JP3565031B2 - Solder ball mounting device and mounting method - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a solder ball mounting apparatus and a mounting method for mounting a solder ball to form a solder bump.
[0002]
[Prior art]
As a method for forming solder bumps on a work such as an electronic component or a substrate, a method using a solder ball is known. In this method, a solder ball is mounted on an electrode of a work, and the solder ball is melted by heating and soldered to the electrode. A solder paste containing solder particles in a flux is applied to the joint between the solder ball and the electrode in order to improve the jointability. As a method of application at this time, a method of applying a solder paste to the lower end portion of the solder ball in advance, or a method of applying the solder paste by transferring it to the electrode surface with a pin is used.
[0003]
[Problems to be solved by the invention]
Incidentally, depending on the type of electronic component, a solder bump may be formed on a concave portion provided in an insulating layer covering an electrode such as a TAB tape. In such a case, the solder balls for forming the bumps are electrically connected to the electrodes formed at the bottoms of the concave portions to perform solder bonding. Therefore, the above-described solder paste needs to be filled in the concave portions.
[0004]
However, since the solder paste is a paste-like material having adhesiveness, it is not easy to uniformly fill the recesses. In particular, with the increase in the density of electronic components, the opening diameter of the concave portion has become smaller than the diameter of the solder ball and the size of the transfer pin, so that it is more difficult to fill the concave portion with the solder paste. A good method of filling the solder paste by printing the recesses with a stencil mask can be used to achieve good filling of the solder paste. It is not preferable because of complication. Then, if the soldering is performed while the filling of the solder paste is insufficient, there is a problem that the solder bumps are not formed satisfactorily due to the insufficient bonding with the electrode surface.
[0005]
Therefore, an object of the present invention is to provide a solder ball mounting apparatus and a mounting method capable of performing favorable filling of a metal paste.
[0006]
[Means for Solving the Problems]
2. The solder ball mounting apparatus according to claim 1, wherein a solder ball having a size larger than an opening dimension of the concave portion is mounted in the concave portion in order to form a solder bump on an electrode at a bottom of the concave portion formed in the work. A work holding unit for holding a work with the surface having the recess formed upward, a solder ball supply unit for supplying a solder ball, and a suction ball for holding the solder ball of the solder ball supply unit. A suction head, a metal paste supply unit for shaping the liquid surface of the metal paste to be flat, and a suction operation for moving the suction head to suction the solder ball from the solder ball supply unit. The attaching operation of attaching the metal paste of the metal paste supply unit and the solder ball coated with the metal paste are mounted on the recess of the work held by the work holding unit. Mounting operation, the suction head moving means for each operation to perform on the suction head, the solder balls during the mounting operation to After the metal paste applied to the lower surface of the solder ball is attached to the upper surface of the recess, the solder ball Once away from the recess , And a control unit for controlling the suction head moving means so as to perform the approach operation again at least once.
[0007]
3. The solder ball mounting method according to claim 2, wherein a solder bump having a size larger than an opening dimension of the concave portion is mounted in the concave portion in order to form a solder bump on an electrode at the bottom of the concave portion formed in the work. A first step of applying a metal paste to the lower surface of the solder ball; and positioning the solder ball in the concave portion to cause the metal paste adhered to the solder ball to adhere to the upper surface of the concave portion. A second step and a third step of performing at least one operation of moving the solder ball once away from the recess and then approaching the solder ball again to adhere the metal paste to the electrode in the recess.
[0008]
The method of mounting a solder ball according to a third aspect is the method of mounting a solder ball according to the second aspect, wherein the third step includes an operation of vertically moving the solder ball.
[0009]
A solder ball mounting method according to a fourth aspect is the solder ball mounting method according to the second aspect, wherein the third step includes an operation of moving the solder ball in a horizontal direction.
[0010]
The method of mounting a solder ball according to claim 5 is the method of mounting a solder ball according to claim 2, wherein in the third step, after moving the solder ball upward, the solder ball deviates from the center of the recess. Includes the operation of lowering to the position.
