JP2013117980A - Electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a television receiver and an electronic apparatus which cause less problem when multiple modules are provided in a substrate.SOLUTION: The electronic apparatus includes, for example, a body, a display device, a substrate, a first module, a second module, and at least either a first connector or a second connector. The display device is provided in the body. The substrate stored in the body has a first surface on the side of the display device and a second surface on the opposite side of the display device. The first module is provided in the first surface. The second module is provided in the second surface and its temperature in operation is higher than that of the first module. The first connector is provided on the first surface and electrically connected to the first module. The second connector is provided on the second surface and electrically connected to the second module.

Description

  Embodiments described herein relate generally to an electronic apparatus.

  2. Description of the Related Art Conventionally, an electronic apparatus in which a module is provided on a substrate housed in a housing is known.

JP 2009-104243 A

  In this type of electronic device, for example, when a plurality of modules are provided on a substrate, there is a problem that the housing is likely to be large.

  Therefore, an embodiment of the present invention has, as an example, one object of obtaining an electronic device that is less likely to cause problems when a module is provided on a substrate.

  An electronic apparatus according to an embodiment of the present invention includes, as an example, a housing, a display device, a substrate, a first module, a second module, and at least one of a first connector and a second connector. . The display device is provided in the housing. A board | substrate is accommodated in a housing | casing and has the 1st surface by the side of the said display apparatus, and the 2nd surface on the opposite side to the said display apparatus. The first module is provided on the first surface. The second module is provided on the second surface, and the temperature during operation is higher than that of the first module. The first connector is provided on the first surface and is electrically connected to the first module. The second connector is provided on the second surface and is electrically connected to the second module.

FIG. 1 is a front view showing an example of a television receiver according to the first embodiment. FIG. 2 is a side view illustrating an example of the television receiver according to the first embodiment. FIG. 3 is a perspective view showing an example of an assembly of a board and a module included in the housing of the television receiver according to the first embodiment. FIG. 4 is a side view of the assembly of FIG. FIG. 5 is a plan view of the first surface side of the assembly of FIG. FIG. 6 is a plan view of the second surface side of the assembly of FIG. FIG. 7 is a perspective view showing an example of the substrate of FIG. FIG. 8 is a side view of the substrate of FIG. FIG. 9 is a plan view of the first surface of the substrate of FIG. FIG. 10 is a plan view of the second surface of the substrate of FIG. FIG. 11 is a side view showing a modified example of the assembly of the board and the module included in the housing of the television receiver according to the first embodiment. 12 is a cross-sectional view (side view) of a portion of the substrate of FIG. FIG. 13 is a cross-sectional view illustrating an example of a housing of a television receiver in which the substrate of FIG. 12 is accommodated. FIG. 14 is a cross-sectional view illustrating an example of a housing of a television receiver having a different specification from that of FIG. 13 in which the substrate of FIG. 12 is accommodated. FIG. 15 is a perspective view illustrating an example of an electronic apparatus according to the second embodiment. FIG. 16 is a front view illustrating an example of an electronic apparatus according to the second embodiment. FIG. 17 is a rear view illustrating an example of an electronic apparatus according to the second embodiment. FIG. 18 is a side view illustrating an example of an electronic apparatus according to the second embodiment. FIG. 19 is a side view showing an example of an electronic apparatus according to the second embodiment, and is a view seen from a direction different from FIG. FIG. 20 is a side view showing an example of an electronic apparatus according to the second embodiment, and is a view seen from a direction different from FIGS. FIG. 21 is a side view showing an example of an electronic apparatus according to the second embodiment, and is a view seen from a direction different from FIGS. FIG. 22 is an exploded perspective view showing an example of an electronic apparatus according to the second embodiment. FIG. 23 is a plan view illustrating an example of the internal configuration of the electronic device according to the second embodiment. 24 is a cross-sectional view taken along the line XXIV-XXIV in FIG. FIG. 25 is a perspective view illustrating an example of a part of the internal structure of the electronic device according to the second embodiment. FIG. 26 is a perspective view illustrating another example of the internal structure of the electronic device according to the second embodiment. 27 is a plan view of the portion shown in FIG. FIG. 28 is a perspective view of the part shown in FIG. 26 from another angle. FIG. 29 is a perspective view illustrating an example of a part of the electronic apparatus according to the second embodiment.

  The following exemplary embodiments include similar components. Therefore, below, the same code | symbol is attached | subjected to the same component, and the overlapping description is abbreviate | omitted. Moreover, in each figure, the direction (X direction, Y direction, Z direction) is shown for convenience. The X direction is the longitudinal direction when viewed from the front with respect to the display screen 4a, the Y direction is the lateral direction when viewed from the front with respect to the display screen 4a, and the Z direction is the front and rear direction when viewed from the front with respect to the display screen 4a (depth direction, housing) 3 in the thickness direction). The X direction, the Y direction, and the Z direction are orthogonal to each other.

