bar terminal portion and the contact surface of another bus bar terminal portion are provided in parallel.

  Since the invention according to claim 1 is such that the rigidity of the connection part with respect to the bending moment acting in the longitudinal direction of the arm part when the load is applied in the direction perpendicular to the contact surface is larger than the rigidity of the arm part, It is possible to improve the joining reliability because the arm portion having low rigidity is bent to absorb the displacement of the connecting portion and the deformation of the connecting portion can be reduced.

  In the invention according to claim 2, the rigidity of the connecting part is increased by making the width direction dimension of the connecting part larger than the width direction dimension of the arm part, and the rigidity of the connecting part is increased with a simple configuration. Can do.

  In the invention according to claim 3, when the bus bar terminal portion and the terminal of the electric device are joined together, the terminals of the connecting portion are brought into close contact with each other in order to project the connection portion above the upper surface of the main body portion of the surrounding electric device. It is possible to secure a space for inserting a holding jig for making it. Thereby, joining workability | operativity improves and joining reliability can be improved more.

  In the invention according to claim 4, when joining a plurality of bus bar terminals and a plurality of electrical equipment terminals, the plurality of contact surfaces are made parallel to each other, and the directions of the loads are made the same. The bus bar terminal can be joined quickly and easily.

  In the invention according to claim 5, the creeping distance between adjacent bus bar terminal portions can be increased.

(Overall structure of resin molded bus bar)
The schematic block diagram of the resin mold bus bar 1 which concerns on FIG. 1-4 at one Embodiment of this invention is shown. The resin mold bus bar 1 includes a conductive member 2 and a resin mold portion 3 obtained by molding the conductive member 2 with resin.

  The conductive member 2 is made of copper, copper alloy, aluminum, or other suitable conductive metal material. The conductive member 2 may be formed from a wire, or may be formed by punching an integral metal member. It is also possible to create a plurality of separate members by combining them by welding or other connection work.

  There are four conductive members 2 in total, of which three conductive members 2 are integrated with resin except for both ends, and the remaining one conductive member 2 except for one end. The portion covered with the resin becomes the resin mold portion 3. The resin mold part 3 insulates the three conductive members 2 from each other. The remaining one conductive member 2 is conductive only with one of the three conductive members, and is in an insulating relationship with the other two conductive members 2.

  The ends of the four conductive members 2 are not covered with resin, and the metal is exposed. Of the four conductive members 2, one end portion of the three members extends in a thin plate shape from the upper side surface of the resin mold portion 3 to form a bus bar terminal portion 4.

  One end of the remaining conductive member 2 is formed in a thin plate shape and stretched, and a conductive bolt hole 8a is formed at the end, and the other end is formed with a connecting portion 6a in the resin mold portion 3. It is electrically connected to the conductive member 2 to be connected.

  Of the portion of the resin mold portion 3, the portion extending in the vertically downward direction is a connector portion 11, which is used for connection with a terminal of an electronic device electric apparatus. The other end portions of the three conductive members 2 forming the bus bar terminal portion 4 are exposed as connector pins 12 from the connector portion 11.

The bus bar terminal portion 4 is formed by punching a single metal plate into an L shape. The arm portion 5 extends horizontally outward from the side surface of the resin mold portion, and the connection extends vertically upward from the tip of the arm portion 5. Part 6. The connection part 6 has the contact surface 7 which contacts the terminal of an electric equipment. Here, when the direction perpendicular to the contact surface 7 and the direction perpendicular to the longitudinal direction of the arm portion 5 are defined as the width direction of the bus bar terminal portion 4, the width direction dimension of the connecting portion 6 is the width direction of the arm portion 5. Greater than dimensions.
The connecting portion 6a is provided with a separate auxiliary metal plate 13, and is thicker than the arm portion 5a. Connection to a bending moment acting in the longitudinal direction of the arm portion 5 when a load is applied in a direction perpendicular to the contact surface 7 by making the width direction size of the connecting portion 6 larger than the width direction size of the arm portion 5 The rigidity of the part 6 can be made larger than the rigidity of the arm part 5, and the arm part 5 having low rigidity is bent to absorb the displacement of the connection part 6, and the deformation of the connection part 6 affecting the joint reliability is reduced. it can.