[0011]
7. The solder ball mounting apparatus according to claim 6, wherein a solder ball having a size larger than an opening dimension of the concave portion is mounted in the concave portion in order to form a solder bump on an electrode at a bottom of the concave portion formed in the work. A work holding unit for holding a work with the surface having the recess formed upward, a solder ball supply unit for supplying a solder ball, and a suction ball for holding the solder ball of the solder ball supply unit. A suction head to be mounted in the recess, a metal paste supply unit for flattening the liquid surface of the metal paste, and a lower end having a size larger than the opening dimension of the recess, and the metal paste is attached to the lower end. A transfer head provided with a plurality of transfer pins to be transferred, and moving the transfer head so that the metal paste of the metal paste supply unit adheres to the concave portion of the substrate held by the work holding unit. A transfer head moving means for causing the attachment operation that, the transfer pin during the attachment operation After the metal paste applied to the lower surface of the transfer pin is adhered to the upper surface of the recess, the transfer pin Once away from the recess , A control unit for controlling the transfer head moving means so as to perform the operation of approaching again at least once.
[0012]
8. The solder ball mounting method according to claim 7, wherein a solder ball having a size larger than an opening dimension of the concave portion is mounted in the concave portion in order to form a solder bump on an electrode at a bottom of the concave portion formed in the work. A first step of attaching a metal paste to the lower end portion of a transfer pin having a lower end portion having a size larger than the opening dimension of the concave portion, and aligning the transfer pin with the concave portion of the work. A second step of attaching the metal paste applied to the transfer pin to the upper surface of the concave portion, and once moving the transfer pin away from the concave portion in order to attach the metal paste to the electrode at the bottom of the concave portion. The method includes a third step of performing at least one operation of approaching again later, and a step of mounting a solder ball in the concave portion to which the metal paste has adhered.
[0013]
The method of mounting a solder ball according to an eighth aspect is the method of mounting a solder ball according to the seventh aspect, wherein the third step includes an operation of vertically moving the solder ball.
[0014]
A method of mounting a solder ball according to a ninth aspect is the method of mounting a solder ball according to the seventh aspect, wherein the third step includes an operation of moving the solder ball in a horizontal direction.
[0015]
The method of mounting a solder ball according to claim 10 is the method of mounting a solder ball according to claim 7, wherein in the third step, after moving the solder ball upward, the solder ball deviates from the center of the recess. Includes the operation of lowering to the position.
[0018]
According to the first to tenth aspects of the present invention, the operation of moving the solder ball or the transfer pin once away from the recess and then approaching it again is performed at least once. , Concave The metal paste can be favorably filled in the part.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
FIG. 1 is a front view of a solder ball mounting apparatus according to Embodiment 1 of the present invention, FIG. 2A is a sectional view of the electronic component, FIG. 2B is an enlarged sectional view of the solder bump, and FIG. a), (b), (c), (d), and (e) are process explanatory views of the solder ball mounting method, and FIGS. 4, 5, and 6 are explanatory views of the solder ball mounting operation. .
[0020]
First, the structure of the solder ball mounting device will be described with reference to FIG. In FIG. 1, a large number of solder balls 3 are stored in a container 2 of a solder ball supply unit 1. A metal paste supply unit 4 is provided on a side of the solder ball supply unit 1. The metal paste supply unit 4 includes a container 5 having a flat bottom surface, and a metal paste 6 is applied to the bottom surface of the container 5. The container 5 is provided with a squeegee unit 8 having a squeegee 7, and the squeegee unit 8 is connected to a belt 9 adjusted between pulleys 10 and 11. By driving the motor 12 to rotate the pulley 11, the squeegee unit 8 moves horizontally, and the squeegee 7 flattens the metal paste 6 on the bottom surface of the container 5 by this horizontal movement. Thereby, the metal paste 6 is applied on the bottom surface of the container 5 with a constant thickness t. Here, the metal paste 6 is a flux or resin containing conductive particles such as solder, gold, silver, and aluminum.