  Moreover, in the following embodiment, the case where an electronic device is comprised as a television receiver or a personal computer is illustrated, However, The electronic device concerning this embodiment is not limited to these. The electronic device according to the present embodiment can be configured as various electronic devices such as a smartphone, a smart book, a mobile phone, a PDA (personal digital assistant), a video display device, and a video phone.

<First Embodiment>
As shown in FIGS. 1 and 2, the television receiver 1, which is an example of the electronic apparatus according to the present embodiment, includes a support portion (branch, stand, stand) 2 and a housing 3. The support unit 2 is placed on a placement unit (not shown) such as a desk, shelf, or table, and supports the housing 3. The support part 2 may support the housing | casing 3 fixedly, and may support it so that movement (turnable and slidable) is possible. As a rotation form with respect to the support part 2 of the housing | casing 3, there exist a tilt, a swivel, a pivot etc., for example.

  As shown in FIG. 1, the housing 3 is configured in a rectangular shape (in the embodiment, a rectangular shape as an example) when viewed from the front. Moreover, the housing | casing 3 is comprised by the flat rectangular parallelepiped shape thin in the front-back direction, as FIG. 2 shows. The housing 3 has a front surface (front surface, surface, first surface, first surface portion) 3a and a rear surface (back surface, surface, second surface, second surface portion) 3b on the opposite side. The front surface 3a and the rear surface 3b are substantially parallel. As shown in FIG. 1, the housing 3 has four end portions (side portions, edge portions) 3c to 3f and four corner portions (pointed portions, curved portions, end portions) 3g in a front view. ~ 3j. The ends 3c and 3e are examples of long sides. The ends 3d and 3f are examples of short sides.

  The housing 3 has a wall portion (first wall portion, first portion, plate, frame, front wall portion, front wall portion, top wall portion) 3k having a front surface 3a and a wall portion (second wall portion) having a rear surface 3b. Wall portion, second portion, plate, rear wall portion, back wall portion, bottom wall portion) 3m. The walls 3k and 3m are rectangular (in the present embodiment, rectangular as an example). The housing 3 has four wall portions (third wall portion, third portion, plate, plate) having side surfaces (surface, peripheral surface, third surface) 3p extending between the wall portion 3k and the wall portion 3m. Side wall portion, end wall portion, standing wall portion, span portion) 3n. The wall 3k is provided with a rectangular opening 3r as an example.

  Furthermore, the housing | casing 3 can be comprised by combining several components (a division body, a member). As an example, the housing 3 includes a first member (first portion, front side member, cover) 3Fr including at least a wall portion 3k, and a second member (second portion, rear side member, base) including at least a wall portion 3m. Bottom) 3Rr. The wall 3n can be included in at least one of the first member 3Fr and the second member 3Rr (for example, the second member 3Rr). The housing 3 is separated from the first member 3Fr and the second member 3Rr by a third member (a third portion, an intermediate member, a separation member, a barrier member, a wall member, an interposition member, an inner member, and the like). Plate, middle plate, middle frame, not shown). In that case, the wall 3n may be included in the third member. The housing 3 can be made of a metal material, a synthetic resin material, or the like.

  A display device (display unit, display, panel) 4 is accommodated in the housing 3. The display screen 4a located on the front surface 3a side of the display device 4 is exposed to the front (outside) of the housing 3 through the opening 3r, and the user can pass through the opening 3r from the front side. The display screen 4a can be visually recognized. The display device 4 is configured in a rectangular shape (in the embodiment, a rectangular shape as an example) when viewed from the front. The display device 4 is configured in a flat rectangular parallelepiped shape that is thin in the front-rear direction. The display device 4 is, for example, a liquid crystal display (LCD), an organic EL display (OELD, organic electro-luminescent display), or the like.

  A transparent relatively thin rectangular input operation panel (for example, a touch panel, a touch sensor, and an operation surface) 5 is provided on the front side (front side, wall 3k side) of the display device 4. The input operation panel 5 covers the display screen 4a. An operator (such as a user) executes input processing by performing operations such as touching, pushing, rubbing, or moving near the input operation panel 5 with the finger or stylus, for example. can do. The light emitted from the display screen 4 a of the display device 4 passes through the input operation panel 5 and exits from the opening 3 r of the wall 3 k to the front (outside) of the housing 3. The input operation panel 5 is an example of an input unit.

