JP2013102343A - Television receiver and electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve assembly workability of an electronic apparatus.SOLUTION: According to an embodiment, a television receiver includes a housing, a display section, a flexible printed wiring board and a connector. A penetration section is formed in the flexible printed wiring board. The connector includes a guide pin fitted to the penetration section, and the flexible printed wiring board is inserted into the connector. The flexible printed wiring board includes an insulating layer, and a conductive layer installed in a part on the insulating layer by avoiding the penetration section. The penetration section penetrates the insulating layer and has a shape where a slit and a hole are coupled, and width of the hole is larger than that of the slit in a direction substantially orthogonal to an inserting direction of the flexible printed board. The guide pin of the connector includes: a first projection fitted to the hole; and a second projection which is provided on the first projection and is fitted to the slit.

Description

  Embodiments described herein relate generally to a television receiver and an electronic apparatus.

  In electronic equipment, a flexible printed circuit (hereinafter referred to as FPC) may be used to electrically connect electronic components and transmit an electrical signal. However, the FPC may not be sufficiently inserted into the connector or may be detached from the connector during the work.

JP 2005-327612 A

  Improve the assembly workability of electronic equipment.

  According to the embodiment, the television receiver includes a housing, a display unit, a flexible printed wiring board, and a connector. The display unit is accommodated in the housing. The flexible printed wiring board is provided inside the casing and the display unit, and a through part is formed. The connector has a guide pin fitted into the penetrating portion, and the flexible printed wiring board is inserted into the connector. The flexible printed wiring board includes an insulating layer and a conductive layer provided on a part of the insulating layer so as to avoid the through portion. The penetrating portion has a shape in which a slit and a hole that penetrate the insulating layer are combined, and the width of the hole is larger than the width of the slit in a direction substantially orthogonal to the insertion direction of the flexible printed circuit board. The guide pin of the connector includes a first protrusion fitted into the hole, and a second protrusion provided on the first protrusion and fitted into the slit.

1 is a front view showing the appearance of a television receiver 10. Sectional drawing which shows the structure of the television receiver 10 of FIG. 1 is a block diagram showing a schematic configuration of a television receiver 10 according to an embodiment. The perspective view of FPC15 concerning one embodiment. The top view of FPC15 concerning one embodiment. The perspective view of the connector 13 which concerns on one Embodiment. The top view of the connector 13 which concerns on one Embodiment. The front view of the connector 13 which concerns on one Embodiment. The figure which shows the procedure which inserts FPC15 in the connector 13. FIG. The figure which shows the procedure which inserts FPC15 into the connector 13 following FIG. FIG. 9 is a diagram illustrating a procedure for inserting the FPC 15 into the connector 13 subsequent to FIG. 8. The figure which shows an example of the dimension of each part of FPC15 and the connector 13 in a horizontal direction. The figure which shows an example of the dimension of each part of FPC15 and the connector 13 in a perpendicular direction. The perspective view which shows the external appearance of the notebook type personal computer 10 '. The perspective view which shows the internal structure of personal computer 10 'of FIG. The front view of FPC15 and connectors 13 and 14 which are used for personal computer 10 '.

  Hereinafter, embodiments will be specifically described with reference to the drawings.

(First embodiment)
FIG. 1 is a front view showing an appearance of the television receiver 10 according to the first embodiment. The television receiver 10 in FIG. 1 includes a main body (display unit) 101 and legs (a stand, a support unit, a support unit, a base unit) 102.

  The main body 101 includes a housing (covering member, combination member, member, component) 103, a display device (display module, display unit, electronic component) 104 housed in the housing 103, and the front of the housing 103. A power button 105 and a remote control sensor 106 provided on the surface are provided. The display device 104 has a display screen 104 a exposed on the front surface (front surface, display screen side) of the housing 103. The ON / OFF operation of the display screen 104a can be performed by pressing the power button 105 or pressing the power button of the remote control with the front of the remote control facing the remote control sensor 106.

