JP2014154756A - Conductive member and temporary joining method of sheet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To join a beam lead (conductive member) and a solder sheet temporarily and reliably.SOLUTION: Notches 40a, 40b (recess) are formed in solder fixing parts 28a, 28b for soldering a beam lead 28 and an electronic component 26. After installing the notches 40a, 40b thus formed on a solder sheet 25, the notches 40a, 40b are pressed in the thickness direction of the solder sheet 25, and the solder sheet 25 is brought into contact with the walls 41a, 41b of the notches 40a, 40b and held in place. The beam lead 28 (conductive member) to which the solder sheet 25 is joined temporarily is then arranged on the electronic component 26 and soldered.

Description

  The present invention relates to a temporary fixing method for a conductive member and a solder sheet, which is performed when a conductive member that is a wiring member and an electronic component are soldered.

  In recent years, as a method for efficiently soldering electronic components, a sheet-like solder (hereinafter referred to as a solder sheet) is previously installed at a joint portion to be soldered, and a board or electronic device is placed on the solder sheet. A soldering method called a reflow method, in which a component and a conductive member are placed and then soldered by heating, has been put into practical use. For example, this soldering method is used for soldering a semiconductor component constituting a semiconductor module such as an inverter used for an electric vehicle and a cooler or a circuit board.

  At this time, in order to solder the substrate, the electronic component, and the conductive member on the cooler, it is necessary to place the necessary electronic component, the conductive member, and the solder sheet in a predetermined order at predetermined positions.

  For example, in the invention described in Patent Document 1, a solder sheet, a metal plate (corresponding to the conductive member of the present invention), a solder sheet, and an insulating substrate are placed in this order on both sides of a flat IGBT and connected by soldering. doing.

JP-A-9-260557

  However, according to the method for manufacturing a semiconductor device described in Patent Document 1, in order to securely solder metal plates, conductive members, and solder sheets having different sizes and shapes to predetermined positions on both sides of a flat IGBT, It was necessary to place these parts accurately. At this time, simply placing each component will easily shift the position of the conductive member with a small size or the solder sheet placed on the solder joint surface due to the occurrence of vibration. Therefore, it is necessary to perform the soldering operation using a jig capable of accurately positioning and maintaining the state so as not to shift the position of the performed component. In addition, it takes a lot of time to place the parts.

  The present invention has been made in view of the above circumstances, and when soldering the conducting member and the electronic component, the position of the solder sheet sandwiched between the solder joint surfaces of the electronic component and the conducting member does not occur, and in a short time. It is an object of the present invention to provide a method for temporarily fixing a conductive member and a solder sheet on which a component can be placed.

  The temporary fixing method of the conductive member and the solder sheet according to the present invention prevents the occurrence of displacement between the conductive member and the solder sheet, and can reliably solder the conductive member and the electronic component. It relates to a temporary fixing method.

  In other words, the conductive member and the solder sheet temporary fixing method according to the present invention are soldered to different electronic components, and joined by soldering provided to the conductive member that has conductivity to connect the different electronic components. A temporary fixing method of a conductive member and a solder sheet, wherein a solder sheet is temporarily fixed to the bonding surface of a solder fixing portion having a bonding surface to be extended in the direction perpendicular to the bonding surface. A step of forming at least one concave portion having a wall portion, a step of installing the joint surface of the solder fixing portion so that the concave portion overlaps the solder sheet, and the concave portion in the thickness direction of the solder sheet. The solder sheet is held on the joint surface of the solder fixing part by bringing the pressed solder sheet into contact with the wall part and the pressurizing step. A step, that consists characterized.