  In the housing 3, a plurality of substrates 6 and 7 are accommodated on the rear side of the display device 4 (the back side, the back side, the wall 3 m side, and the side opposite to the display screen 4 a). The substrates 6 and 7 are arranged at different positions, and both are provided in parallel with the display device 4. The substrates 6 and 7 are provided in a state of being separated from the wall portions 3k, 3m, 3n and the like, that is, in a state where a space is formed between the wall portions 3k, 3m, 3n and the like. It is preferable that the substrates 6 and 7 are arranged side by side along the display device 4 and do not overlap in the thickness direction of the housing 3. Further, the substrates 6 and 7 are fixed to the housing 3 by a fixing tool such as a screw.

  A plurality of electronic components (components, elements, not shown) such as a CPU (central processing unit) are mounted on the board (first board, first circuit board, control board, main board) 6 shown in FIG. ing. The electronic component includes a heating element. In addition, a cooling mechanism (a heat radiating unit, a heat receiving unit, not shown) can be provided in an electronic component (heating element) having a large heat generation amount. The substrate 6 and the electronic components constitute at least a part of a control circuit (not shown). The control circuit includes, for example, a video signal processing circuit, a tuner unit, an HDMI (high-definition multimedia interface) signal processing unit, an AV (audio video) input terminal, a remote control signal receiving unit, a control unit, a selector, an on-screen display interface, A storage unit (for example, ROM (read only memory), RAM (random access memory), HDD (hard disk drive), etc.), an audio signal processing circuit, and the like can be included. The control circuit outputs video (moving images, still images, etc.) on the display screen 4a of the display device 4, outputs audio from a speaker (not shown), and emits light from an LED (light emitting diode, not shown). Control etc. The display device 4, the speaker, the LED, and the like are examples of the output unit.

  In addition, the substrate (second substrate, second circuit substrate, module substrate, sub-substrate) 7 illustrated in FIGS. 3 to 10 includes a plurality (two in this embodiment) of modules (card module, component, electronic component). , Storage device, antenna, element) 8A, 8B. The substrate 7 is electrically connected to the substrate 6 via a flexible cable (not shown). The substrate 7 can be provided with various modules 8A and 8B such as an SSD (solid state drive) module and a wireless communication module. In the present embodiment, the configuration in which the two modules 8A and 8B are provided on the substrate 7 is illustrated, but three or more modules may be provided. In the present embodiment, as an example, the shapes of the two modules 8A and 8B are substantially the same, but may be different. The module 8A is an example of a first card module, and the module 8B is an example of a second card module. The number of electronic components mounted on the substrate 7 is smaller than the number of electronic components mounted on the substrate 6. The size of the substrate 7 is smaller than the size of the substrate 6. In addition, the number of cables connected to the substrate 7 and connected to other components in the housing 3 is smaller than the number of cables connected to the substrate 6 and connected to other components in the housing 3. That is, the portability of the substrate 7 is higher than that of the substrate 6. In addition, regarding the order of work steps, the substrate 7 can be incorporated into the housing 3 after a relatively large component including the substrate 6 is mounted.

  3 to 6 show the substrate 7 to which the modules 8A and 8B are attached, and FIGS. 7 to 10 show the substrate 7 from which the modules 8A and 8B have been removed (not attached). In this embodiment, as an example, the module 8A is provided on the first surface (first surface, first part, first region) 7a of the substrate 7, and the second surface (second surface, second part, A module 8B is provided in the second area 7b. In this embodiment, as an example, the first surface 7a and the module 8A are on the front side (display device 4 side, front side, first side), and the second surface 7b and the module 8B are on the rear side (opposite to the display device 4). Side, back side, second side).

  As shown in FIGS. 3 to 6, each of the modules 8 </ b> A and 8 </ b> B is formed in a flat rectangular parallelepiped shape, and has a rectangular (rectangular) appearance in plan view. A connector portion 8b is provided at an end portion (side portion, edge portion) 8a corresponding to the short side portion on one side in the longitudinal direction of the modules 8A and 8B. The connector portion 8b has a plurality of terminals (not shown). The plurality of terminals are arranged in a row along the end portion 8a. A connector 9 is provided on the substrate 7. The connector portion 8 b is inserted into the connector 9 and is electrically connected to the connector 9. That is, the terminal of the connector portion 8b and the terminal (not shown) of the connector 9 are in contact with each other in a conductive state. The connector 9 is an example of a first connector or a second connector.