  The housing 103 has first to fourth end portions (side portions, peripheral portions, peripheral edge portions, side portions, walls, surfaces) 111 to 114. The first end portion 111 is an end portion to which the leg portion 102 is attached (bottom surface, bottom wall, support surface, support portion, peripheral wall). The second end (top plate, upper wall, wall, surface, peripheral wall) 112 is located on the opposite side of the first end 111 and extends substantially parallel to the first end 111. The third end portion (side portion, side surface, side wall, peripheral wall) 113 is an end portion connecting the first end portion 111 and the second end portion 112, and is substantially perpendicular to the first end portion 111. Extending in any direction. The fourth end portion (side portion, side surface, side wall, peripheral wall) 114 is located on the opposite side of the third end portion 113 and extends substantially parallel to the third end portion 113. The fourth end portion 114 connects the first end portion 111 and the second end portion 112 in the same manner as the third end portion 113.

  The first and second end portions 111 and 112 are end portions extending in the longitudinal direction of the housing 103. On the other hand, the third and fourth end portions 113 and 114 are end portions extending in the short direction of the housing 103 and are shorter than the first and second end portions 111 and 112.

  When the leg part 102 is supporting the main-body part 101, the 1st to 4th edge parts 111-114 become the lower end part, upper end part, left end part, and right end part of the housing | casing 103, respectively. In FIG. 1, the first and second end portions 111 and 112 are substantially parallel to the horizontal direction, and the third and fourth end portions 113 and 114 are substantially parallel to the vertical direction.

  In the present embodiment, the housing 103 has four end portions 111 to 114, but the number of end portions of the housing 103 may be three or less, or five or more. Further, the first end 111 and the second end 112 may extend non-parallel, and similarly, the third end 113 and the fourth end 114 extend non-parallel. Also good.

  FIG. 2 is a sectional view showing the structure of the television receiver 10 of FIG. As shown in FIG. 2, the housing 103 includes a front surface (first surface, first wall, wall, mask) 115, a back surface (second surface, second wall, wall, cover) 116, Peripheral surface (third surface, third wall, wall, part of mask or part of cover, part extending over mask and cover) 117. The front surface 115 is a surface on which the display screen 104a is exposed. The back surface 116 is located on the opposite side of the front surface 115. The peripheral surface 117 is a surface that connects the peripheral edge of the front surface 115 and the peripheral edge of the back surface 116.

  In this embodiment, the housing 103 has a surface structure including a front surface 115, a back surface 116, and a peripheral surface 117, but the housing 103 has a surface structure other than the above. It may be.

  As shown in FIG. 2, the main body 101 further includes a middle frame (housing, supporting unit, supporting surface, supporting wall, component mounting unit, frame, intermediate member, bone member, plate accommodated in the housing 103. , Reinforcing portion) 107. The middle frame 107 is a support member for supporting various parts.

  The middle frame 107 has a first support surface 121 and a second support surface 122. The first support surface 121 is a surface facing the front surface 115 side. The second support surface 122 is a surface facing the back surface 116 side, and is located on the opposite side of the first support surface 121.

  The main body 101 includes first electronic components 131 a and 131 b disposed on the first support surface 121 of the middle frame 107 and a second electronic component disposed on the second support surface 122 of the middle frame 107. 132a and 132b. Examples of these electronic components 131a, 131b, 132a, 132b include semiconductor elements and circuit boards on which circuit elements are mounted. Components other than the electronic components 131a, 131b, 132a, and 132b may be disposed on the surface, region, portion, and support portion of the middle frame 107, such as the support surfaces 121 and 122 of the middle frame 107.

  As shown in FIG. 2, a connector 13a, an FPC 15a, and a connector 14a are used to transmit and receive signals between the electronic component 131a and the electronic component 131b. Further, the connector 13b, the FPC 15b, and the connector 14b are used to transmit and receive signals between the electronic component 131b and the electronic component 132b disposed on the back surface thereof. Thus, the FPC 15b may be bent and used.

  In the present embodiment, the assembling workability of the television receiver 10 having such an FPC and a connector is improved.

  FIG. 3 is a block diagram showing a schematic configuration regarding the FPC 15 and the connectors 13 and 14 in the television receiver 10. The television receiver 10 includes an electronic component 11 and an electronic component 12 and an FPC 15 that electrically connects the two electronic components 11 and 12.

  The electronic component 11 is, for example, a substrate (main substrate, electronic module) on which various electronic devices are mounted, a printed circuit board (hereinafter, printed circuit board: PCB, substrate, electronic component, electronic module) 11 a and a connector 13. And an electronic device 16. In addition, discrete parts (not shown), other electronic devices, and the like may be mounted on the PCB 11a.