[0021]
A work holding unit 20 is provided beside the metal paste supply unit 4. The work holding unit 20 has a holding table 21, and the holder 22 of the holding table 21 holds the electronic component 15 as a work. Here, the electronic component 15 will be described with reference to FIG.
[0022]
As shown in FIG. 2A, the electronic component 15 is obtained by mounting a semiconductor element 18 on a substrate 16 made of polyimide or glass epoxy (FR-4) and sealing it with a resin layer 19. An electrode 17 connected to the semiconductor element 18 by a wire 18 a is provided on the lower surface of the substrate 16, and a through hole 16 a is provided at the position of the electrode 17. The through hole 16a is a recess formed in the substrate 16 with the electrode 17 as the bottom (hereinafter, referred to as a recess 16a). The electronic component 15 is held by the work holding portion 20 with the concave portion 16a facing upward. Then, the solder ball 3 having a size larger than the opening dimension of the concave portion 16a is mounted on the concave portion 16a, and the solder ball 3 is melted by heating and joined to the electrode 17. That is, the solder ball 3 is mounted on the concave portion 16a, and the solder ball 3 is heated and melted, so that the solder bump 3 'is formed on the electrode 17 at the bottom of the concave portion 16a as shown in FIG. 2B.
[0023]
Referring again to FIG. 1, a suction head 30 is provided above the solder ball supply unit 1, the metal paste supply unit 4, and the work holding unit 20. The suction head 30 includes a lifting mechanism 32, and a suction tool 31 is mounted on a lower end of the lifting mechanism 32. The inside of the suction tool 31 is vacuum-suctioned by a suction means (not shown), so that the solder ball 3 is vacuum-sucked in a suction hole provided on the lower surface of the suction tool 31. The suction head 30 is connected to a nut 34 by a bracket 33, and a feed screw 35 held by a frame 37 is screwed into the nut 34. Further, the frame 37 is connected to a Y-axis table 38 driven by a Y-axis motor 39.
[0024]
Therefore, by controlling the X-axis motor 36, the Y-axis motor 39, and the elevating mechanism 32 by the control unit 40, the suction head 30 moves each part of the solder ball supply unit 1, the metal paste supply unit 4, and the work holding unit 20 to the moving range. , And moves in the X direction, the Y direction (the direction perpendicular to the paper surface of FIG. 1) and the Z direction to attract the solder ball 3 from the solder ball supply unit 1, and the metal paste supply unit 4 And the mounting operation of mounting the solder ball 3 in the recess 16a of the electronic component 15 can be performed.
[0025]
That is, the lifting mechanism 32, the nut 34, the feed screw 35, the X-axis motor 36, the frame 37, the Y-axis table 38, and the Y-axis motor 39 constitute a suction head moving unit. In the mounting operation of the solder ball 3 by the suction head 30, the control unit 40 controls the suction head moving means, so that the solder ball 3 can perform a predetermined operation. Various operation patterns are input to the control unit 40 by the setting unit 41.
[0026]
The solder ball mounting apparatus is configured as described above, and a method for mounting the solder balls will be described below with reference to FIG. In FIG. 3A, the suction head 30 is moved above the solder ball supply unit 1 by the suction head moving means, and is moved up and down there. I do. Thereafter, the suction head 30 is moved above the metal paste supply unit 4 as shown in FIG.
[0027]
Next, as shown in FIG. 3C, the solder ball 3 held by the suction tool 31 is moved up and down with respect to the metal paste 6 applied to the bottom surface of the container 5, so that the lower surface of the solder ball 3 The paste 6 adheres by transfer (first step). Thereafter, the suction head 30 moves above the work holding unit 20 and is positioned with respect to the electronic component 15 held by the holder 22 of the holding table 21 as shown in FIG. Meanwhile, in the metal paste supply unit 4, the squeegee unit 8 is horizontally moved to shape the metal paste 6.
