JP2013165183A - Crimping device, crimping method, and substrate unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To align positions of the other ends of multiple flexible printed circuits (FPCs) having different lengths and concurrently crimp the other ends to a substrate.SOLUTION: A position adjustment part 8, having a protruding shape or a recessed shape, is provided at a position where an FPC (BL-FPC3) other than an FPC (LCD-FPC2) having the shortest length measured in a connection direction, from among the multiple FPCs, i.e. the LCD-FPC2 and the BL-FPC3, is placed.

Description

  The present invention relates to a crimping apparatus and a crimping method for crimping and connecting a printed board and a flexible printed board using an anisotropic conductive film, and a substrate unit created by the crimping apparatus.

  As a method for mounting a surface mount type chip component, an IC (Integrated Circuit) or the like on a substrate, a method using an anisotropic conductive film (ACF) is known. In portable devices and the like that are required to be reduced in size and thickness, methods using ACF for connection between substrates such as connection between a printed circuit board and a flexible printed circuit (FPC) are widely used.

  According to the connection method using the ACF, there is an advantage that connection at a fine pitch is possible, and the connection between substrates does not require a connector, so that the size and thickness can be reduced.

  For example, a liquid crystal display (LCD) unit built in a mobile phone has one printed circuit board on which components for signal processing and the like are mounted, and a display signal between the LCD unit and the printed circuit board. They are connected via a plurality of FPCs such as an LCD-FPC for exchange and a BL-FPC for supplying backlight power. An ACF is used for the connection between the liquid crystal display unit and the plurality of FPCs and the connection between the printed circuit board and the plurality of FPCs.

  Various technologies have been developed as technologies for reducing the size and thickness of devices using ACF. For example, Patent Document 1 shows an example in which a display panel substrate and a printed circuit board are connected by a plurality of FPCs, and an FPC connection method for dealing with a narrow pitch connection is proposed.

  Here, when thermocompression bonding with ACF is performed, it is necessary to heat and pressurize the ACF crimping portion for a certain period of time (for example, about 10 seconds) by the heater of the crimping machine while the thermosetting resin constituting the ACF is cured. If such thermocompression bonding is performed on each FPC, the manufacturing time becomes long and the manufacturing cost increases. Therefore, when equivalent heating and pressurization can be performed on each ACF connection portion under a certain condition, a plurality of FPCs are simultaneously pressure-bonded.

JP 2011-221440 A (published November 4, 2011)

  At this time, as shown in FIG. 8, a plurality of FPCs (LCD-FPC 102 and BL-FPC 103) connected to the LCD unit 101 are drawn from different heights in the height direction (thickness direction) of the LCD unit 1. There may be.

  As shown in FIG. 8, when the LCD unit 101 and the printed circuit board 105 are arranged on the same surface in a mobile phone or the like, the LCD-FPC 102 is bonded to the printed circuit board 105 when the LCD-FPC 102 and the BL-FPC 103 are pressure-bonded. The crimping part 112 with the printed board 105 and the crimping part 113 with the printed board 105 of the BL-FPC 103 can be easily arranged on a straight line on the printed board 105 (see FIG. 9). Therefore, the crimping part 112 and the crimping part 113 can be simultaneously crimped to the printed circuit board 105 by ACF.

  However, since mobile phones and the like are required to be smaller and thinner, the LCD unit 1 and the printed circuit board 5 are bent at the FPC portion as shown in FIG. Are arranged to overlap. In this case, as shown in FIG. 3, since the LCD-FPC 2 and the BL-FPC 3 are connected at different positions from the LCD unit 1, their lengths are different from each other.

  The crimping step before the state shown in FIG. 3 is performed with the LCD-FPC 2 and BL-FPC 3 connected to the LCD unit 1 extended as shown in FIG. If it does so, the crimping | compression-bonding part 12 with the printed circuit board 5 of LCD-FPC2 and the crimping | compression-bonding part 13 with the printed circuit board 5 of BL-FPC3 will not be located on a straight line.

