JP4123098B2 - Terminal connection structure - Google Patents

Description

  The present invention relates to a terminal connection structure in which a connection terminal for an electronic component and an external connection member for connecting the electronic component to an electric circuit are connected.

Conventionally, there is a structure in which an electronic component such as a semiconductor module is connected to an electric circuit via an external connection member. For example, in a power conversion device such as an inverter circuit that controls a traveling motor for automobiles, a main electrode terminal as a connection terminal of a semiconductor module as shown in Patent Document 1 is electrically connected to a booster circuit or a motor. The bus line is connected via a bus bar as an external connection member.
The connection terminal and the external connection member can be connected to each other by welding or screwing. However, since the screwing operation takes time, it is preferable to use welding from the viewpoint of production efficiency, particularly when connecting a plurality of electronic components and external connection members.

  However, when the connection terminal and the external connection member are connected by welding, if the welding failure occurs, the connection terminal and the external connection member cannot be removed. Need to be replaced. Further, when either one of the electronic component and the external connection member is damaged, it is necessary to replace both of them.

In addition, cutting the welded portion to separate the connection terminal and the external connection member and welding again requires a process of adjusting the end face to a shape that can be welded after cutting, resulting in a significant reduction in production efficiency. There is a risk that.
Therefore, there arises a problem that replacement of electronic parts and external connection members cannot be performed easily and inexpensively.
JP 2001-308263 A

  The present invention has been made in view of such conventional problems, and is intended to provide a terminal connection structure that is excellent in production efficiency and can easily and inexpensively replace electronic components and external connection members. .

The present invention is a terminal connection structure in which the connection terminal in an electronic component having a connection terminal, and an external connection member for connecting the electronic component to an electric circuit,
The electronic component is a semiconductor module containing a semiconductor element, and the connection terminal includes a main electrode terminal connected to a main electrode of the semiconductor element,
The connection terminal and the external connection member are each provided with a terminal fastening part and a member fastening part in which a through-hole through which the fastener can be inserted is formed,
Further, the connection terminal and the external connection member are provided with a terminal welding part and a member welding part for welding both,
The terminal welding part and the member welding part are arranged at positions different from the terminal fastening part and the member fastening part, respectively.
The connection terminal and the external connection member are welded to each other at a portion where the terminal welding portion and the member welding portion overlap each other (claim 1).

Next, the effects of the present invention will be described.
The terminal connection structure is excellent in production efficiency because the connection terminal and the external connection member are connected by welding at the terminal welding part and the member welding part.

  The connection terminal and the external connection member are provided with the terminal welding part and the member welding part at positions different from the terminal fastening part and the member fastening part, respectively. Therefore, in the manufacture of the terminal connection structure, when a welding failure occurs when the connection terminal and the external connection member are connected, the terminal welding part and the member welding part are cut, and the terminal fastening is performed. In the attaching portion and the member fastening portion, the connection terminal and the external connection member can be connected again by a fastener.

That is, since the site for terminal welding and the site for member welding are provided at positions different from the site for terminal fastening and the site for member fastening, even if the site for terminal welding and the site for member welding are cut and removed, The terminal fastening part and the member fastening part remain. Therefore, even if poor welding occurs, the connection terminal of the electronic component and the external connection member can be reconnected by the fastener.
Thereby, even when welding failure occurs, it is not necessary to replace the electronic component and the external connection member.

  In addition, even when either one of the electronic component and the external connection member is damaged, by cutting the terminal welding portion of the connection terminal of the electronic component and the member welding portion of the external connection member, the other It is possible to replace only one of the above-mentioned damaged parts without replacing the other part. Therefore, it is possible to easily and inexpensively replace electronic components and external connection members.

  As described above, according to the present invention, it is possible to provide a terminal connection structure that is excellent in production efficiency and that can easily and inexpensively replace electronic components and external connection members.

  In the present invention (Claim 1), as the fastener, for example, a screw, a rivet or the like can be used. Further, the terminal welding part and the member welding part are areas in which a portion to be melted by welding is sufficiently contained, and are not overlapped with the terminal fastening part and the member fastening part, respectively.