  According to the temporary fixing method of the conductive member and the solder sheet configured as described above, in the solder fixing portion for fixing the conductive member to the electronic component, the bonding is performed in the joint surface for bonding the conductive member and the electronic component. Forming at least one concave portion having a wall portion extending in a direction perpendicular to the surface, and placing the joint surface of the solder fixing portion thus provided with the concave portion so that the concave portion overlaps the solder sheet; By pressing the solder sheet in the thickness direction of the solder sheet, the pressed recess is pressed into the solder sheet by biting into the solder sheet, and the solder sheet deformed by the press contact with the wall of the recess, A frictional force is generated between the solder sheet and the recess, and this frictional force holds the solder sheet against the gravity against the solder fixing part. It is possible to the body of. Therefore, by installing the conductive member integrated with the solder sheet on the electronic component to be soldered, the conductive member and the solder sheet are securely soldered at a predetermined position without causing a positional shift. be able to. In addition, since the solder sheet can be temporarily fixed to the solder fixing portion of the conductive member in advance, the time required to place the ceramic substrate or electronic component to be soldered can be shortened. Work can be done in a short time.

  Furthermore, as long as the solder sheet is deformed and held in the recess, the conductive member and the predetermined electronic component can be soldered, so there is no need to prepare a solder sheet of the same size as the solder fixing portion, What is necessary is just to prepare the solder sheet of the size at least equivalent to a recessed part. That is, the amount of necessary solder sheets can be reduced.

  Moreover, the conducting member and the solder sheet temporary fixing method according to the present invention are characterized in that the recess is formed by a through hole extending in a direction perpendicular to the joint surface.

  According to the temporary fixing method of the conductive member and the solder sheet configured as described above, since the concave portion is formed by the through hole perpendicular to the joint surface, when the solder fixing portion is pressed in the thickness direction of the solder sheet, Since the contact area between the sheet and the wall surface constituting the recess is increased, the solder sheet can be further digged into the recess, whereby the solder sheet can be more reliably held.

  Moreover, the temporary fixing method of the conducting member and the solder sheet according to the present invention is characterized in that the concave portion is formed by press molding.

  According to the temporary fixing method of the conductive member and the solder sheet configured as described above, since the concave portion is formed by press molding, the concave portion can be easily formed with simple equipment.

  Further, in the temporary fixing method of the conductive member and the solder sheet according to the present invention, the concave portion is formed in a comb-blade shape in a direction along the joint surface on the edge of the solder fixing portion. And

  According to the temporary fixing method of the conductive member and the solder sheet configured as described above, the concave portion is formed in a comb-blade shape in the direction along the joint surface on the edge of the solder fixing portion. When the fixed portion and the solder sheet are placed on top of each other, the length of the portion where the wall portion and the solder sheet that make up the concave portion come into contact with each other can be secured long. When the pressure is applied in the thickness direction, the contact area between the solder sheet and the wall that forms the recess increases, so that the solder sheet can be further bite into the recess and the solder sheet is securely held by the solder fixing portion. By doing so, the conducting member and the solder sheet can be reliably positioned.

  Further, in the temporary fixing method of the conductive member and the solder sheet according to the present invention, the concave portion is formed in the solder fixing portion in a porous shape in a direction perpendicular to the joint surface. Features.

  According to the conductive member and the solder sheet temporary fixing method configured as described above, the concave portion is formed in the solder fixing portion in a porous shape in the direction perpendicular to the joint surface, and thus the concave portion is provided. When the solder fixing part and the solder sheet are placed on top of each other, the length of the part where the wall part and the solder sheet that make up the concave portion come into contact with each other can be secured long. When the pressure is applied in the thickness direction, the contact area between the solder sheet and the wall portion that forms the recess increases, so that the solder sheet can be further digged into the recess, and the solder sheet can be more securely attached to the solder fixing portion. By being held, the conducting member and the solder sheet can be reliably positioned.

  According to the temporary fixing method of the conducting member and the solder sheet according to the present invention, the conducting member and the solder sheet are integrated by holding the solder sheet by the conducting member, and the occurrence of the positional deviation between the conducting member and the solder sheet is prevented. In addition, by arranging the conductive member integrated with the solder sheet at a predetermined position of the electronic component, it is possible to reliably solder the conductive member and the electronic component in a short time.