  When LCD-FPC2 and BL-FPC3 with different lengths are pressure-bonded on the same straight line on the printed circuit board 5, slack occurs in the longer BL-FPC3 and breaks at specific folds such as coverlay openings. This causes problems such as

  The present invention has been made in view of the above-described problems, and an object of the present invention is an FPC having one end connected to an LCD unit or the like without giving an excessive load to the FPC and having different lengths. A crimping device and a crimping method for simultaneously crimping the other ends of a plurality of FPCs to a substrate, and a substrate unit created by the crimping device.

  In order to solve the above-described problem, the crimping apparatus according to the present invention is a flexible printed circuit board (FPC) having one end connected to a predetermined member, and has a plurality of different lengths in the connection direction from one end to the other end. A crimping apparatus for simultaneously crimping and connecting the other end of the FPC to a printed circuit board, comprising a support member for supporting the plurality of FPCs, wherein the support member has the longest length in the connection direction among the plurality of FPCs. It has a convex or concave position adjusting portion at a position where an FPC other than a short FPC is placed.

  Moreover, in order to solve the said subject, the crimping method which concerns on this invention is a flexible printed circuit board (FPC) by which one end is connected to the predetermined | prescribed member, Comprising: The length of the connection direction which goes to an other end from one end A crimping method in which the other ends of a plurality of different FPCs are simultaneously crimped and connected to a printed circuit board, wherein the plurality of FPCs are placed on a support member during crimping, and the length in the connecting direction is the longest among the plurality of FPCs. An FPC other than a short FPC is placed so as to be in contact with a convex or concave position adjusting portion provided on the support member.

  According to said structure, FPCs other than FPC with the shortest length of a connection direction are mounted so that a convex-shaped or concave-shaped position adjustment part may be contact | connected among said several FPC. Therefore, it is possible to stably curve the FPC other than the FPC having the shortest length in the connection direction. Therefore, it is possible to arrange another FPC crimping portion in a straight line with the FPC crimping portion having the shortest length in the connecting direction without applying an excessive load to the FPC.

  Therefore, even with a plurality of FPCs having one end connected to a predetermined member and having different lengths in the connection direction, a plurality of FPCs can be provided without applying excessive stress to the FPC with a simple configuration of providing a position adjustment unit. Can be simultaneously crimped to the printed circuit board.

  Moreover, it is preferable that the crimping | compression-bonding apparatus which concerns on this invention is equipped with the 1st holding | suppressing part which presses down FPC currently mounted on the said position adjustment part so that the said position adjustment part may be closely_contact | adhered.

  According to said structure, a 1st press part presses FPC currently mounted on the said position adjustment part so that the said position adjustment part may be closely_contact | adhered. For this reason, it is possible to more reliably arrange the crimping part of another FPC in a straight line with the crimping part of the FPC having the shortest length in the connecting direction.

  Moreover, it is preferable that the crimping | compression-bonding apparatus which concerns on this invention is equipped with the 2nd holding | suppressing part which presses so that FPC currently mounted on the said supporting member may be closely_contact | adhered to the said printed circuit board.

  Here, the alignment between the printed circuit board and the FPC is performed based on alignment marks respectively provided on the connection portion of the printed circuit board and the FPC. When the printed circuit board and the FPC are not in close contact with each other when the FPC is overlaid on the printed circuit board, it is difficult to confirm the alignment mark on the printed circuit board through the FPC.

  Therefore, according to the above configuration, the second pressing portion presses the FPC placed on the support member so as to be in close contact with the printed board. It can be fully confirmed. Therefore, it is possible to more accurately align the printed circuit board and the FPC.

  In addition, a board unit in which a plurality of FPCs having different lengths and one printed circuit board, which are connected at one end to a predetermined member by the above-described crimping apparatus, is also included in the scope of the present invention.

  As described above, the crimping apparatus according to the present invention includes the support member that supports the plurality of FPCs, and the support member is an FPC other than the FPC having the shortest length in the connection direction among the plurality of FPCs. It is the structure which has a convex-shaped or concave-shaped position adjustment part in the mounted position.

  In the crimping method according to the present invention, at the time of crimping, the plurality of FPCs are placed on a support member, and among the plurality of FPCs, an FPC other than the FPC having the shortest connection direction length is attached to the support member. It is placed so as to be in contact with the provided convex or concave position adjusting portion.