  On the other hand, a fixed portion (support portion, holding portion) 8d is provided at an end portion (side portion, edge portion) 8c corresponding to the short side portion on the other side in the longitudinal direction as the opposite side of the end portion 8a. In the present embodiment, the fixed portion 8d is positioned at a corner (a point, a curved portion, an end) of the modules 8A and 8B as an example. In the present embodiment, as an example, rectangular concave portions (opening portions, notches) are provided in front and rear sides of the corner portions, and the fixing portion 8d is configured in a plate shape and a flange shape. Yes. And the fixing | fixed part 8d is provided with the opening part (For example, a through-hole, a notch, etc. not shown) through which the screw 10 as a fixing tool (an insertion member, a fixing member, a positioning member) is passed. The screw 10 passing through the opening is fixed to a female screw portion (stud, boss) 11 provided on the substrate 7. The female screw portion 11 is an example of a first fixing portion or a second fixing portion. Note that the fixture is not limited to a screw, and may be a clip, a pin, a rivet, or the like, for example. Further, the fixing portion can be fixed to at least one of the modules 8A and 8B and the substrate 7.

  As shown in FIGS. 7 to 10, the first surface 7 a of the substrate 7 is provided with a connector 9 and a female screw portion 11 corresponding to the module 8 </ b> A. The second surface 7b is provided with a connector 9 and a female screw portion 11 corresponding to the module 8B. Further, between the connector 9 and the female screw portion 11 on the first surface 7a and the second surface 7b, a plane portion (region, portion, surface portion) 7c is provided. In the present embodiment, as an example, no surface mount component (electronic component, component) is mounted on the flat surface portion 7c. However, this is merely an example, and the flat portion 7c can be mounted with a component that is at least partially protruded from the surface of the substrate 7 or a component that is partially embedded inside. In addition, the flat surface portion 7c suppresses the height of the assembly 70 due to the modules 8A and 8B and components being stacked in the thickness direction of the substrate 7, so that the first surface 7a or the second surface of the substrate 7 is increased. In the position corresponding to (opposite) the modules 8A and 8B of 7b, it is a region where no component is provided, or a region where the protruding height of the component is lower. That is, the flat part 7c can be provided with a component (mounting height, protruding height) that does not interfere with the modules 8A and 8B.

  By comparing and referring to FIGS. 5 and 9 and FIGS. 6 and 10, in this embodiment, as an example, the modules 8 </ b> A and 8 </ b> B are positioned on the plane portion 7 c (overlapping the plane portion 7 c). I understand that. And as FIG. 4 shows, in this embodiment, module 8A, 8B is along the 1st surface 7a or the 2nd surface 7b as an example. That is, in this embodiment, the assembly (second assembly) 70 of the substrate 7 and the modules 8A and 8B can be made thinner by such a configuration. The plane part 7c is an example of a first plane part or a second plane part. In the present embodiment, a female screw portion 11 that is far from the connector 9 and a female screw portion 11 that is short from the connector 9 are provided. Thereby, a module (not shown) having a different size (length in the vertical direction in FIGS. 5 and 9) from the modules 8A and 8B can be provided on the substrate 7.

  Moreover, in this embodiment, as FIG.4, 5 grade | etc., Shows, it is the area | regions other than the plane part 7c of the 1st surface 7a and the 2nd surface 7b, and located in the back side of module 8A, 8B ( The electronic component 12 is provided on the back side region (third plane portion) 7d by surface mounting, for example. In the present embodiment, a temperature sensor (for example, a thermistor) 12a is provided as an example of the electronic component 12 in the region 7d of the first surface 7a. As shown in FIG. 4, in the present embodiment, as an example, the temperature sensor 12a is located on the back side of the module 8B provided on the second surface 7b. Such a layout of the module 8B and the temperature sensor 12a occurs because the modules 8A and 8B are not completely overlapped in the thickness direction of the substrate 7, but are partially overlapped. That is, the modules 8A and 8B are arranged in a state of being displaced along the first surface 7a or the second surface 7b of the substrate 7, so that the first surface 7a or the second surface 7b (in the present embodiment, the first as an example) On the back side of the module 8A, 8B of the surface 7a), an area 7d in which the electronic component 12 can be mounted is provided. With such a layout, for example, the electronic component 12 can be disposed on the opposite side of the modules 8A and 8B via the substrate 7. Therefore, as an example, the electronic component 12 can be positioned closer to the modules 8A and 8B. Therefore, as an example, the temperature sensor 12a makes it easier to detect or estimate the temperature and heat generation amount of the module 8B with higher accuracy. When the modules 8A and 8B are displaced in the longitudinal direction (the direction along the long side of the rectangle), the modules 8A and 8B are displaced in the short direction (the direction along the short side of the rectangle). Thus, the area of the region 7d tends to be narrower. Therefore, as an example, the assembly 70 is unlikely to increase in the direction along the first surface 7 a and the second surface 7 b of the substrate 7. The temperature sensor 12a is merely an example, and electronic components 12 other than the temperature sensor 12a can be provided on the back side of the modules 8A and 8B. The electronic component 12 can be provided on the second surface 7b on the back side of the module 8A. The region 7d is an example of a first region or a second region.