[0028]
Then, by causing the suction head 30 to perform a lifting operation, the solder balls 3 to which the metal paste 6 has adhered are brought into contact with the substrate 16 of the electronic component 15 as shown in FIG. 16a is attached to the upper surface (second step). In FIG. 3E, the metal paste 6 is illustrated as being applied to the surface of the substrate 16 for simplicity, but is mounted on a concave portion 16 a provided on the substrate 16 as described below in detail. You.
[0029]
Next, the mounting operation of the solder ball 3 when mounting the solder ball 3 in the recess 16a will be described with reference to FIGS. These operations are intended to promote the filling of the solder ball 3 with the metal paste 6 in order to satisfactorily fill the concave portion 16a with a small opening size with the metal paste 6 having high adhesiveness and difficult to fill the narrow gap. Is to be performed.
[0030]
First, the operation shown in FIG. 4 will be described. FIG. 4A shows a state in which the solder ball 3 having the lower surface coated with the metal paste 6 is held by the suction tool 31 and positioned on the concave portion 16 a of the substrate 16. Thereafter, by lowering the suction tool 31, the metal paste 6 adhered to the solder ball 3 is adhered to the upper surface of the concave portion 16a as shown in FIG. Next, as shown in FIG. 4C, the suction tool 31 is raised to separate the solder ball 3 from the metal paste 6 attached to the upper surface of the concave portion 16a. As a result, as shown in FIG. 4D, a portion of the metal paste 6 rises while adhering to the solder ball 3, so that the metal paste 6 adhering to the recess 16a is pulled by the solder ball 3 so that the center of the recess 16a And then separated into a portion remaining on the recess 16 a and a portion attached to the solder ball 3. At this time, the shape of the separated portion is a conical shape with vertices facing each other.
[0031]
Next, when the solder ball 3 is lowered again, as shown in FIG. 4E, the metal paste 6 attached to the solder ball 3 is collected on the concave portion 16a and tends to hang down in the concave portion 16a due to fluidity. The metal paste 6 is further pressed down. As a result, the metal paste 6 is pushed into the recess 16a and is filled well, and the metal paste 6 adheres to the electrode 17 at the bottom of the recess 16a. Then, in this state, the vacuum suction by the suction tool 31 is released and the suction tool 31 is raised, so that the solder ball 3 is mounted on the concave portion 16a filled with the metal paste 6 as shown in FIG. . That is, FIG. 4 shows a process of once moving the solder ball 3 away from the recess 16a and then approaching it again at least once in order to attach the metal paste 6 to the electrode 17 at the bottom of the recess 16a (third process). 3) shows an example in which the solder ball 3 is moved only vertically in the recess 16a in this operation. By the operation of moving the solder ball 3 in the vertical direction, the metal paste 6 attached on the concave portion 16a is gathered at the center of the concave portion 16a and pushed into the bottom thereof. This operation is performed at least once, and the actual number of times is determined by trial according to the properties of the metal paste 6 and the shape of the concave portion 16a. The direction in which the solder ball 3 is moved up and down may be obliquely upward from the recess 16a.
[0032]
Next, another operation example performed for the same purpose as the above operation will be described with reference to FIG. In FIG. 5, the steps up to FIGS. 5A and 5B are the same as the example shown in FIG. Here, as shown in FIG. 5B, the solder ball 3 is slightly moved in the horizontal direction from the state where the metal paste 6 is adhered on the concave portion 16a. At this time, since the metal paste 6 has already entered the concave portion 16a, as shown in FIG. 5C, a considerable portion is located in the concave portion 16a and is in a hanging state.