  Therefore, even with a plurality of FPCs having one end connected to a predetermined member and having different lengths in the connection direction, a plurality of FPCs can be provided without applying excessive stress to the FPC with a simple configuration of providing a position adjustment unit. Can be simultaneously crimped to the printed circuit board.

BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the 1st Embodiment of this invention and is a figure which shows the outline | summary of the principal part structure of a crimping | compression-bonding apparatus, Comprising: It is sectional drawing which looked at the crimping | compression-bonding apparatus from the side. It is a top view of the said crimping | compression-bonding apparatus. It is a side view of the LCD unit and printed circuit board which are connected via LCD-FPC and BL-FPC. It is a top view of the LCD unit to which LCD-FPC and BL-FPC were connected. BRIEF DESCRIPTION OF THE DRAWINGS It is a figure which shows the 1st Embodiment of this invention and is a figure which shows the outline | summary of the principal part structure of a crimping | compression-bonding apparatus, Comprising: It is sectional drawing which looked at the crimping | compression-bonding apparatus from the side. It is a top view of the said crimping | compression-bonding apparatus. It is a figure which shows an example of the alignment mark provided in LCD-FPC. It is a side view of the LCD unit and printed circuit board which are connected via LCD-FPC and BL-FPC. It is a top view of the LCD unit and printed circuit board which are connected via LCD-FPC and BL-FPC.

<About LCD unit and printed circuit board, and FPC connecting them>
In general, an LCD unit mounted on a mobile phone or the like displays an image or the like based on a signal from a printed board on which a component that performs signal processing or the like is mounted. For this reason, the LCD unit and the printed board are connected by an LCD-FPC for transmitting a display signal from the printed board to the LCD unit.

  Further, in order to supply the power of the backlight included in the LCD unit from the printed board, the LCD unit and the printed board are also connected by a BL-FPC for power supply. That is, the LCD unit and the printed circuit board are connected via two FPCs.

  Here, since a mobile phone or the like on which the LCD unit and the printed board are mounted is required to be thin, it is widely performed that an FPC is connected to the printed board using an ACF.

  The ACF connection is made, for example, by placing a terminal part provided on the FPC crimping part and a terminal part provided on the printed circuit board at positions facing each other, and a thermosetting resin containing conductive particles between both terminal parts. Insert a film (ACF). Thereafter, the pressure bonding part is heated under pressure so that a temperature of about 200 ° C. and a pressure of about 3 MPa are applied to the ACF. As a result, the terminal portion of the FPC and the terminal portion of the printed circuit board are electrically connected via the conductive particles, and the insulation between the adjacent terminal portions is maintained while maintaining the connection between the two substrates by the cured resin. be able to.

  Here, FPC in the case where the LCD unit and the printed circuit board are arranged on the same plane in a housing of a mobile phone or the like will be described with reference to FIGS. 8 and 9 are a side view and a top view of an LCD unit and a printed circuit board connected via LCD-FPC and BL-FPC.

  As shown in FIG. 8, the LCD unit 101 is generally a substantially rectangular parallelepiped such as a flat plate shape, and the LCD-FPC 102 and the BL-FPC 103 are respectively located at different positions in the height direction of the side surface (connection surface) of the LCD unit 101. It is common to be connected.

  When the LCD unit 101 and the printed board 105 are arranged on the same plane, even if the LCD-FPC 102 and the BL-FPC 103 are pulled out from different heights of the LCD unit 101 as described above, There is no significant difference between the LCD-FPC 102 and the BL-FPC 103 in the distance from the connection portion of each FPC to the crimping position on the printed circuit board 105.

  Therefore, when the LCD-FPC 102 and the BL-FPC 103 are ACF-bonded to the printed circuit board 105, it is easy to provide each of the pressure-bonding portions 112 and 113 on a straight line. An excessive load is not applied to the FPC 102 and the BL-FPC 103, and a highly reliable connection can be performed.

  Next, FPC in the case where the LCD unit and the printed circuit board are arranged so as to overlap each other inside a casing of a mobile phone or the like will be described with reference to FIGS. FIG. 3 is a side view of an LCD unit and a printed circuit board connected via LCD-FPC and BL-FPC. FIG. 4 is a top view of the LCD unit to which the LCD-FPC and the BL-FPC are connected.