  In the present embodiment, the electronic component 12 is provided along the peripheral portion of the substrate 7 and around the flat portion 7c so as to avoid the flat portion 7c. With this configuration, as an example, when attaching the modules 8A and 8B, the operator can easily see the flat portion 7c with the electronic component 12 and easily check the positions of the modules 8A and 8B.

  Moreover, in this embodiment, it is area | regions (peripheral area | region, 4th plane part) 7e which is areas other than the plane part 7c of the 1st surface 7a and the 2nd surface 7b, and is not located in the back side of module 8A, 8B, ie, The electronic component 12 is also provided in the region 7e other than the flat surface portion 7c and the region 7d, for example, by surface mounting. In the present embodiment, as shown in FIGS. 6 and 10, a circuit 13 including an electronic component 12 is provided in the region 7e. Furthermore, in this embodiment, the module 8B provided in the 2nd surface 7b is a module for 3rd generation mobile communication systems (3G) as an example. The second surface 7b is provided with a card holder 12b of an ID (identification) card (SIM card, subscriber identity module card) used in the 3G communication, along with the module 8B. The card holder 12b is an example of the electronic component 12.

  A connector 14 of a flexible cable (not shown) that electrically connects the substrate 6 and the substrate 7 is provided on the first surface 7 a of the substrate 7.

  In this embodiment, as shown in FIGS. 5 and 6, the modules 8A and 8B and the connector 9 are provided with mounting indexes 30a and 30b. In the present embodiment, the indicators 30a and 30b are provided as arrows (marks) on the connector 9 and the modules 8A and 8B as an example. The indicators 30a and 30b are provided, for example, by printing or sticking a sticker. When the combination of the module 8A and the connector 9 is correct, the index 30a corresponds to the index 30b. On the other hand, when the combination of the module 8A and the connector 9 is incorrect, the index 30a and the index 30b do not correspond. As an example, in the present embodiment, the positions of the modules 8A and the indicators 30a and 30b of the corresponding connectors 9 and the positions of the modules 8B and the corresponding indicators 30a and 30b of the connectors 9 are along the connector 9. (The direction along the end portion 8a, the short side direction, the direction along the terminals of the connector portion 8b and the connector 9) are shifted. Therefore, the operator can visually or tactilely recognize whether or not the modules 8A and 8B and the connector 9 are a correct combination by using the indicators 30a and 30b. The presence or absence of visual correspondence can be identified by the positions and colors of the indicators 30a and 30b, for example. According to such a configuration, as an example, erroneous assembly of the modules 8A and 8B to the connector 9 can be suppressed. The indicators 30a and 30b are not limited to this example, and can be changed variously. For example, the indicators 30a and 30b can be characters, patterns, pictures, colors, figures, shapes (concave portions or convex portions), and the like. In addition, the index can be provided in one of the modules 8A and 8B and the connector 9, or can be provided in one of the two modules 8A and 8B. The index can also be provided on the substrate 7 (for example, the first surface 7a, the second surface 7b, etc.), the screw 10, the female screw portion 11, or the like.

  In the above-described embodiment, the television receiver 1 includes the substrate 7 separately from the substrate 6 and provided with the module 8A on the first surface 7a and the module 8B on the second surface 7b. Therefore, as an example, the degree of freedom in the layout of components in the housing 3 is easily improved, and an increase in the size of the housing 3 is easily suppressed. As an example, the housing 3 is enlarged in a direction along the surface of the substrate 6 or the substrate 7 as compared with the case where a plurality of modules 8A and 8B are provided side by side on one surface of the substrate 6 or the substrate 7. It becomes easy to suppress. In addition, since the modules 8A and 8B are provided on the substrate 7 instead of the substrate 6, as an example, compared to the case where the modules 8A and 8B are provided on the substrate 6, the process of attaching the modules 8A and 8B or the modules 8A and 8B. The degree of freedom of the process of attaching components corresponding to the above (for example, terminals and connectors for electrically connecting the modules 8A and 8B to other components and boards, specifically antenna cable terminals, etc.) increases. This makes it easier to reduce manufacturing effort and manufacturing costs.