(A) is a figure which shows the example which used the beam lead (conducting member) manufactured by the method of this invention for manufacture of the drive circuit and gate circuit of the inverter which are vehicle power devices. (B) is a figure which shows the structure of the electronic component and beam lead which are mounted in a board | substrate. It is sectional drawing which looked at a mode that the board | substrate was soldered to the cooler in the AA cross section of FIG. (A) is a figure explaining the structure of a beam lead. (B) is a figure explaining the notch part (recessed part) produced | generated in the solder fixing | fixed part of the beam lead. (C) is a figure explaining a mode that the beam lead in which the notch part was produced | generated is mounted on the solder sheet installed in the fixed stand, and is pressurized from upper part. (D) is a figure explaining a mode that the solder sheet digged into the notch part. (A) is a figure explaining the example by which the notch part was formed in porous. (B) is a figure explaining the example in which the notch was formed in the shape of a long hole.

  Embodiments of a temporary fixing method for a conductive member and a solder sheet according to the present invention will be described below with reference to the drawings.

Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.

  The beam lead, which is a conductive member manufactured by applying the conductive member and the solder sheet temporary fixing method of the present invention, is used, for example, in the manufacture of an inverter that is one of in-vehicle power devices.

  FIG. 1A shows the appearance of a power device that constitutes a drive circuit and a gate circuit of an inverter. On the upper surface of the cooler 10, a plurality of substrates ASSY 20 are respectively soldered and fixed to the surface of the cooler 10 by solder sheets 30.

  FIG. 1B shows the detailed structure of the substrate assembly 20. In the substrate assembly 20, an electronic component 26 such as an IGBT or a diode as a semiconductor element is soldered to the upper surface of the ceramic substrate 22 via a solder sheet 24. Then, on the upper surface of the electronic component 26, a beam lead 28, which is a conductive member having conductivity, formed of, for example, a copper plate, is soldered by connecting the different electronic components 26 through the solder sheet 25 and conducting them. Has been.

[Description of conventional problems]
Next, problems in manufacturing the conventional substrate assembly 20 will be described with reference to FIG. FIG. 2 is a cross-sectional view taken along the line AA of the cooler 10 to which the board assembly 20 is soldered as shown in FIG. That is, the upper surface of the cooler 10 and the lower surface of the ceramic substrate 22 are soldered to the upper surface of the cooler 10 via the solder sheet 30. A plurality of electronic components 26 are mounted on the upper surface of the ceramic substrate 22 and soldered to the upper surface of the ceramic substrate 22 by a solder sheet 24, respectively. Further, a beam lead 28 is placed on the upper surface of the electronic component 26 and soldered to the upper surface of the electronic component 26 by a solder sheet 25.

  Here, in order to solder each component in the state shown in FIG. 2, the solder sheet 30, the ceramic substrate 22, the solder sheet 24, the electronic component 26, the solder sheet 25, and the beam lead 28 are placed at predetermined positions of the cooler 10. Must be placed in order.

  At this time, conventionally, each component is positioned using a jig, but since the number of layers of components to be placed is large and the size of each component is also different, the position of the component when placed It is difficult to maintain accuracy, and there is a possibility that the position of the component may be displaced, which makes it impossible to perform soldering at a predetermined position. Moreover, since it is necessary to mount many parts, work has taken a lot of time.

[Explanation of Operation of Example 1]
Hereinafter, the operation flow of the first embodiment will be described with reference to FIG.

  First, as shown in FIG. 3A, a beam lead 28 (conductive member) is prepared. At both ends of the beam lead 28, solder fixing portions 28a and 28b each having a planar joining surface joined to the electronic component 26 (see FIG. 2) by soldering are formed. In addition, a joining surface here is a surface joined by soldering with the electronic component 26 via the solder sheet 25 among the solder fixing | fixed part 28a, 28b.

  Next, as shown in FIG. 3B, comb blade-shaped notches 40a and 40b (concave portions) are formed in the solder fixing portions 28a and 28b, respectively.

  The notches 40a and 40b are cut in a comb blade shape from the edges of the solder fixing portions 28a and 28b to a direction along the joint surface to be joined by soldering, and are previously molded into a comb blade shape. The solder fixing portions 28a and 28b are formed by pressing with the pressed member. The surfaces extending in the thickness direction of the solder fixing portions 28a and 28b forming the comb-shaped notches 40a and 40b (concave portions) formed in this way are referred to as wall portions 41a and 41b.