  A connector (electronic component, electronic module, signal transmission module, FPC insertion module) 13 is fixed to the PCB 11a. Each of a plurality of pins (not shown) provided in the connector 13 is electrically connected to a predetermined position of a conductor pattern formed on the surface of the PCB 11a.

  One end of an FPC (electronic component, electronic module, signal transmission module, cable) 15 is inserted into the connector 13 and fixed to the PCB 11a. As will be described later, the FPC 15 has a plurality of conductive layers for transmitting electrical signals. The FPC 15 is inserted into the connector 13 such that each of the conductive layers is in contact with the pins inside the connector 13. 3 shows an example in which the connector 13 is disposed near the center of the electronic component 11, the position thereof is not limited, and the connector 13 may be disposed at the end of the electronic component 11, or may be disposed on the electronic device 16. You may arrange | position close.

  The electronic device 16 (electronic component, electronic module) is, for example, an LSI (Large Scale Integrated Circuit). The electronic device 16 is fixed to the PCB 11a. More specifically, the electronic device 16 has input / output pins (not shown) for inputting / outputting electrical signals, and a conductor pattern (conductive layer, signal transmission member, copper foil) formed on the surface of the PCB 11a. The input / output pins are electrically connected to the predetermined positions using, for example, solder. The input / output pins of the electronic device 16 are electrically connected to the conductive layer of the FPC 15 via a conductor pattern formed on the surface of the connector 13 and the PCB 11a. The electronic device 16 is a device that communicates with the electronic component 12 and transmits an electrical signal including a high-speed signal such as a USB (Universal Serial Bus) signal to the electronic component 12 via the connector 13 and the FPC 15.

  The electronic component 12 is, for example, a small substrate (substrate, electronic module) that serves as an interface with an external device (electronic device), and includes a PCB 12 a and an external connector 17. In addition, discrete parts (not shown), other electronic devices, and the like may be mounted on the PCB 12a.

  The connector 14 is fixed to the PCB 12a. Each of a plurality of pins (not shown) provided in the connector 14 is electrically connected to a predetermined position of a conductor pattern formed on the surface of the PCB 12a.

  The other end of the FPC 15 is inserted into the connector 14 and fixed to the PCB 12a.

  An external connector (connector, electronic component, electronic module, signal transmission module) 17 connects an external device such as a USB device to the television receiver 10 via a cable (electronic component, electronic module, signal transmission module) 18. To do. The external connector 17 is electrically connected to the pins of the connector 14 through a conductor pattern (not shown) formed on the surface of the PCB 12a. Accordingly, the external device can transmit and receive signals to and from the electronic device 16 via the external connector 17, the connector 14, the FPC 15, and the connector 13.

  Thus, in the television receiver 10, the FPC 15 electrically connects the two electronic components 11 and 12. One end of the FPC 15 is inserted into the connector 13 on the electronic component 11, and the other end is inserted into the connector 14 on the electronic component 12.

  In order to manufacture the television receiver 10, for example, (1) one end of the FPC 15 is inserted into the connector 13, and then (2) the other end of the FPC 15 is inserted into the connector 14. In the present embodiment, the penetration portion 30 is formed in the FPC 15 and a guide pin fitted to the penetration portion 30 is provided in the connector 13 so that one end of the FPC 15 already inserted in the step (1) is (2 ) Is prevented during the process.

  FIG. 4 is a perspective view of the FPC 15 according to the embodiment, and FIG. 5 is a top view thereof.

  The FPC 15 includes an insulating layer (insulating portion, insulating film, insulating substrate, base layer) 21 such as polyimide and a conductive layer (conductive portion, conductive film) formed on the insulating film 21 in a predetermined wiring pattern shape. , A signal transmission unit) 22 and an insulating layer (insulating unit, insulating film, cover layer) 23 such as polyimide covering the insulating layer 21 and the conductive layer 22. However, the insulating layers 23 are not formed in the connector insertion portions (plugging portions, exposed portions, end portions) 24 and 25 at both ends of the FPC 15, and the conductive layers 22 are exposed. The surface of the exposed portion of the conductive layer 22 may be gold-plated to prevent oxidation. Unlike the rigid substrate, no electronic device is mounted on the insulating layer 23.