  Further, in the present embodiment, the module 8B whose operating temperature is higher than the module 8A is positioned on the side close to the wall 3m of the housing 3, and the module 8A whose operating temperature is lower than the module 8B is the display device 4. Located on the side. Therefore, as an example, the heat generated by the module 8B can be easily released to the outside of the housing 3 through the wall 3m. As an example, it becomes easy to reduce the influence of heat generated by the module 8B on the display device 4.

  Moreover, in this embodiment, the electronic component 12 was provided in the area | region 7d located in the back side of module 8A, 8B of the 1st surface 7a or the 2nd surface 7b of the board | substrate 7. FIG. Therefore, as an example, the electronic component 12 can be located closer to the modules 8A and 8B. When the electronic component 12 is the temperature sensor 12a, as an example, it becomes easier to detect the temperatures of the modules 8A and 8B with higher accuracy.

  Further, in the present embodiment, the modules 8A and 8B are arranged so as to be shifted along their longitudinal direction. Therefore, as an example, the size of the area 7d located on the back side of the modules 8A and 8B provided on the first surface 7a and the second surface 7b of the substrate 7 when the modules 8A and 8B are displaced is changed to the modules 8A and 8B. As compared with the case where the angle is shifted along the short side direction, it can be made smaller.

  In the present embodiment, a card-type module is exemplified as the two modules 8A and 8B. However, this is merely an example. For example, in the two modules 8A and 8B, the region (surface) facing the substrate 7 is a plane (a flat surface, a substantially flat surface, a surface along the substrate 7), and It suffices to have a configuration that can be connected to the connector 9 at a position where at least some of them overlap each other with the substrate 7 interposed therebetween, and is not limited to a card type.

<Modification>
11 and 12 show a modified substrate (second substrate) 7A and an assembly 70A. The substrate 7A and the assembly 70A can be used in place of the substrate 7 and the assembly 70 of the first embodiment. In this modification, the modules 8A and 8B are, for example, a plan view of the first surface 7a and the second surface 7b of the substrate 7A (a direction perpendicular to the first surface 7a and the second surface 7b, a thickness direction of the substrate 7A). (Line of sight from the up and down direction in FIGS. 11 and 12)) and substantially the same shape (rectangular shape, rectangular shape). Therefore, as an example, the specifications (size, shape, etc.) of the connector 9 and the female screw portion 11 used in the modules 8A and 8B can be made the same, and it becomes easy to reduce the labor and cost of manufacturing.

  In the present modification, as an example, the module 8A and the module 8B are entirely overlapped in the thickness direction of the substrate 7A. Therefore, as an example, it is easy to suppress the substrate 7A from increasing in the direction along the first surface 7a and the second surface 7b. Therefore, as an example, it is easy to suppress an increase in the size of the housing 3 and thus the television receiver (electronic device) 1.

  Furthermore, in this modification, as shown in FIG. 12, the substrate 7A is provided with through holes 7f and 7g. And the protrusion part 11a of the internal thread part 11 provided in the 1st surface 7a and the protrusion part 11a of the internal thread part 11 provided in the 2nd surface 7b are inserted in the through-hole 7f. That is, the through hole 7f functions as a positioning portion for the two female screw portions 11, and is shared by the two female screw portions 11 for fixing (positioning) to the substrate 7A. The female screw portion 11 is provided with a female screw hole 11b. A male screw portion (not shown) of the screw 10 as a fixture is coupled to the female screw hole 11b. Further, as an example, the female screw portion 11 is soldered or the like to a pad portion (not shown) made of copper foil or the like provided on the first surface 7a and the second surface 7b of the substrate 7A. Combined with The structure for fixing the female screw portion 11 to the substrate 7A can be the same in the first embodiment.

  Further, the protruding portion 9a of the connector 9 provided on the first surface 7a and the protruding portion 9a of the connector 9 provided on the second surface 7b are inserted into the through hole 7g. That is, the through-hole 7g functions as a positioning portion for the two connectors 9 and is shared by the two connectors 9 for fixing (positioning) to the board 7A. As an example, the connector 9 is soldered to a pad portion (not shown) made of copper foil or the like provided on the first surface 7a and the second surface 7b of the substrate 7A, so that the substrate 9A Combined. The structure for fixing the connector 9 to the board 7A can be the same as in the first embodiment. The through hole 7g is an example of a second through hole.

  Thus, in this modification, components (electronic component, connector 9 and female screw portion 11) provided on the first surface 7a and components (electronic component, connector 9 and female screw portion 11 etc.) provided on the second surface 7b are provided. ) And the through holes 7f and 7g can be shared. Therefore, as an example, it becomes easy to reduce manufacturing effort and manufacturing cost.