  In order to reduce the size of a case in a general mobile phone, as shown in FIG. 3, the LCD unit 1 and the printed circuit board 5 are arranged so as to overlap inside the case. At this time, when the crimping parts 12 and 13 of the LCD-FPC 2 and BL-FPC 3 are arranged on a straight line on the printed circuit board 5, the distance from the connection part of each FPC of the LCD unit 1 to the crimping position on the printed circuit board 5. Is different between LCD-FPC2 and BL-FPC3. That is, in order to keep the lengths of the LCD-FPC 2 and the BL-FPC 3 properly in a state where the LCD unit 1 and the printed circuit board 5 are folded, as shown in FIG. 4, the lengths of the LCD-FPC 2 and the BL-FPC 3 are Must be designed differently.

  Since the lengths of the LCD-FPC 2 and the BL-FPC 3 are different, as shown in FIG. 4, the crimping portions 12 and 13 cannot be arranged on a straight line when the LCD-FPC 2 and the BL-FPC 3 are extended. In this case, if the LCD-FPC 2 and the BL-FPC 3 are simultaneously ACF-connected to the printed circuit board 5 as in the example shown in FIG. 9, a load is applied to the FPC, such as sagging in the BL-FPC 3, causing problems such as disconnection. .

  Therefore, in the present invention, when the other ends of a plurality of FPCs, one end of which is connected to the LCD unit 1 and having different lengths in the connection direction from the one end to the other end, are connected to the printed circuit board 5 by pressure bonding. A convex or concave position adjustment unit is provided on the support member that supports the FPC, and among the plurality of FPCs, an FPC other than the FPC having the shortest length in the connection direction is placed along the position adjustment unit. Accordingly, the FPC having a long connection direction can be curved so as to be in contact with the position adjusting unit without applying an excessive load. Therefore, the pressure-bonding portions of the FPCs can be arranged in a straight line on the printed circuit board 5 without applying an excessive load to the FPC.

  The crimping apparatus and the crimping method according to the present invention will be described below by exemplifying specific embodiments. In the following, an example in which two FPCs having one end shown in FIG. 4 connected to the LCD unit 1 is crimped to the printed circuit board 5 is shown, but the FPC to which the crimping apparatus according to the present invention crimps is not limited to this. . For example, the crimping apparatus according to the present invention may crimp three or more FPCs having one end connected to the LCD unit 1 and having different lengths to the printed circuit board 5.

  Further, a member to which a plurality of FPCs having different lengths are connected is not limited to the LCD unit 1 and may be arbitrary. That is, in the present invention, one end of the plurality of FPCs to be crimped and connected to the printed circuit board 5 may be connected to a predetermined member.

  In addition, the combination of the LCD unit 1, the plurality of FPCs, and the printed circuit board 5 created by the crimping apparatus according to the present invention has been described as being mounted on a mobile phone, but is not limited thereto. For example, the combination of the LCD unit 1, the plurality of FPCs, and the printed circuit board 5 is built in a device that is required to be reduced in size and thickness, such as a portable game machine, a PDA, a digital camera, a video camera, a portable TV, and a portable music player. It may be a thing. The combination of the LCD unit 1, the plurality of FPCs, and the printed circuit board 5 is referred to as a board unit.

<First Embodiment>
The first embodiment of the present invention will be described with reference to FIGS. 1 to 4 as follows.

  A configuration of the crimping apparatus according to the first embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is a diagram illustrating an outline of a main configuration of a crimping device 10 according to the first embodiment, and is a cross-sectional view of the crimping device 10 as viewed from the side.

  As shown in FIG. 1, the crimping apparatus 10 includes an LCD unit mounting portion (support member) 6, a printed board mounting portion 7, a crimping head 9, and a camera 4. 1 shows a state where the LCD unit 1 to which the two FPCs (LCD-FPC 2 and BL-FPC 3) shown in FIG.