  As shown in the drawing, the plurality of conductive layers 22 are formed to be insulated from each other, for example, with a constant width and a constant interval. Each of the conductive layers 22 transmits and receives electrical signals between the electronic device 16 on the electronic component 11 and the electronic component 12. Note that only three conductive layers 22 are drawn to simplify the drawing, but more conductive layers 22 may actually be formed.

  One of the features of this embodiment is that one or a plurality of through portions (holes, openings, cavities) 30 are formed in the vicinity of the connector insertion portion 24. As shown in FIG. 3, the conductive layer 22 is formed so as to bypass the through portion 30. Therefore, the penetration part 30 penetrates the insulating layers 21 and 23. The through portion 30 is fitted to a guide pin of the connector 13 described later. The shape of the penetrating portion 30 is formed by combining an elongated slit (hole, opening, cavity) 31 formed on the edge side of the FPC 15 and a substantially circular hole (opening, cavity) 32 formed on the center side of the FPC 15. It has a keyhole shape. In the direction orthogonal to the insertion direction of the FPC 15, the width of the slit 31 is narrower than the diameter (width) of the hole 32.

  4 and 5 show an example in which the two through portions 30 are formed only in the vicinity of the connector insertion portion 24, but the through portion 30 may also be formed in the vicinity of the connector insertion portion 25. . Further, the through portion 30 may be formed in the connector insertion portion 24 where the conductive layer 22 is exposed. In this case, the penetration part 30 penetrates only the insulating layer 21.

  As an example of the manufacturing method of the FPC 15, for example, a first layer in which a copper foil film is formed on the entire surface of polyimide and a second layer made of polyimide can be used to simultaneously manufacture a plurality of FPCs 15 as follows. First, the first layer is etched to pattern the copper foil film into a desired shape. Thereby, the conductive layer 22 is formed on the insulating layer 21. Next, the 2nd layer used as the insulating layer 23 is affixed on the part except the connector insertion parts 24 and 25 of the insulating layer 21 and the conductive layer 22 using an adhesive agent. Then, if necessary, gold plating is performed on the portion where the conductive layer 22 is exposed. Further, the first layer and the second layer are cut and drilled to obtain individual FPCs 15 in which the through portions 30 are formed.

  By making the outer shape of the FPC 15 rectangular, a large number of FPCs 15 can be efficiently formed from the first layer and the second layer.

  6 is a perspective view of the connector 13 according to an embodiment, FIG. 7 is a top view thereof, and FIG. 8 is a front view thereof. The connector 13 includes a housing 41, a base 42, a pin 43, and two guide pins 50.

  The housing (housing, cover member, storage portion) 41 includes a front surface (front surface, insertion surface) 41a on the side where the FPC 15 is inserted, a back surface (rear surface, back surface, facing surface) 41b facing the front surface 41a, and a side surface 41c. A top surface 41d and a bottom surface 41e. Each surface of the housing 41 is formed of an insulating material such as plastic. The front surface 41a is suspended from the upper surface 41d, and there is a gap between the front surface 41a and the bottom surface 41e. This gap is an opening (insertion portion, hollow portion) 41f through which the FPC 15 is inserted. Therefore, the width of the opening 41f is slightly wider than the width of the FPC 15.

  Note that the upper surface 41d may be configured to rotate upward with a tangent to the back surface 41b as an axis and open. In this case, it is desirable that the connector 13 has a locking mechanism so that the upper surface 41a is fixed in a closed state.

  A plurality of pins (conductive portions, signal transmission portions) 43 are attached to the inside of the housing 41, more specifically, to the inner surface of the upper surface 41d. The pins 43 are provided at equal intervals to the conductive layer 22 so that each of the pins 43 comes into contact with each of the conductive layers 22 of the FPC 15. Although not shown, each of the pins 43 is electrically connected to a predetermined position of a conductor pattern formed on the PCB 11a.

  The base 42 has the same width as the housing 41, and is connected to the bottom surface 41e of the housing 41 below the opening 41f.