  In addition, the configuration sharing the through holes 7f and 7g of the present modification is, as illustrated in FIGS. 13 and 14, for example, a plurality of television receivers having different layouts of the components 15 inside the housing 3. With respect to the machine (electronic device) 1, there is also an advantage that the substrate 7A can be shared. Specifically, for example, in the specification of FIG. 13, a module 8A is provided on the first surface 7a of the substrate 7A. On the other hand, in the specification of FIG. 14, when another component (for example, a card holder) 15 is provided on the first surface 7 a side inside the housing 3 and the module 8 </ b> A is provided on the first surface 7 a. The module 8A and the component 15 interfere with each other. Therefore, in the specification of FIG. 14, a module 8A that performs the same function as in FIG. 13 is provided on the second surface 7b of the substrate 7A. Thus, according to the board 7A according to the present modification, as an example, the board 7A can be shared for a plurality of specifications of the television receiver (electronic device) 1. Therefore, as an example, compared with the case where the substrate 7A is manufactured for each of a plurality of specifications, it is easy to reduce manufacturing effort and manufacturing cost.

Second Embodiment
The electronic apparatus 1B according to the present embodiment is, for example, a personal computer, a television receiver, a smartphone, a smart book, a mobile phone, a PDA, or the like such as a display device having a so-called slate type, tablet type, or soft keyboard function. is there.

  As shown in FIGS. 15 to 17, the housing 3 </ b> B of the electronic device 1 </ b> B is configured in a rectangular shape (in the embodiment, a rectangular shape as an example) when viewed from the front and back. Moreover, the housing | casing 3B is comprised by the flat rectangular parallelepiped shape thin in the front-back direction, as FIG. The housing 3 </ b> B has a front surface (front surface, surface, first surface, first surface portion) 3 a and a rear surface (back surface, surface, second surface, second surface portion) 3 b on the opposite side. The front surface 3a and the rear surface 3b are substantially parallel. Moreover, as shown in FIGS. 15 to 17, the housing 3 </ b> B has four end portions (side portions, edge portions) 3 c to 3 f and four corner portions (points, curved portions, end portions) in a front view. ) 3g-3j. The end portions 3c and 3e are examples of long side portions. The ends 3d and 3f are examples of short sides.

  The housing 3B includes a wall portion (first wall portion, first portion, plate, frame, front wall portion, front wall portion, top wall portion) 3k having a front surface 3a and a wall portion (second wall) having a rear surface 3b. Wall portion, second portion, plate, rear wall portion, back wall portion, bottom wall portion) 3m. The walls 3k and 3m are rectangular (in the present embodiment, rectangular as an example). Further, the housing 3B includes four wall portions (third wall portion, third portion, plate, plate) having side surfaces (surface, peripheral surface, third surface) 3p extending between the wall portion 3k and the wall portion 3m. Side wall portion, end wall portion, standing wall portion, span portion) 3n. As an example, a rectangular opening 3r is provided in the wall 3k.

  Furthermore, the housing 3B can be configured by combining a plurality of components (divided bodies). As an example, the housing 3B includes a first member (first part, front member, cover) 3Fr including at least a wall 3k, and a second member (second part, rear member, base) including at least a wall 3m. Bottom) 3Rr. The wall 3n is included in at least one of the first member 3Fr and the second member 3Rr (for example, the second member 3Rr). In the present embodiment, as shown in FIG. 22, the housing 3B is separated from the first member 3Fr and the second member 3Rr, and the third member 3Md (third portion, intermediate member) positioned between them. , Separation member, barrier member, wall member, interposed member, inner plate, middle plate, middle frame). A part of the wall 3n can be included in the third member 3Md. The housing 3B can be made of a metal material, a synthetic resin material, or the like. As an example, the second member 3Rr and the third member 3Md can be made of a metal material such as a magnesium alloy, for example, and the first member 3Fr is a synthetic resin having lower rigidity than the second member 3Rr and the third member 3Md. Can be composed of materials. The first member 3Fr, the second member 3Rr, and the third member 3Md can be provided with wall portions (projections, projecting walls) such as ribs. The wall portion improves the rigidity of the housing 3B. The third member 3Md can be provided with an opening such as a through hole. The housing 3B can be configured to be lighter by the opening.

  In the present embodiment, as shown in FIGS. 19 and 21, as an example, the thickness of the first part 3Ba that is the lower side or the near side (side closer to the user) in the use state in which the longitudinal direction is set to be horizontal is used. It is thinner than the thickness of the second part 3Bb which is the upper side or the back side (the side far from the user) in the state of use. For this reason, in the state used on the mounting surface P such as a desk, the height from the front surface 3a of the housing 3B and the mounting surface P of the display screen 4a is from the near side (lower side) to the far side (lower side). It goes higher as you go up. Therefore, according to the present embodiment, as an example, for the user located on the left side of FIG. 19 and the right side of FIG. 21 with respect to the electronic apparatus 1B, the display screen 4a is in a so-called tilt state, and the user moves the display screen 4a. There is an advantage that it is easy to see.