Moreover, the electronic component is a semiconductor module with a built-in semiconductor element, the connection terminals, ing from the main electrode terminal connected to the main electrode of the semiconductor element.
Thereby , even if there is poor welding or damage to the external connection member, it is not necessary to replace the semiconductor module, so that an inexpensive terminal connection structure can be obtained.
Moreover, the said terminal connection structure can be used for power converters, such as an inverter which controls the traveling motor for motor vehicles.

The terminal welding part and the member welding part each have a slit part cut from an end part, and the connection terminal and the external connection member are welded along the slit part. (Claim 2 ).
In this case, since the welding area can be increased, the connection terminal and the external connection member can be more reliably connected.

(Example 1)
A terminal connection structure according to an embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 1, the terminal connection structure 1 connects the connection terminal 20 in the electronic component 2 having the connection terminal 20 and the external connection member 3 for connecting the electronic component 2 to an electric circuit. Structure.

As shown in FIGS. 1 to 3, through holes 211 and 311 through which screws 41 (FIG. 7 and FIG. 8) as fasteners can be inserted are formed in the connection terminal 20 and the external connection member 3. A terminal fastening part 21 and a member fastening part 31 are provided.
Further, the connection terminal 20 and the external connection member 3 are respectively provided with a terminal welding portion 22 and a member welding portion 32 for welding the two.

The terminal welding part 22 and the member welding part 32 are arranged at positions different from the terminal fastening part 21 and the member fastening part 31, respectively.
As shown in FIGS. 1 and 6, the connection terminal 20 and the external connection member 3 are welded to each other at a portion where the terminal welding portion 22 and the member welding portion 32 overlap each other.

  The electronic component 2 is a semiconductor module including a semiconductor element such as an IGBT, and the connection terminal 20 includes a main electrode terminal connected to the main electrode of the semiconductor element. The electronic component 2 is formed by projecting a control electrode terminal 25 connected to the control electrode of the semiconductor element on the side opposite to the main electrode terminal (connection terminal 20).

Moreover, the said terminal connection structure 1 can be used for power converters, such as an inverter which controls the traveling motor for motor vehicles.
The electric circuit is a power conversion circuit such as an inverter circuit, and the external connection terminal 3 connects the electronic component (semiconductor module) 2 to a bus line connected to a motor, a booster circuit, or the like. It is a bus bar.
As shown in FIG. 3, the external connection member 3 has a substantially L-shaped cross section, a fixing plate portion 33 provided with the member fastening portion 31 and the member welding portion 32, and the fixing plate portion 33. And an erected plate part 34 that is erected substantially vertically from one end of the ergonomically. In the standing plate portion 34, the external connection member 3 is connected to the bus line. The external connection member 3 may have a substantially U-shaped cross section, a substantially S (Z) -shaped cross section, or the like.

  Further, the terminal welding part 22 and the member welding part 32 are in a range in which a melting part 35 (FIG. 6) melted by welding is sufficiently contained, and the terminal fastening part 21 and the member fastening part, respectively. It is a part which does not overlap with 31.

The terminal connection structure 1 is obtained by connecting the connection terminal 20 of the electronic component 2 and the external connection member 3 as follows.
That is, first, as shown in FIGS. 4 and 5, the fixing plate portion 33 of the external connection member 3 is superimposed on the connection terminal 20 of the electronic component 2. At this time, the terminal welding portion 22 and the member welding portion 32 are overlapped. In addition, it is preferable that the through holes 211 and 311 of the terminal fastening part 21 and the member fastening part 31 overlap each other.

Next, as shown in FIG. 6, the terminal welding part 22 and the member welding part 32 are welded. As a welding method, for example, micro Tig welding is used.
Thereby, the terminal connection structure 1 is obtained.