  Guide pins (guides, guide members, protrusions, protrusions, and protrusions) 50 are fitted into the through portions 30 of the FPC 15. The guide pin 50 includes a first protrusion (protrusion, protrusion) 51 that protrudes from the base 42 and a second protrusion (protrusion, protrusion) 52 that protrudes from the first protrusion 51. . The first protrusion 51 and the second protrusion 52 are substantially cylindrical. Although the center of the 2nd projection part 52 exists on the center of the 1st projection part 51, the diameter of the cross section of the 1st projection part 51 is larger. In addition, although the example in which the 1st projection part 51 and the 2nd projection part 52 are cylindrical forms is illustrated, there is no restriction | limiting in a shape. However, a shape having no corners, such as a cylinder or a cone, is desirable.

  The same number of guide pins 50 as the through portions 30 formed in the FPC 15 are formed on the base 42. As will be described later, it is desirable that at least two penetrating portions 30 and guide pins 50 are formed, but these numbers may be appropriately adjusted according to the width of the FPC 15 or the like. For example, when the width of the FPC 15 is narrow, one through portion 30 and one guide pin 50 may be provided in order to ensure a sufficient region for forming the conductive layer 22. Further, when the width of the FPC 15 is thick, three or more through portions 30 and guide pins 50 may be provided so that the FPC 15 can be fixed to the connector 13 more stably.

  By molding the housing 41, the base 42, and the guide pin 50 using the same material, an increase in cost due to the provision of the guide pin 50 can be suppressed.

  Next, a procedure for inserting and fixing the FPC 15 into the connector 13 will be described. The following procedure may be performed manually or automatically by providing an insertion device.

  First, as shown in FIG. 9, the penetration part 30 of the FPC 15 is fitted to the guide pin 50 from above the base 42. More specifically, the end of the slit 31 on the connector insertion portion 24 side is fitted into the second protrusion 52. At this time, since the diameter of the first protrusion 51 is larger than the width of the slit 31, the FPC 15 is on the first protrusion 51. In other words, the bottom surface of the FPC 15 is not in contact with the top surface of the base 42.

  Subsequently, as shown in FIG. 10, the FPC 15 is slid in the depth direction of the housing 41 of the connector 13 with the second protrusion 52 entering the slit 31, and the connector insertion portion 24 is moved from the opening 41f to the housing 41. Insert inside. At this time, in order to slide the FPC 15 in an appropriate direction in which the long side of the FPC 15 is orthogonal to the long side of the connector 13 without being inserted obliquely, there are two or more through portions 30 and guide pins 50. desirable.

  Further, as shown in FIG. 11, the FPC 15 is slid until the second protrusion 52 enters the hole 32, and the FPC 15 is further pressed against the base 42, so that the first protrusion 51 is fitted into the hole 32. As a result, the bottom surface of the FPC 15 near the penetrating portion 30 is in contact with the upper surface of the base 42. As a result, the FPC 15 is stabilized in a state where the conductive layer 22 of the FPC 15 is in contact with the pin 43 of the connector 13.

  As a result, the FPC 15 is inserted into the connector 13 so that the pin 43 and the conductive layer 22 can be reliably brought into contact with each other, and the inserted FPC 15 can be prevented from being detached from the connector 13.

  In addition, when the penetration part 30 is provided in both the connector insertion part 24 side and the connector insertion part 25 side of FPC15, you may insert any connector insertion part into a connector previously. On the other hand, when the penetration part 30 is provided only on the connector insertion part 24 side, it is desirable to first insert the connector insertion part 24 into the connector and then insert the connector insertion part 25 into the connector.

  FIG. 12 is a diagram illustrating an example of the dimensions of each part of the FPC 15 and the connector 13 in the horizontal direction. In order to securely insert and fix the FPC 15 into the connector 13, the following shape is employed.

  In order to stably fit the slit 31 to the second protrusion 52, the width of the second protrusion 52 in the direction orthogonal to the insertion direction of the FPC 15 is equal to or slightly larger than the width of the slit 31. More specifically, the diameter A of the second protrusion 52 is equal to or slightly smaller than the width A ′ of the slit 31.

  Further, in order to stably fit the hole 32 to the first protrusion 51, the width of the first protrusion 51 in the direction orthogonal to the insertion direction of the FPC 15 is equal to the diameter (width) of the hole 32, Slightly small. More specifically, the diameter B of the first protrusion 51 is equal to or slightly smaller than the diameter B ′ of the hole 32.