  Next, as shown in FIG. 3C, the beam lead 28 having the notches 40 a and 40 b formed in this way is formed on the solder sheets 25 and 25 placed on the fixing base 50. 40a and 40b are placed so as to overlap.

  And the solder fixing | fixed part 28a, 28b is pressurized with the applied pressure F from the upper part by the installation which has a press function.

  By this pressing, the notches 40a and 40b provided in the solder fixing portions 28a and 28b of the beam lead 28 pressurize the solder sheets 25 and 25, thereby forming a plurality of notches 40a and 40b (concave portions). When the wall portions 41a and 41b are pressed against the solder sheets 25 and 25 and the deformed solder sheets 25 and 25 are in contact with the wall portions 41a and 41b of the notches 40a and 40b, the solder sheets 25 and 25 are brought into contact with each other. And the wall portions 41a and 41b of the notches 40a and 40b generate frictional force, and the frictional force holds the solder sheets 25 and 25 to the solder fixing portions 28a and 28b against gravity.

  When the press working is completed, as shown in FIG. 3 (d), the solder sheets 25 and 25 are digged into the notches 40a and 40b, so that the solder forming the solder sheets 25 and 25 is The solder 35 is held by the beam lead 28 (conductive member).

  At this time, if the pressing force F by pressing is large, the solder sheets 25, 25 are sheared by the pressing force F, and the sheared solders 35, 35 are held only inside the notches 40a, 40b. On the other hand, when the pressurizing force F by press working is small, in addition to the solder 35 and 35 being held in the notches 40a and 40b, the back surfaces of the solder fixing portions 28a and 28b are pressurized. The deformed solder sheets 25, 25 are held without being sheared.

  It should be noted that the solders 35 and 35 bite into the notches 40a and 40b regardless of whether the deformed solder sheets 25 and 25 are held on the back surfaces of the solder fixing portions 28a and 28b. It is assumed that the beam lead 28 and the solder sheet are temporarily fixed as long as they are held by the above.

  The beam lead 28 in which at least the solders 35 and 35 are held in the notches 40a and 40b is placed in a predetermined position of the cooler 10 from the cooler 10 side, and the solder sheet 30, the ceramic substrate 22, The solder sheet 24 and the electronic component 26 are placed in this order so as to be bridged over different electronic components 26 and 26 (see FIG. 2). And it puts into the vacuum reflow soldering apparatus which is a typical apparatus which performs reflow soldering, is heated, and multilayer batch soldering is performed.

[Description of modified shape of notch]
The shape of the notches 40a and 40b is not limited to the comb blade shape shown in FIG.

  4A and 4B show an example of another shape of the notch. That is, the notches 42a and 42b shown in FIG. 4A are formed in the solder fixing portions 28a and 28b in a porous shape.

  Also by the beam lead 28 having the notches 42a and 42b shown in FIG. 4A, the wall portions 43a and 43b constituting the edges of the notches 42a and 42b in the same manner as in FIG. Then, the solder sheet 25 can be held by the frictional force generated by the contact of the solder sheet 25 that has been crimped by biting.

  In particular, when the porous notches 42a and 42b are formed as shown in FIG. 4A, when the solder fixing portions 28a and 28b are pressure-bonded to the solder sheet 25, the notches 42a and 42b Since the length of the contact portion between the wall portions 43a and 43b constituting the edge and the solder sheet 25 increases, when the solder sheet 25 bites into the notches 42a and 42b, the solder sheet 25 and the wall portions 43a, The contact area with 43b becomes larger, thereby generating a large frictional force, and the solder sheet 25 can be held more reliably.

  Further, the notches 44a and 44b shown in FIG. 4B are formed in the solder fixing portions 28a and 28b so as to have a long hole shape.