  Here, the direction from the connecting portion between the LCD unit 1 and the FPC to the connecting portion between the printed circuit board 5 and the FPC (the horizontal direction in FIG. 1) is the Y axis, and the height direction of the LCD unit 1 (the vertical direction in FIG. 1). ) Is the Z axis, and the depth direction in FIG. 1 is the X axis. The positive direction of the Y axis is also referred to as the connection direction, and the positive direction of the Z axis is also referred to as the height direction.

  The LCD unit placement unit 6 supports the LCD unit 1. A concave portion is provided on the upper surface (the surface on the positive side of the Z axis) of the LCD unit placement portion 6, and the LCD unit 1 is disposed in the concave portion. At this time, the shape of the concave portion (the concave portion of the concave portion) is such that the FPC (LCD-FPC 2 in FIG. 1) connected to the bottom of the LCD unit 1 in the height direction is in contact with the upper surface of the LCD unit mounting portion 6. The depth is designed as appropriate.

  In addition, the LCD unit placement unit 6 includes a position adjustment unit 8 that adjusts the position of the FPC crimping unit other than the FPC having the shortest connection direction length among the plurality of FPCs connected to the LCD unit 1. . As shown in FIG. 1, the position adjusting unit 8 has a convex shape provided so as to protrude from the upper surface of the LCD unit mounting unit 6.

  In the example shown in FIG. 1, the LCD-FPC 2 having a short connection direction is placed so as to be in contact with the upper surface of the LCD unit placement unit 6, and the BL-FPC 3 having a long connection direction is a position adjustment unit. 8 and the LCD unit mounting portion 6 are placed in contact with each other. That is, the LCD unit placement unit 6 supports the LCD unit 1 and a plurality of FPCs connected to the LCD unit 1.

  The position adjustment unit 8 is provided on the upper surface of the LCD unit mounting unit 6 at a position where an FPC other than the FPC having the shortest length in the connection direction is mounted. This will be described with reference to FIG.

  FIG. 2 is a diagram illustrating an outline of the main configuration of the crimping apparatus 10 according to the first embodiment, and is a top view of the crimping apparatus 10. In FIG. 2, the crimping head 9 and the camera 4 are not shown for convenience of explanation.

  As shown in FIG. 2, the position adjusting unit 8 is provided at a position where the BL-FPC 3 having a long connection direction is placed. The position adjusting unit 8 may be installed at any position as long as it is on the path on which the BL-FPC 3 having a long connection direction is placed.

  As shown in FIG. 2, by bending the long BL-FPC 3 in the connecting direction so as to be in contact with the position adjusting unit 8, the crimping parts of the FPCs having different lengths in the connecting direction can be arranged in a straight line. it can. That is, the shape of the position adjusting unit 8 is adjusted so that the crimping part 13 of the BL-FPC 3 having a long connection direction is arranged in a straight line with the crimping part 12 of the LCD-FPC 2 having a short connection direction. Design the size appropriately.

  The printed circuit board mounting portion 7 supports the printed circuit board 5 on the upper surface. At this time, the upper surface of the LCD unit mounting unit 6 and the upper surface of the printed circuit board 5 mounted on the printed circuit board mounting unit 7 form substantially the same plane. The position of the Z axis on the upper surface is appropriately designed.

  The crimping head 9 heats and pressurizes the crimping part of the FPC, and electrically connects the terminal part of the FPC and the terminal part of the printed circuit board 5. When the FPC and the printed circuit board 5 are pressure-bonded, the LCD unit mounting portion 6 and the printed circuit board are moved by a moving mechanism (sliding mechanism) (not shown) so that the pressure-bonding portion of the FPC is positioned directly below the pressure-bonding head 9. The mounting portion 7 is moved in the positive direction of the Y axis.

  The camera 4 captures an image of a connection portion between the printed circuit board 5 and the FPC. Based on the image captured by the camera 4, the user checks whether or not the terminal portion of the FPC is arranged at a position facing the terminal portion on the printed circuit board 5.

  In this way, by placing the LCD unit 1 to which the FPCs having different lengths are connected to the crimping device 10 and the printed circuit board 5, an excessive force such as an external force is applied to the BL-FPC 3 having a long connection direction. The pressure-bonding portions of the respective FPCs can be stably arranged on the printed circuit board 5 without giving stress. Therefore, the crimping head 9 can easily perform the crimping simultaneously, and even when the LCD unit 1 and the printed circuit board 5 are folded as shown in FIG. 3, no load is generated on both FPCs, thereby avoiding problems such as disconnection. be able to.