And when a defect arises in said welding, as shown in FIG. 6, FIG. 7, the said part 22 for terminal welding and the site | part 32 for member welding are cut and removed.
Next, the terminal fastening part 21 and the member fastening part 31 are aligned so that the through-holes 211 and 311 thereof overlap each other. Then, as shown in FIGS. 7 and 8, the screw 41 is inserted into the through holes 211 and 311 through the washer 42 and screwed into the nut 43, whereby the connection terminal 20 of the electronic component 2 and the outside are connected. The connection member 3 is connected.

  The terminal connection structure 1 is used, for example, in a device in which a large number of electronic components (semiconductor modules) 2 are arranged, such as a power conversion device. Therefore, there are cases where all of the many terminal connection structures in the apparatus or the like become the terminal connection structure 1 by welding shown in FIGS. 1 and 6, but some of the many terminal connection structures are shown in FIG. It may become the terminal connection structure 10 by the screwing shown. The former is realized when there is no welding failure and the electronic component 2 is not damaged, and the latter is realized when the welding failure or the electronic component 2 is partially damaged.

Next, the function and effect of this example will be described.
As shown in FIG. 1, the terminal connection structure 1 connects the connection terminal 20 and the external connection member 3 by welding at the terminal welding portion 22 and the member welding portion 32, so that the production efficiency is improved. Excellent.

  As shown in FIGS. 2 and 3, the connection terminal 20 and the external connection member 3 are respectively provided with the terminal welding part 22 and the member welding part 32, respectively. It is provided at a position different from the member fastening portion 31. Therefore, when the terminal connection structure 1 is manufactured, if welding failure occurs when the connection terminal 20 and the external connection member 3 are connected, as shown in FIGS. 22 and the member welding portion 32 can be cut, and the connection terminal 20 and the external connection member 3 can be reconnected by the screw 41 in the terminal fastening portion 21 and the member fastening portion 31.

That is, since the terminal welding part 22 and the member welding part 32 are provided at positions different from the terminal fastening part 21 and the member fastening part 31, the terminal welding part 22 and the member welding part 32 are provided. Even after the cutting and removal, as shown in FIG. 7, the terminal fastening part 21 and the member fastening part 31 remain. Therefore, even if poor welding occurs, the connection terminal 20 of the electronic component 2 and the external connection member 3 can be reconnected by the screw 41 as shown in FIG.
Thereby, even when welding failure occurs, it is not necessary to replace the electronic component 2 and the external connection member 3.

Even when either one of the electronic component 2 and the external connection member 3 is damaged, the terminal welding portion 22 of the connection terminal 20 of the electronic component 2 and the member welding portion 32 of the external connection member 3 are also provided. By cutting the above, it is possible to replace only one of the damaged parts without replacing the other part.
That is, even if the terminal welding portion 22 and the member welding portion 32 are cut and removed, the terminal fastening portion 21 and the member fastening portion 31 remain, so that the portion is not damaged by screwing at this portion. One part can be connected to a substitute part of the damaged part.
Therefore, the electronic component 2 and the external connection member 3 can be replaced easily and inexpensively. In particular, since the electronic component 2 is a semiconductor module, there is a great advantage in that it is not necessary to replace a relatively expensive semiconductor module.

  As described above, according to this example, it is possible to provide a terminal connection structure that is excellent in production efficiency and can easily and inexpensively replace electronic components and external connection members.

(Example 2)
In this example, as shown in FIGS. 9 to 12, the connection terminal 20 of the electronic component 2 is extended in a direction orthogonal to the projecting direction from the main body to have a substantially L shape in front view. is there.
Corresponding to the shape of the connection terminal 20, as shown in FIG. 9, the external connection member 3 is also provided with an extending portion.
And these extended parts are set as the part 22 for terminal welding, and the part 32 for member welding, respectively (FIGS. 9-11).

Further, when there is poor welding or damage of the electronic component 2, as shown in FIG. 12, the terminal welding part 22 and the member welding part 32 are cut, and the terminal fastening part 21 and the member fastening part are cut. In the attachment part 31, the connection terminal 20 and the external connection member 3 are connected by a screw 41.
Others are the same as in the first embodiment.