  Also by the beam lead 28 having the cutout portions 44a and 44b shown in FIG. 4B, the wall portions 45a and 45b constituting the edges of the cutout portions 42a and 42b in the same manner as in FIG. Then, the solder sheet 25 can be held by the frictional force generated by the contact of the solder sheet 25 that has been crimped by biting.

  When the notches 44a and 44b shown in FIG. 4B are formed, when the solder fixing portions 28a and 28b are pressure-bonded to the solder sheet 25, wall portions constituting the edges of the notches 44a and 44b are formed. Since the length of the contact part between 45a and 45b and the solder sheet 25 increases, when the solder sheet 25 bites into the notches 44a and 44b, the contact area between the solder sheet 25 and the wall parts 45a and 45b becomes larger. As a result, a large frictional force is generated, and the solder sheet 25 can be held more reliably.

  As described above, according to the conductive member and the solder sheet temporary fixing method according to the first embodiment, the different electronic components 26 and 26 are respectively soldered and the conductive beams connecting the different electronic components are connected. At least wall portions 41a and 41b extending in a direction perpendicular to the joint surface are provided in the joint surfaces of the solder fixing portions 28a and 28b having joint surfaces to be joined by soldering provided on the lead 28 (conduction member). One notch 40a, 40b (concave portion) is formed, and thus the joint surface of the solder fixing portion 28a, 28b provided with the notch 40a, 40b is formed on the solder sheet 25. After being placed so as to overlap, the notched portions 40a and 40b are pressed toward the thickness direction of the solder sheet 25, thereby pressing the notched portions. When the portions 40a and 40b are crimped to the solder sheet 25 and the solder sheet 25 deformed by the crimping contacts the wall portions 41a and 41b of the notches 40a and 40b, the solder sheet 25 and the notches 40a and 40b A frictional force is generated between them, and the soldering sheet 25 is held by the solder fixing portions 28a, 28b against the gravity by this frictional force, so that the beam lead 28 (conducting member) and the soldering sheet 25 are integrated. be able to. For this reason, the beam lead 28 in which the solder sheet 25 is integrated is placed on the electronic component 26 to be soldered, so that the beam lead 28 and the solder sheet 25 and the solder sheet 25 and the electronic component 26 are displaced. Therefore, soldering can be reliably performed at a predetermined position. Further, since the solder sheet 25 can be temporarily fixed to the solder fixing portions 28a and 28b of the beam lead 28 in advance, the time required for placing the ceramic substrate 22 and the electronic component 26 to be soldered is shortened. Therefore, the soldering operation can be performed in a short time.

  Furthermore, since the beam lead 28 and the electronic component 26 can be soldered as long as the solder sheet 25 is deformed and held by biting into the notches 40a and 40b, the size equivalent to the solder fixing portions 28a and 28b. It is not necessary to prepare the solder sheet 25. That is, when the solder sheet 25 is pressed, the solder sheet 25 can be temporarily fixed to the beam lead 28 as long as it has an area that includes at least the notches 40a and 40b. Therefore, the amount of necessary solder sheets can be reduced.

  In addition, according to the temporary fixing method of the conductive member and the solder sheet according to the first embodiment, the notches 40a, 40b, 42a, 42b, 44a, 44b are connected to the beam leads 28 in the solder fixing portions 28a, 28b. Since the electronic component 26 is formed by a through hole extending vertically on the joint surface when soldering the electronic component 26, when the solder fixing portions 28 a and 28 b are pressed in the thickness direction of the solder sheet 25, the solder sheet 25 and the notch are notched. Since the contact area with the wall surfaces 41a, 41b, 43a, 43b, 45a, 45b constituting the portions 40a, 40b, 42a, 42b, 44a, 44b is increased, the solder sheet 25 is notched 40a, 40b, 42a, 42b. , 44a and 44b, and the solder fixing portions 28a and 28b further secure the solder sheet 25. It can be held to.

  In addition, according to the temporary fixing method of the conductive member and the solder sheet according to the first embodiment, the cutout portions 40a and 40b are formed by press molding. Therefore, the cutout portions 40a and 40b are easily formed with simple equipment. be able to.