  In other words, the crimping apparatus 10 is a case where a plurality of FPCs connected to one LCD unit or the like are pulled out from different heights in the height direction of the LCD unit, and simultaneously crimps the plurality of FPCs. A position adjustment unit 8 is included between the LCD unit 1 and the pressure bonding unit on a path on which at least one FPC is placed.

  In the present embodiment, the position adjusting unit 8 has a convex shape that protrudes from the upper surface of the LCD unit mounting unit 6, but is formed on the upper surface of the LCD unit mounting unit 6. It may be a concave shape.

  When three or more FPCs are connected to the LCD unit 1, the position adjustment unit 8 is provided on each FPC path other than the FPC having the shortest connection direction length. That is, the LCD unit mounting portion 6 has a plurality of position adjusting portions 8, and the positions of the crimping portions of each FPC are aligned with the crimping portions of the FPC having the shortest length in the connection direction. The shape and size of the adjusting unit 8 are each appropriately designed.

<Second Embodiment>
A second embodiment of the present invention will be described below with reference to FIGS. In the crimping apparatus according to the second embodiment, an FPC pressing unit is newly provided in the crimping apparatus 10 according to the first embodiment. Therefore, for convenience of explanation, members having the same functions as those shown in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  The structure of the crimping | bonding apparatus which concerns on 2nd Embodiment is demonstrated based on FIG. 5 and FIG. FIG. 5 is a diagram illustrating an outline of the main configuration of the crimping device 20 according to the second embodiment, and is a cross-sectional view of the crimping device 20 as viewed from the side. FIG. 6 is a diagram illustrating an outline of the main configuration of the crimping apparatus 20 according to the second embodiment, and is a top view of the crimping apparatus 20. In FIG. 6, the crimping head 9 and the camera 4 are not shown for convenience of explanation.

  As shown in FIGS. 5 and 6, the crimping device 20 includes an LCD unit placement unit 6, a printed circuit board placement unit 7, a crimping head 9, a camera 4, and an FPC pressing unit 17. 5 and 6, the LCD unit 1 to which the two FPCs (LCD-FPC 2 and BL-FPC 3) shown in FIG. 4 are connected and the printed circuit board 5 are mounted on the crimping device 20. Show.

  Here, the direction from the connecting portion between the LCD unit 1 and the FPC to the connecting portion between the printed circuit board 5 and the FPC (the horizontal direction in FIGS. 5 and 6) is the Y axis, and the height direction of the LCD unit 1 (see FIG. 5). Is the Z axis, and the depth direction in FIG. 5 and the vertical direction in FIG. 6 are the X axes. The positive direction of the Y axis is also referred to as the connection direction, and the positive direction of the Z axis is also referred to as the height direction.

  The FPC holding unit 17 is for bringing the FPC into close contact with the LCD unit mounting portion 6. The FPC pressing unit 17 includes a pressing support 14, a first pressing portion 15, and a second pressing portion 16. The FPC pressing unit 17 only needs to include at least one of the first pressing portion 15 and the second pressing portion 16.

  The presser support 14 supports the first presser 15 and the second presser 16. The holding support 14 is rotatably installed with the end on the negative direction side of the Y axis as an axis.

  The first pressing unit 15 presses the FPC placed along the position adjusting unit 8 from above, thereby bringing the FPC closer to the position adjusting unit 8. By inserting the FPC between the first pressing portion 15 and the position adjusting portion 8, the FPC crimping portion having the long connection direction is surely arranged in a straight line with the FPC crimping portion having the shortest connection direction length. can do.

  The first pressing portion 15 has a shape that engages with the position adjusting portion 8. That is, as shown in FIG. 5, if the position adjustment part 8 is convex, the 1st holding | suppressing part 15 shall be concave shape. On the other hand, if the position adjustment part 8 is concave shape, the 1st holding | suppressing part 15 shall be convex shape. Further, as shown in FIG. 6, the first pressing portion 15 is provided at a position corresponding to the position adjusting portion 8.