  Further, the width of the first protrusion 51 in the direction orthogonal to the insertion direction of the FPC 15 is larger than the width of the slit 31 so that the first protrusion 51 does not enter the slit 31. More specifically, the diameter B of the first protrusion 51 is larger than the width A ′ of the slit 31.

  In addition, since the FPC 15 is inserted from above the base 42, the distance between the opening 41f of the housing 41 and the first protrusion 51 is substantially equal to the distance between the end of the FPC 15 and the end of the slit 31. More specifically, the distance C between the opening 41 f and the center of the first protrusion 51 is substantially equal to the distance D between the end of the FPC 15 and the end of the slit 31.

  In order to make the conductive layer 22 and the pin 43 come into contact with each other when the FPC 15 is inserted into the housing 41, the distance between the end of the pin 43 on the opening 41f side and the opening 41f is the same as the end of the slit 31. It is smaller than the distance of the hole 32. More specifically, the distance E between the end of the pin 43 on the opening 41 f side and the opening 41 f is smaller than the distance F between the end of the slit 31 and the center of the hole 32.

  Furthermore, since the FPC 15 is slid and the hole 32 is inserted into the first protrusion 51, the distance between the back surface 41b and the opening 41f is equal to or greater than the distance between the end of the slit 31 and the hole 32. More specifically, the distance G between the back surface 41 b and the opening 41 f is not less than the distance F between the end of the slit 31 and the center of the hole 32.

  FIG. 13 is a diagram illustrating an example of dimensions of each part of the FPC 15 and the connector 13 in the vertical direction. In order to securely insert and fix the FPC 15 into the connector 13, the following shape is employed.

  Since the FPC 15 is inserted from the opening 41f, the height P of the opening 41f is equal to or slightly larger than the thickness Q of the insulating layer 21. Furthermore, in order to prevent the first protrusion 51 and the second protrusion 52 from coming out of the hole 32 and the slit 31 more reliably, the height of the first protrusion 51 and the second protrusion 52 is increased. The thicknesses R1 and R2 are preferably equal to or greater than the thickness S of the FPC 15.

To summarize the above, it is desirable to design the FPC 15 and the connector 13 so as to satisfy the following expressions (1) to (7) in FIGS.
A ≒ A '(1)
B ≒ B '(2)
A '<B (3)
C≈D (4)
E <F ≦ G (5)
P≈Q (6)
S <R1, R2 (7)

  As described above, in the first embodiment, the penetration portion 30 is formed in the FPC 15, and the guide pin 30 fitted to the penetration portion 30 is provided in the connector 13. Therefore, the FPC 15 can be reliably inserted into the connector 13, and as a result, the FPC 15 can be prevented from being detached from the connector 13, and the conductive layer 22 of the FPC 15 and the pin 43 of the connector 13 can be brought into contact with each other. As a result, the assembly workability of the television receiver 10 is improved.

(Second Embodiment)
The first embodiment described above relates to the television receiver 10, but the second embodiment relates to the personal computer 10 ′.

  FIG. 14 is a perspective view showing an appearance of a notebook personal computer 10 ′ according to the second embodiment. The personal computer 10 ′ of FIG. 14 includes a first main body (first part, first component housing) 201 and a second main body (second part, second component housing) 202. .

  The first main body 201 includes a first housing (covering member, member, assembly component, component, support unit, reinforcing unit) 211 and a display device (display module) housed in the first housing 211. Display unit, electronic component, component) 212. The display device 212 has a display screen 212 a exposed on the front surface of the first housing 211.

  The second main body 202 includes a second casing (covering member, member, assembly component, component, support section, reinforcing section) 213 and a keyboard (input section, input) accommodated in the second casing 213. A reception unit, a reception unit, an operation unit, an operation area, an interface unit, an input module, a unit, a component) 214 and a pointing device (input unit, input reception unit, reception unit) provided on the front surface of the second housing 213 , Operation unit, operation region, interface unit, input module, unit, component, surface, region where touch sensor functions) 215, click pad (input unit, input reception unit, receiving unit, operation unit, operation region, interface unit, An input module, a unit, a component, a surface, a region where the touch sensor functions) 216, and a finger hook (an opening, a step, a concave, a hook, a convex) 217.The keyboard 214 has a plurality of keys 214 a exposed on the front surface of the second housing 213.