  Furthermore, according to the temporary fixing method of the conducting member and the solder sheet according to the first embodiment, the cutout portions 40a and 40b are formed in the shape of a comb blade on the edges of the solder fixing portions 28a and 28b. , 40b, the length of the part where the wall portions 41a, 41b contact the solder sheet 25 can be ensured long, whereby the notched portions 40a, 40b of the pressed solder fixing portions 28a, 28b. Since the contact area between the wall portions 41a and 41b and the solder sheet 25 increases, the solder sheet 25 can be further bitten by the cutout portions 40a and 40b, and the solder sheet 25 can be inserted into the solder fixing portions 28a and 28b. The beam lead 28 and the solder sheet 25 can be reliably positioned by being held securely.

  Further, according to the temporary fixing method of the conductive member and the solder sheet according to the first embodiment, the cutout portions 42a and 42b are formed in the solder fixing portions 28a and 28b in a porous shape, and thus the cutout portions 42a and 42b. Since the contact area between the wall portions 43a and 43b and the solder sheet 25 is increased, the solder sheet 25 can be further bitten by the cutout portions 42a and 42b, and the solder sheet 25 can be cut by the cutout portions 42a and 42b. Since it is held more reliably, the positioning of the beam lead 28 and the solder sheet 25 can be performed reliably.

  In addition, in Example 1, although the specific shape of the notch part was demonstrated as a comb blade shape, porous shape, and long hole shape, the shape of a notch part is not limited to these, Other shapes However, the same effect can be obtained. In particular, in the present invention, since the solder sheet is held by biting into the wall portion of the notch (recess), in order to obtain a high holding force, the area of the gap formed by the notch (recess) is reduced. On the other hand, it is desirable that the length of the wall portion of the notch (concave portion) is long.

  Moreover, in Example 1, although notch part 40a, 40b, 42a, 42b, 44a, 44b was formed so that all might penetrate solder fixing | fixed part 28a, 28b, this is a non-penetrating notch part. Also good. Even when the notch is formed by a non-penetrating recess, it is possible to generate and hold a frictional force by causing the soldered sheet to bite into contact with the wall constituting the recess. Therefore, the same effect as described in the first embodiment can be obtained.

  Although the embodiments of the present invention have been described in detail with reference to the drawings, the embodiments are only examples of the present invention, and the present invention is not limited to the configurations of the embodiments. Needless to say, design changes and the like within a range not departing from the gist of the invention are included in the present invention.

28 Beam Lead (Conductive Member)
28a, 28b Solder fixing part 25 Solder sheet 35 Solder 50 Fixing base 40a, 40b Notch (recessed part)
F Applied pressure

Claims (5)

A solder sheet is provided on the joint surface of the solder fixing portion having a joint surface to be joined by soldering, which is provided on a conductive member having electrical conductivity that is soldered to different electronic components and connects the different electronic components. Temporarily fixing the conductive member and the solder sheet temporarily fixing method,
Forming at least one recess having a wall portion extending in a direction perpendicular to the joint surface in the joint surface;
Installing the bonding surface of the solder fixing portion so that the concave portion overlaps the solder sheet;
Pressurizing the concave portion in the thickness direction of the solder sheet;
A step of temporarily holding the solder sheet on the joint surface of the solder fixing portion by bringing the pressed solder sheet into contact with the wall portion, and a method for temporarily fixing the solder sheet .   The method for temporarily fixing a conductive member and a solder sheet according to claim 1, wherein the recess is formed by a through hole extending in a direction perpendicular to the joint surface.   The method for temporarily fixing a conductive member and a solder sheet according to claim 1, wherein the concave portion is formed by press molding.   The said recessed part is formed in the edge along the said bonding surface at the edge of the said solder fixing | fixed part in the shape of a comb blade, The Claim 1 characterized by the above-mentioned. Temporary fixing method of conductive member and solder sheet.   The said recessed part is formed in the said solder fixing | fixed part in the shape of a porous toward the perpendicular | vertical direction to the said joint surface, The any one of Claims 1-3 characterized by the above-mentioned. Temporary fixing method of conductive member and solder sheet.