As a means for making the rigidity of the connection portion 6 larger than the rigidity of the arm portion 5, in addition to the above means, the connection portion 6 is made thicker than the arm portion 5 as in the connection portion 6a, or the material of the connection portion 6 is used. Is made to have a Young's modulus greater than that of the material of the armband portion 5.
Note that the shape of the bus bar terminal portion 4 is not limited to the L shape, and any shape such as a T shape may be sufficient if the width direction dimension of the connection portion 6 is larger than the width direction dimension of the arm portion 5.

(Structure of multiple bus bar terminals)
While the arm portions 5a to 5c are extended from different surfaces of the resin mold portion 3 that are not parallel to each other, the contact surfaces 7 are parallel to each other.

  The arm portions 5a to 5c protrude from different surfaces of the outer surface of the resin mold portion 3 in order to secure a creepage distance.

  The portion where the arm portion 5b of the resin mold portion 3 protrudes has a shape protruding outward in a convex shape, and the creeping distance between the arm portion 5b and the other arm portions 5a, 5c is increased.

  The embodiment and the comparative example will be described in comparison with the reference diagram shown in FIG. FIG. 5A shows the bus bar terminal portion 4 of the embodiment, and FIG. 5B shows the bus bar terminal portion 4 of the comparative example.

  In FIG. 5A, the arm portion 5 c has a bent portion 14. The arm portion 5c is protruded from a surface perpendicular to the surface from which the arm portion 5b protrudes, the arm portion 5c is bent near the outer surface of the resin mold portion 3, and the contact surface 7c is parallel to the contact surfaces 7a and 7b. I try to be a good relationship.

  That is, the distance h between the bent portion 14 and the projecting point 15 of the arm portion 5c is shorter than the distance y between the projecting point 15, the projecting surface, and the sandwiched side 16 located between the projecting surfaces, and the same direction. Compared to the case of FIG. 5B in which the arm portion 5 is protruded to the bottom, the resin mold portion is downsized and the creepage distance is longer than that in the case of protruding from the same surface of the resin mold portion.

(Bolt structure)
Non-conductive bolt holes 8b used for fixing to the power converter are formed at both upper ends of the resin mold portion 3, and convex portions 17 used for alignment are provided at both ends on the back side of the resin mold portion 3.

  By fitting the convex portion 17 of the resin mold bus bar 1 into the concave portion provided in the power conversion device, it is possible to perform reliable positioning.

(Connector part)
A protrusion 18 is formed on the inner surface of the connector portion 11, and a fitting hole 19 is formed below the connector portion.

  By forming the protrusions 18 on the connector part 11, it is possible to prevent such a problem that the connector pin 12 is erroneously fitted into the power conversion device obliquely and the connector pin 12 is damaged or bent.

  The protrusion 18 formed on the inner surface is not limited to this shape, and other shapes that can be engaged, such as an uneven portion and a recessed portion, are sufficient.

  The connector pin 12 is connected to a high voltage detection part of a DC voltage detection board inside the power converter.

(Shape with the bus bar attached to the power converter)
FIG. 6 is a top view of the resin molded bus bar 1 of the present invention attached to the power conversion device, and FIG. 7 is a perspective view of a connection portion between the bus bar terminal and the device terminal portion 21 of the electric device built in the power conversion device. . In the resin molded bus bar 1, the connector part 11 at the lower end of the resin molded bus bar 1 is fitted into a connector terminal (not shown) in the power converter, and the connection parts 6a, 6b, 6c of the resin molded bus bar 1 are respectively electric devices. It welds and joins to the device terminal part 21 in an upper surface. Connection between the connection portion 6 and the device terminal portion 21 is performed by connection work such as arc welding or solder welding.

  The tips of the connecting portions 6a to 6c are all unified at the same height, and are located above the upper surface of the main body portion of the electric device to which the resin molded bus bar 1 is connected. Here, the main body portion of the electric device refers to a portion of the electric device such as a reactor, a capacitor, and a switching element in the power conversion device excluding a terminal protruding on the outer surface.

  As a result of disposing the tip of the connecting portion 6 above the main body portion of the electric device, when welding the bus bar terminal portion 4 and the terminal of the electric device, there is a space for inserting a holding jig for bringing both terminals into close contact with each other. It can be secured. Thereby, workability | operativity of welding joining improves and joining reliability improves more.