[0033]
When the solder ball 3 is horizontally moved in the opposite direction from this state, the metal paste 6 brought toward the center of the recess 16a by the solder ball 3 is already located in the recess 16a as shown in FIG. The metal paste 6 is pushed down in the recess 16a. By repeating the operations shown in FIGS. 5C and 5D a predetermined number of times, the metal paste 6 is sequentially brought into the recess 16a by the solder ball 3, and as shown in FIG. It is filled in 16 a and adheres to the upper surface of the electrode 17. FIG. 5F shows a state similar to FIG. That is, in the operation shown in FIG. 5, in order to attach the metal paste 6 to the electrode 17 at the bottom of the concave portion 16a, the solder ball 3 is once moved away from the concave portion 16a in the horizontal direction, and then is made to approach again at least once. (3rd step), which includes an operation of moving the solder ball in the horizontal direction.
[0034]
Next, another operation example performed for the same purpose will be described with reference to FIG. In FIG. 6, the operations up to FIGS. 6A, 6B, and 6C are the same as those in FIGS. 4A to 4D. Thereafter, as shown in FIG. 6D, the solder ball 3 is horizontally moved by a slight distance corresponding to the width of the metal paste, and then lowered. As a result, the metal paste 6 is moved toward the center of the concave portion 16a by the spherical portion on the lower surface of the solder ball 3, and the metal paste 6 already located on the concave portion 16a in FIG. Can be
[0035]
Next, as shown in FIG. 6 (e), the solder ball 3 is raised, horizontally moved by the same distance in the opposite direction, and then lowered again. Thereby, the metal paste 6 is further moved toward the center of the concave portion 16a, and by repeating this operation, the metal paste 6 adheres to the electrode 17 at the bottom of the concave portion 16a. FIG. 6F shows a state in which the metal paste 6 is filled in the recess 16a in this way, and FIG. 6G shows a state in which the mounting of the solder balls 3 is completed. That is, the operation shown in FIG. 6 is to move the solder ball 3 once away from the concave portion 16a and then to approach the solder ball 3 again at least once (third step), and after moving the solder ball 3 upward, It is lowered to a position off the center of the recess.
[0036]
In any of the operations shown in FIGS. 4 to 6, the metal paste 6 attached to the upper surface of the concave portion 16a is effectively pushed into the concave portion 16a by causing the solder ball 3 to perform the above-described operation, and It is filled and adheres to the bottom electrode 17. The operation performed in the third step is not limited to the above three operations, and may be a combination of these operations.
[0037]
The electronic component 15 having the solder balls 3 mounted on the concave portions 16a through the above-described steps is sent to the reflow step. Here, by being heated to a temperature equal to or higher than the melting point of the solder, the solder ball 3 is melted and soldered to the upper surface of the electrode 17 at the bottom of the concave portion 16a. At this time, since the metal paste 6 is well filled in the recess 16a in the previous step and is in contact with the surface of the electrode 17, the solder film 3 and the oxide film on the surface of the electrode 17 are removed at the time of soldering. And good solder joints are performed. Further, when the solder ball 3 is melted, the presence of the conductive particles in the metal paste 6 in the concave portion 16a ensures that the molten solder reaches the surface of the electrode 17 and wets the surface. A good solder bump 3 ′ (see FIG. 2 (b)) having excellent strength is formed on the electrode 17 in the concave portion 16 a.
[0038]
(Embodiment 2)
FIG. 7 is a front view of a solder ball mounting apparatus according to a second embodiment of the present invention, and FIGS. 8 (a), (b), (c), (d), (e), and (f) show the solder ball mounting apparatus. 9 is a partially enlarged view of a transfer pin of the solder ball mounting apparatus, and FIGS. 10 and 11 are explanatory views of a coating operation by the transfer pin.
[0039]
First, a solder ball mounting device will be described with reference to FIG. In FIG. 7, a work holding unit 20 is provided on a side of the solder ball supply unit 1, and a metal paste supply unit 4 is provided on a side of the work holding unit 20. The solder ball supply unit 1, the work holding unit 20, and the metal paste supply unit 4 are the same as those in the first embodiment shown in FIG. However, Embodiment 2 is different in that the work holding unit 20 is located at the center.