  The second housing 213 has first to fourth end portions (side portions, peripheral portions, peripheral portions, side portions, walls, surfaces) 221 to 224. A first end portion (an end portion opposite to the hinge, an end portion in the longitudinal direction, a side portion, a peripheral portion, a peripheral portion, a side portion, a wall, a surface) 221 is an end portion provided with a finger hook portion 217. is there. The second end (hinge side end, side, periphery, peripheral edge, side, wall, surface) 222 is provided with a connection portion between the first casing 211 and the second casing 213. The first end 221 is located opposite to the first end 221 and extends substantially parallel to the first end 221. Further, the third end portion (short-side end portion, side portion, peripheral portion, peripheral edge portion, side portion, wall, surface) 223 connects the first end portion 221 and the second end portion 222. It is an end and extends in a direction substantially perpendicular to the first end 221. The fourth end (short-side end, side, periphery, peripheral edge, side, wall, surface) 224 is located on the opposite side of the third end 223, and the third end 223 extends substantially parallel to the H.223. The fourth end 224 connects the first end 221 and the second end 222 in the same manner as the third end 223.

  The first and second end portions 221 and 222 are end portions extending in the longitudinal direction of the second housing 213. On the other hand, the third and fourth end portions 223 and 224 are end portions extending in the short direction of the second casing 213 and are shorter than the first and second end portions 221 and 222.

  When the second main body portion 202 is installed on a horizontal plane and the first main body portion 201 is opened away from the side closer to the user, the first to fourth end portions 221 to 224 are the second casings, respectively. 213 is a lower end, an upper end, a left end, and a right end. In FIG. 14, the first and second end portions 221 and 222 are substantially parallel to the horizontal direction, and the third and fourth end portions 223 and 224 are substantially parallel to a direction perpendicular thereto.

  In the personal computer 10 ′, the second housing 213 has four end portions 221 to 224, but the number of end portions of the second housing 213 is three or less or five. That's all. Further, the first end 221 and the second end 222 may extend non-parallel, and similarly, the third end 223 and the fourth end 224 extend non-parallel. Also good.

  FIG. 15 is a perspective view showing the internal structure of the personal computer 10 ′ shown in FIG. 14.

  As shown in FIG. 15, a main circuit board 231, a battery 232, and a circuit board 233 for the click button 234 are accommodated in the second housing 213.

  The main circuit board 231 is a circuit board on which semiconductor elements such as a CPU (Central Processing Unit) 235 and circuit elements are mounted. The main circuit board 231 is disposed at the second end 222. Note that the fan 218 is used to cool a semiconductor element such as the CPU 235 or a circuit element, and thus is disposed at the second end 222 together with the main circuit board 231.

  The battery 232 is disposed at the first end 221 with the circuit board 233 for the click button 234 interposed therebetween. In the present embodiment, since the main circuit board 231 is disposed in the space on the second end portion 222 side, the battery 232 is disposed in the remaining space on the first end portion 221 side.

  The circuit board 233 is a circuit board on which the click button 234 is mounted. The circuit board 233 is disposed at the first end 221. Specifically, the circuit board 233 is disposed at a position where the click pad 216 and the click button 234 overlap when viewed from the vertical direction.

  In the configuration of FIG. 15, the above-described connector 13, FPC 15, and connector 14 are used to transmit and receive signals between the circuit board 233 of the click button 234 and the main circuit board 231. As shown in the figure, in order to efficiently route the FPC 15, the FPC 15 may be bent at one or more places.

  Further, as shown in FIG. 16, in order to transmit and receive signals between the main circuit board 231 inside the housing 213 and the keyboard 214 provided outside the housing 213, the connector 13, FPC 15, and connector 14 described above are used. Is used. In order to pass the connector 13 through the opening 213a of the housing 213, the connector 13 is bent and used.