In the case of this example, the terminal welding part 22 and the member welding part 32 can be sufficiently secured, so that the welding work is facilitated. Further, even when welding failure occurs, the terminal welding part 22 and the member welding part 32 can be easily cut. Therefore, production efficiency is further improved, and replacement of the electronic component 2 and the external connection member 3 is further facilitated.
Others are the same as in the first embodiment.

(Example 3)
In this example, as shown in FIG. 13 and FIG. 14, slit portions 221 and 321 cut from the side end portions are provided in the terminal welding portion 22 and the member welding portion 32, and along the slit portions 221 and 321. This is an example in which the connection terminal 20 and the external connection member 3 are welded.
In FIG. 14, a portion denoted by reference numeral 35 represents a welded portion in which the connection terminal 20 and the external connection member 3 are melted by welding.
Others are the same as in the second embodiment.

In this case, since the welding area can be increased, the connection terminal 20 and the external connection member 3 can be more reliably connected.
In addition, the same effects as those of the second embodiment are obtained.

Example 4
In this example, as shown in FIG. 15 and FIG. 16, slit portions 221 and 321 cut from the upper end portion are provided in the terminal welding portion 22 and the member welding portion 32, and along the slit portions 221 and 321. This is an example in which the connection terminal 20 and the external connection member 3 are welded.
Others are the same as in the third embodiment.

Also in this case, since the welding area can be increased, the connection terminal 20 and the external connection member 3 can be more reliably connected.
In addition, the same effects as those of the second embodiment are obtained.

3 is a perspective view of a terminal connection structure between an electronic component and an external connection member in Embodiment 1. FIG. 1 is a perspective view of an electronic component in Embodiment 1. FIG. 3 is a perspective view of an external connection member in Embodiment 1. FIG. FIG. 3 is a side view of the electronic component in the first embodiment. FIG. 3 is a side view illustrating a state where an external connection member is stacked on a connection terminal of an electronic component in the first embodiment. The side view of the state which welded the terminal for an electronic component, and the external connection member in Example 1. FIG. The side view in the state where the part for terminal welding and the part for member welding in Example 1 were cut. The side view of the state which screwed the terminal for a connection of an electronic component and the external connection member in Example 1. FIG. The perspective view of the external connection member in Example 2. FIG. FIG. 6 is a perspective view of an electronic component in Example 2. The perspective view of the terminal connection structure of the electronic component and external connection member in Example 2. FIG. The perspective view of the state which screwed the electronic component and the external connection member in Example 2. FIG. The perspective view of the state before the welding of an electronic component and an external connection member in Example 3. FIG. The perspective view of the terminal connection structure of the electronic component and external connection member in Example 3. FIG. The perspective view of the state before the welding of an electronic component and an external connection member in Example 4. FIG. The perspective view of the terminal connection structure of the electronic component and external connection member in Example 4. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Terminal connection structure 2 Electronic component 20 Connection terminal 21 Terminal fastening part 211 Through-hole 22 Terminal welding part 3 External connection member 31 Member fastening part 311 Through-hole 32 Member welding part 41 Screw

Claims (2)

A terminal connection structure in which the connection terminal in an electronic component having a connection terminal and an external connection member for connecting the electronic component to an electric circuit are connected,
The electronic component is a semiconductor module containing a semiconductor element, and the connection terminal includes a main electrode terminal connected to a main electrode of the semiconductor element,
The connection terminal and the external connection member are each provided with a terminal fastening part and a member fastening part in which a through-hole through which the fastener can be inserted is formed,
Further, the connection terminal and the external connection member are provided with a terminal welding part and a member welding part for welding both,
The terminal welding part and the member welding part are arranged at positions different from the terminal fastening part and the member fastening part, respectively.
The terminal connection structure, wherein the connection terminal and the external connection member are welded to each other at a portion where the terminal welding portion and the member welding portion overlap each other. 2. The terminal welding portion and the member welding portion according to claim 1 , each having a slit portion cut from an end portion, and the connection terminal and the external connection member are welded along the slit portion. Terminal connection structure characterized by being made .

Images