[0040]
A head moving unit similar to that in the first embodiment is provided above the solder ball supply unit 1, the work holding unit 20, and the metal paste supply unit 4, and the head 33 has a suction head. 30 and a transfer head 42 are mounted. The suction head 30 and the transfer head 42 move integrally in the horizontal direction. Here, the suction head 30 is the same as that in the first embodiment. The transfer head 42 includes a transfer tool 43 having a plurality of transfer pins 44 and an elevating mechanism 46 for moving the transfer tool 43 up and down.
[0041]
The lifting mechanism 46, the nut 34, the feed screw 35, the X-axis motor 36, the frame 37, the Y-axis table 38, and the Y-axis motor 39 constitute a transfer head moving means. By controlling the transfer head moving means by the control unit 40, the transfer pin 44 can perform a predetermined operation. With the transfer tool 43 positioned on the metal paste supply unit 4, the transfer pins 44 are lowered to come into contact with the metal paste 6 applied to the container 5, and then the transfer pins 44 are raised. Has a metal paste 6 adhered to the lower end thereof.
[0042]
The solder ball mounting apparatus is configured as described above, and a method for mounting the solder balls will be described below. First, in FIG. 8A, the transfer head moving means is driven to position the transfer head 42 on the metal paste supply unit 4. At this time, the suction head 30 that moves at the same time is located on the work holding unit 20. Next, as shown in FIG. 8B, the transfer tool 43 is lowered to bring the transfer pins 44 into contact with the bottom surface of the container 5 on which the metal paste 6 has been applied, and then the transfer tool 43 is raised. As a result, the metal paste 6 adheres to the lower end of the transfer pin 44 by transfer (first step).
[0043]
Thereafter, as shown in FIG. 8C, the head moving means is driven to position the transfer head 42 on the work holding unit 20 and the suction head 30 on the solder ball supply unit 1. Then, the transfer pins 44 are aligned with the concave portions 16 a provided on the substrate 16 of the electronic component 15. Next, as shown in FIG. 8D, the transfer tool 43 is lowered to attach the metal paste 6 attached to the lower end of the transfer pin 44 onto the concave portion 16a of the substrate 16 (second step). Concurrently with this operation, the suction tool 31 is moved up and down with respect to the solder ball supply unit 1 and vacuum-sucked from the suction tool 31, whereby the solder ball 3 is picked up on the lower surface of the suction tool 31 by vacuum suction. At this time, in the metal paste supply unit 4, the squeegee unit 8 is moved horizontally to shape the surface of the metal paste 6.
[0044]
Next, as shown in FIG. 8 (e), the head moving means is driven again to position the suction head 30 on the work holding portion 20, and the solder paste 3 held by the suction tool 31 is attached to the metal paste 6. It is aligned with the recess 16a. Next, the suction tool 31 is lowered to release the vacuum suction, whereby the solder ball 3 is mounted on the concave portion 16a to which the metal paste 6 has adhered.
[0045]
Next, the transfer of the metal paste 6 to the recess 16a by the transfer pin 44 will be described with reference to FIGS. As shown in FIG. 9, the transfer pin 44 has a lower end portion 44a having a size larger than the opening size of the concave portion 16a, and the shape of the lower end portion 44a is substantially spherical. By bringing the lower end portion 44a into contact with the metal paste 6 applied to the metal paste supply section 4, the lower end portion 44a is provided with the metal paste 6 as in the case where the metal paste 6 is attached to the solder balls 3 in the first embodiment. 6 adheres.
[0046]
FIG. 10 shows an operation performed by the transfer pin 44 to fill the recess 16a with the metal paste 6 and adhere to the electrode 17 at the bottom of the recess 16a. That is, after the transfer pin 44 is once separated from the recess 16a, This is an explanation of the operation (third step) of approaching again. In the example shown in FIG. 10, the same operation as the operation by the solder ball 3 shown in FIG. 4 in the first embodiment is applied to the metal paste 6, and each of FIGS. The state corresponds to FIGS.