  The FPC 15 described above is the FPC described with reference to FIGS. 4 and 5, and the connector 13 is the connector described with reference to FIGS. 6 to 8. In the personal computer 10 ′, the FPC 15 and the connector 13 are used in various ways. In any case, since the through portion 30 and the guide pin 50 are fitted, the FPC 15 can be securely inserted into the connector 13. . As a result, the FPC 15 can be prevented from being detached from the connector 13 and the conductive layer 22 of the FPC 15 and the connector pin 43 can be brought into contact with each other. Further, even when the conductive layer 22 is formed thick to allow a large current to flow in order to transmit a USB signal or the like at high speed, the FPC 15 can be reliably inserted into the connector 13 by the above structure. Therefore, the assembling workability of the personal computer 10 'is improved.

  In the above first and second embodiments, the television receiver 10 and the personal computer 10 ′ have been described. However, the above-described FPC and connector may be used for other electronic devices such as audio / video devices and communication devices. it can.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the spirit of the invention. These embodiments and their modifications are included in the scope and gist of the invention, and are also included in the invention described in the claims and the equivalents thereof.

10 Television receiver 11 'Personal computer 11, 12 Electronic component 13, 14 Connector 15 FPC
21, 23 Insulating layer 22 Conductive layer 30 Penetration part 31 Slit 32 Hole 41 Housing 41f Opening part 42 Base 43 Pin 50 Guide pin 51 First projection part 52 Second projection part

Claims (15)

A housing,
A display unit housed in the housing;
A flexible printed wiring board provided on the inside of the housing and the display unit, in which a penetrating part is formed;
A guide pin fitted into the penetrating portion, and a connector into which the flexible printed wiring board is inserted, and
The flexible printed wiring board is
An insulating layer;
A conductive layer provided on a part of the insulating layer while avoiding the penetrating part;
The penetrating portion has a shape in which a slit and a hole that penetrate the insulating layer are combined,
The width of the hole is larger than the width of the slit in a direction substantially orthogonal to the insertion direction of the flexible printed circuit board,
The guide pin of the connector is
A first protrusion fitted into the hole;
A television receiver, comprising: a second protrusion provided on the first protrusion and fitted into the slit. A first electronic component provided with a first connector into which one end of the flexible printed wiring board is inserted;
A second connector into which the other end of the flexible printed wiring board is inserted is provided, and the second electronic component transmits and receives signals to and from the first electronic component via the flexible printed wiring board. Item 2. The television receiver according to Item 1. An electronic device provided on the first electronic component;
An external connector provided on the second electronic component,
The television receiver according to claim 2, wherein the electronic device transmits and receives a signal to and from an external device via the first connector, the flexible printed wiring board, the second connector, and the external connector.   3. A middle frame in which the first electronic component is provided on a first support surface and the second electronic component is provided on a second support surface opposite to the first support surface. The television receiver described in 1.   The television receiver according to claim 1, wherein the flexible printed wiring board is bent and disposed at at least one place.   The television receiver according to claim 1, wherein a width of the first protrusion is substantially equal to a width of the hole.   The television receiver according to claim 1, wherein a width of the first protrusion is larger than a width of the slit.   The television receiver according to claim 1, wherein a width of the second protrusion is substantially equal to a width of the slit.   The television receiver according to claim 1, wherein a height of the first protrusion is greater than a thickness of the flexible printed wiring board.   The television receiver according to claim 1, wherein a height of the second protrusion is larger than a thickness of the flexible printed wiring board. The connector is
A base on which the first protrusion is provided;
A housing having an opening formed on the base side;
The television receiver according to claim 1, further comprising a pin provided in the housing and connected to a conductive layer of the flexible printed wiring board.   The television receiver according to claim 11, wherein a distance between the opening and the first protrusion is substantially equal to a distance between an end of the flexible printed wiring board and an end of the slit.   The television receiver according to claim 11, wherein a distance between the end of the pin and the opening is smaller than a distance between the end of the slit and the hole.   The television receiver according to claim 11, wherein a distance between a rear surface of the housing facing the opening and the opening is equal to or greater than a distance between an end of the slit and the hole. A flexible printed wiring board formed with a penetrating portion;
A housing that houses at least a part of the flexible printed wiring board,
The flexible printed wiring board is
An insulating layer;
A conductive layer provided on a part of the insulating layer avoiding the penetrating part;
The penetrating portion is an electronic device having a shape in which a slit and a hole larger than the width of the slit are coupled to penetrate the insulating layer.

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