  The resin mold bus bar 1 is used to connect the control signal of the high voltage detection unit to a control board installed on the upper surface of the electric device.

  The electric device to which the resin molded bus bar 1 is attached is not limited, and can be attached to various electric devices.

  According to the resin molded bus bar 1 described above, since the connecting portion 6 is longer in the width direction than the arm portion 5, the rigidity of the connecting portion with respect to the bending moment acting in the longitudinal direction of the arm portion is increased. Therefore, when a load is applied in a direction perpendicular to the contact surface 7 of the resin molded bus bar 1, the arm portion 5 bends and can absorb the displacement of the connection portion 7, and also affects the joint reliability. Can reduce deformation.

  Since the connecting portion 6 extends upward from the upper surface of the main body portion of the surrounding electrical device, a space for inserting the pressing jig can be secured. As a result, the joining workability is improved and the joining reliability is increased.

  When welding a plurality of bus bar terminal portions 4 and terminals of a plurality of electrical devices, a plurality of contact surfaces 7a, 7b, 7c of the resin mold bus bar 1 are parallel, so that a plurality of welding joining operations can be performed quickly and easily. Can be done.

  In addition, by making the structure of the apparatus terminal part 21 the same structure as the bus bar terminal part 4, a dimensional tolerance can be absorbed in the both sides of the apparatus terminal part 21 and the bus bar terminal part 4, and the effect is doubled.

It is a perspective view of the resin mold bus bar which concerns on embodiment of this invention. It is a bottom view of the resin mold bus bar which concerns on embodiment of this invention. It is a rear view of the resin mold bus bar which concerns on embodiment of this invention. It is a right view of the resin mold bus bar which concerns on embodiment of this invention. It is a contrast diagram of this invention and the conventional 2 arm part. It is a top view at the time of attaching the resin mold bus bar to the power converter. It is a perspective view of the connection location of a bus bar terminal and an electric equipment terminal part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Resin mold bus bar 2 Conductive member 3 Resin mold part 4 Bus bar terminal part 5 Arm part 6 Connection part 7 Contact surface 8a Conductive bolt hole 8b Nonconductive bolt hole 11 Connector part 12 Connector pin 13 Auxiliary metal plate 14 Bending part 15 Protrusion Point 16 Narrow side 17 Convex part 18 Protrusion part 19 Fitting hole 21 Equipment terminal part

Claims (5)

  A resin molded bus bar comprising: a conductive member having conductivity; a resin mold portion that covers the conductive member with resin; and a bus bar terminal portion that is formed of the conductive member protruding from the resin mold portion, wherein the bus bar terminal portion Has an arm portion extending outward from the resin mold portion, and a connecting portion having a contact surface that comes into contact with a terminal of an electric device at the tip of the arm portion, and a load is applied in a direction perpendicular to the contact surface. The resin-molded bus bar, wherein the rigidity of the connection part with respect to a bending moment acting in the longitudinal direction of the arm part is greater than the rigidity of the arm part.   2. The resin-molded bus bar according to claim 1, wherein a width of the connection portion when a direction perpendicular to the contact surface and a direction orthogonal to a longitudinal direction of the arm portion is defined as a width direction of the bus bar terminal. A resin mold bus bar, wherein a direction dimension is larger than a width direction dimension of the arm portion.   The power conversion device for electrically connecting an electric device built in by the resin molded bus bar according to claim 1 or 2, wherein the connecting portion protrudes upward from the arm portion, and the resin molded bus bar is A power converter characterized by projecting above the upper surface of the main body of the connected electrical device.   4. The power conversion device according to claim 3, wherein a plurality of the bus bar terminal portions are provided, and the directions of loads applied to the plurality of contact surfaces are the same. 5.   5. The power conversion device according to claim 4, wherein one bus bar terminal portion and another bus bar terminal portion adjacent to each other protrude from different outer surfaces of the resin mold portion that are not parallel to each other, and the arm portion of the one bus bar terminal portion The power converter is characterized in that the contact surface of the one bus bar terminal portion and the contact surface of the other bus bar terminal portion are provided in parallel by bending.

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