[0047]
FIG. 10 shows an example in which the transfer pin is moved in the vertical direction during the operation. In the first embodiment, the transfer pin 44 is moved in the horizontal direction corresponding to the operation shown in FIGS. An example including an operation of moving the transfer pin 44 upward and then an operation of lowering the transfer pin 44 to a position deviated from the center of the concave portion 16a can also be used as the target operation. In any of these examples, the same effect as in the case of filling the metal paste 6 into the recess 16a using the solder ball 3 in the first embodiment can be obtained.
[0051]
As described above, as a method of supplying the metal paste 6 onto the electrode formed at the bottom in the recess 16a, the solder ball 3 or the transfer pin 4 To four The operation for adopting the transfer by the solder ball 3 and the transfer pin 4 to improve the filling in the concave portion 16a is performed. To four By doing so, it is possible to efficiently mount a solder ball for forming a solder bump without separately providing a step of supplying a metal paste into the concave portion 16a using a dedicated device. In addition, since the supply of the metal paste into the recess 16a is ensured, it is possible to form a solder bump having excellent solder joining properties and a good shape.
[0052]
【The invention's effect】
According to the present invention, since the solder ball or the transfer pin to which the metal paste is attached is once moved away from the recess at least once, or the transfer pin having a lower end smaller in size than the opening dimension of the recess is used. Since it is used, the concave portion can be filled with the metal paste satisfactorily, and the mounting of the solder ball for forming the solder bump can be performed efficiently without separately providing a metal paste supply step by a dedicated device.
[Brief description of the drawings]
FIG. 1 is a front view of a solder ball mounting device according to a first embodiment of the present invention.
FIG. 2A is a cross-sectional view of the electronic component according to the first embodiment of the present invention.
(B) An enlarged sectional view of the solder bump according to the first embodiment of the present invention.
FIG. 3A is a process explanatory view of a method for mounting a solder ball according to the first embodiment of the present invention;
(B) Process explanatory diagram of the solder ball mounting method according to the first embodiment of the present invention
(C) Process explanatory view of solder ball mounting method according to Embodiment 1 of the present invention
(D) Process explanatory view of solder ball mounting method according to Embodiment 1 of the present invention
(E) Process explanatory view of solder ball mounting method according to Embodiment 1 of the present invention
FIG. 4 is an explanatory diagram of a mounting operation of a solder ball according to the first embodiment of the present invention.
FIG. 5 is an explanatory diagram of a solder ball mounting operation according to the first embodiment of the present invention.
FIG. 6 is an explanatory diagram of a mounting operation of the solder ball according to the first embodiment of the present invention.
FIG. 7 is a front view of a solder ball mounting device according to a second embodiment of the present invention;
FIG. 8A is a process explanatory view of a method for mounting solder balls according to the second embodiment of the present invention;
(B) Process explanatory view of the method for mounting solder balls according to the second embodiment of the present invention
(C) Process explanatory view of solder ball mounting method according to Embodiment 2 of the present invention
(D) Process explanatory view of solder ball mounting method according to Embodiment 2 of the present invention
(E) Process explanatory view of solder ball mounting method according to Embodiment 2 of the present invention
(F) Process explanatory view of the solder ball mounting method according to the second embodiment of the present invention
FIG. 9 is a partially enlarged view of a transfer pin of the solder ball mounting device according to the second embodiment of the present invention.
FIG. 10 is an explanatory diagram of a coating operation using a transfer pin according to the second embodiment of the present invention.