  The second pressing portion 16 presses the FPC placed on the upper surface of the LCD unit placement portion 6 from above, thereby bringing the FPC closer to the LCD unit placement portion 6. By pressing the vicinity of the pressure-bonding portion of the FPC with the second pressing portion 16, the FPC can be brought into closer contact with the printed circuit board 5 that is substantially on the same plane as the LCD unit mounting portion 6.

  In the example illustrated in FIG. 6, the second pressing portion 16 is provided at a position corresponding to the LCD-FPC 2 and presses only the LCD-FPC 2, but is not limited thereto. You may provide the 2nd press part 16 in the position corresponding to BL-FPC3.

  Here, when the FPC and the printed circuit board 5 are pressure-bonded, based on the alignment marks provided on the FPC and the printed circuit board 5, the alignment is performed so that the terminal portion of the FPC and the terminal portion of the printed circuit board 5 face each other. I do. At this time, the alignment mark on the printed circuit board 5 side is confirmed through the transparent FPC. If the space between the printed circuit board 5 and the FPC is wide, the alignment mark on the printed circuit board 5 is used. It becomes difficult to visually recognize the position, and positioning becomes difficult.

  Therefore, by pressing the vicinity of the FPC crimping portion with the second pressing portion 16, the distance between the FPC and the printed circuit board 5 in the crimping portion is reduced, and positioning is easy using the camera 4 provided above the crimping portion. Can be done.

  An example of the alignment mark is shown in FIG. FIG. 7 is a diagram illustrating an example of an alignment mark provided on the LCD-FPC 2. As shown in FIG. 7, the alignment mark is provided in the crimping | compression-bonding part 12 of LCD-FPC2. In this case, an alignment mark having the same pattern is provided at a position corresponding to the crimping portion 12 of the LCD-FPC 2 on the printed circuit board 5.

<Supplement>
The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope shown in the claims, and embodiments obtained by appropriately combining technical means disclosed in different embodiments. Is also included in the technical scope of the present invention.

  INDUSTRIAL APPLICABILITY The present invention can be used in a crimping apparatus that simultaneously crimps a plurality of FPCs that connect an LCD unit mounted on a mobile phone or the like and a printed board to the printed board using ACF.

1 LCD unit 2 LCD-FPC
3 BL-FPC
4 Camera 5 Printed Circuit Board 6 LCD Unit Placement (Support Member)
DESCRIPTION OF SYMBOLS 7 Printed circuit board mounting part 8 Position adjustment part 9 Crimp head 10 Crimping device 12 Crimping part 13 Crimping part 14 Pressing support body 15 1st pressing part 16 2nd pressing part 17 FPC pressing unit 20 Crimping apparatus

Claims (5)

A flexible printed circuit board (FPC) having one end connected to a predetermined member, and the other end of a plurality of FPCs having different lengths in the connection direction from one end to the other end is simultaneously crimped and connected to the printed circuit board. There,
A support member for supporting the plurality of FPCs;
The said support member has a convex-shaped or concave-shaped position adjustment part in the position in which FPC other than FPC with the shortest length of a connection direction is mounted among said several FPC is characterized by the above-mentioned. .   The crimping apparatus according to claim 1, further comprising a first pressing portion that presses the FPC placed on the position adjustment unit so as to be in close contact with the position adjustment unit.   The pressure bonding apparatus according to claim 1, further comprising a second pressing portion that presses the FPC placed on the support member so as to be in close contact with the printed board. A flexible printed circuit board (FPC) having one end connected to a predetermined member, wherein the other ends of a plurality of FPCs having different lengths in the connection direction from one end to the other end are simultaneously crimped and connected to the printed circuit board. There,
At the time of crimping, the plurality of FPCs are placed on a support member, and among the plurality of FPCs, an FPC other than the FPC having the shortest length in the connection direction is provided in a convex or concave position provided on the support member. A crimping method, wherein the crimping method is placed so as to be in contact with the adjusting portion.   A board unit in which a plurality of FPCs having different lengths and one printed circuit board are crimped and connected, with one end connected to a predetermined member by the crimping apparatus according to claim 1.

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