[Explanation of symbols]
1 Solder ball supply unit
3 solder balls
4 Metal paste supply unit
6 metal paste
15 Electronic components
16 Substrate
16a recess
30 Suction head
31 Suction tool
32 lifting mechanism
34 nuts
35 Lead screw
36 X-axis motor
38 Y axis table
39 Y-axis motor
40 control unit
42 Transfer Head
44 Transfer Pin

Claims (10)

A solder ball mounting apparatus for mounting a solder ball having a size larger than an opening dimension of the concave portion in the concave portion to form a solder bump on an electrode at the bottom of the concave portion formed in the work, wherein the concave portion is formed. A work holding unit that holds a work with its face facing upward, a solder ball supply unit that supplies solder balls, a suction head that suctions and holds the solder balls of the solder ball supply unit, and a liquid surface of the metal paste that is flat. A metal paste supply unit for shaping the solder ball, a suction operation for moving the suction head to suck the solder ball from the solder ball supply unit, and an attachment operation for attaching the metal paste of the metal paste supply unit to the lower surface of the solder ball. And a mounting operation of mounting a solder ball coated with a metal paste in a concave portion of the work held by the work holding portion. A suction head moving means for causing the, away once the solder balls after the metal paste applied to the lower surface of the solder balls during the mounting operation was attached to the top surface of the recess from the recess, at least the operation to close again A control unit for controlling the suction head moving means so as to rotate the suction head. In order to form a solder bump on the electrode at the bottom of the recess formed in the work, a solder ball mounting method of mounting a solder ball having a size larger than the opening dimension of the recess in the recess is provided. A first step of attaching a metal paste, a second step of aligning a solder ball with the recess, and attaching a metal paste attached to the solder ball to an upper surface of the recess, and applying the metal paste to the recess. A step of once moving the solder ball away from the recess and then approaching it again at least once in order to attach the solder ball to the electrode. 3. The method for mounting a solder ball according to claim 2, wherein the third step includes an operation of vertically moving the solder ball. 3. The method according to claim 2, wherein the third step includes an operation of moving the solder ball in a horizontal direction. 3. The method according to claim 2, further comprising, after moving the solder ball upward, lowering the solder ball to a position deviated from the center of the recess. A solder ball mounting apparatus for mounting a solder ball having a size larger than an opening dimension of the concave portion in the concave portion to form a solder bump on an electrode at the bottom of the concave portion formed in the work, wherein the concave portion is formed. A work holding part for holding the work with the surface facing upward,
A solder ball supply unit for supplying a solder ball, a suction head for sucking and holding the solder ball of the solder ball supply unit and mounting the solder ball in the recess, a metal paste supply unit for flattening the liquid surface of the metal paste, and the recess A transfer head having a plurality of transfer pins for attaching a metal paste to the lower end, the transfer head being moved, and the metal paste of the metal paste supply unit being removed. A transfer head moving means for performing an attaching operation for attaching to the concave portion of the substrate held by the work holding portion; and after attaching the metal paste applied on the lower surface of the transfer pin to the upper surface of the concave portion during the attaching operation. once away the transfer pin from the recess, this with a control unit for controlling the transfer head moving means so as to perform at least once an operation to close again Mounting apparatus of solder ball and said. A method of mounting a solder ball, wherein a solder ball having a size larger than the opening dimension of the concave portion is formed in the concave portion so as to form a solder bump on an electrode at the bottom of the concave portion formed in the work, A first step of attaching a metal paste to the lower end of a transfer pin having a larger bottom end, and positioning the transfer pin in a recess of the work to remove the metal paste attached to the transfer pin. A third step of performing at least once a second step of attaching the transfer pin to the upper surface of the recess, and an operation of moving the transfer pin away from the recess and then approaching the transfer pin again in order to attach the metal paste to the electrode at the bottom of the recess. And a step of mounting a solder ball in the concave portion to which the metal paste has adhered. 8. The method according to claim 7, wherein the third step includes an operation of moving the transfer pin in a vertical direction. 8. The method according to claim 7, wherein the third step includes an operation of moving the transfer pin in a horizontal direction. 8. The method according to claim 7, wherein the third step includes an operation of moving the transfer pin upward and then lowering the transfer pin to a position off the center of the concave portion.

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