  In addition, the orientation of the video output on the display screen 4a during use can be changed according to the attitude of the housing 3B (electronic device 1B). For example, a control circuit (not shown) provided in the housing 3B is output to the display screen 4a according to a detection result of a sensor (for example, a gyro sensor or an acceleration sensor) provided in the housing 3B. You can change the orientation and size of the video. In addition, the control circuit can limit the posture of the video to several. Specifically, for example, when the end 3c of the housing 3B is positioned above the end 3e (first posture), the control circuit displays the video on the end 3c side on the display screen 4a. When the end portion 3d is positioned above the end portion 3f (second posture), the end portion 3d can display the above image on the display screen 4a. When the posture of the housing 3B changes from the previous posture to the first posture and the second posture, the control circuit switches the image on the display screen 4a to a video corresponding to the posture. When the posture is changed to a posture other than the first posture and the second posture (that is, in this example, the posture in which the end portion 3e is located above the end portion 3c or the posture in which the end portion 3f is located above the end portion 3d). In this case, the control circuit does not switch the video on the display screen 4a. By such control, the use posture of the electronic device 1B by the user can be limited.

  And the housing | casing 3B is provided with the components accommodating part 17 which accommodated the components 16 so that entrance / exit was possible. In the present embodiment, the opening 17a of the component housing portion 17 is open to the end 3d as an example. The opening 17a is provided on the end 3d that is on the upper side in any use posture (in the above-described example, the first posture or the second posture) and not on the lower side in the non-use posture. According to such a configuration, the opening 17a is positioned on the upper side in the use posture. Therefore, as an example, the component 16 can be easily prevented from falling off from the component accommodating portion 17 due to the action of gravity. Specifically, the component 16 is, for example, a stylus, a stylus pen, a pen, or the like.

  Further, as shown in FIG. 16, in the present embodiment, the battery 18 and the display device 4 do not overlap the thickness direction of the housing 3B, but are perpendicular to the thickness direction (front surface 3a or rear surface). 3b, the X direction or the Y direction, in this embodiment as an example, the Y direction). Therefore, as an example, the housing 3B can be configured to be thinner than when the battery 18 and the display device 4 overlap in the thickness direction of the housing 3B. Further, as an example, it is easier to make the battery 18 thicker than when the battery 18 and the display device 4 overlap each other in the thickness direction of the housing 3B, and as a result, the capacity per unit volume of the battery 18 is increased. It becomes easy. In addition, as shown in FIGS. 19 and 21, in the present embodiment, the housing 3 </ b> B has a thin first part 3 </ b> Ba and a thick second part 3 </ b> Bb. A battery housing part (battery support part) 3s for housing the battery 18 is provided at the end 3c of the thick second part 3Bb. Therefore, as an example, compared with the case where the battery housing 3s is provided in the first part 3Ba, it becomes easier to make the battery 18 thicker, and as a result, the storage capacity per unit volume of the battery 18 can be easily increased.

  In the present embodiment, an end 3e opposite to the end 3c provided with the battery housing 3s is supported by a docking station (another electronic device, not shown). Therefore, as an example, an operator (such as a user) can attach and detach the battery 18 to and from the housing 3B while the electronic device 1B is supported by the docking station. Further, as shown in FIGS. 15 and 20, the end 3 e is provided with a connector 19 connected to a connector (not shown) of the docking station. Therefore, as an example, the battery housing 3s and the connector 19 are easily provided in the housing 3B without interfering with each other. The terminal 3t is also exposed at the end 3e. The connector 19 and the terminal 3t are exposed through the opening 3u provided in the wall 3n of the end 3e.

  Further, in the battery housing portion 3s, the portion hidden by the battery 18 is any two or more (two or three) of the first member 3Fr, the second member 3Rr, and the third member 3Md of the housing 3B. Are provided. In this coupling portion, for example, the first member 3Fr and the third member 3Md or the second member 3Rr are coupled by a screw as an example of a coupling tool. When disassembling the housing 3B, an operator (such as a user) first removes the screw to separate the first member 3Fr and the third member 3Md or the second member 3Rr at least locally at this portion, Separate. Thereafter, the worker applies, for example, a force to the separated portion to elastically deform the first member 3Fr, while elastically deforming the first member 3Fr and the third member 3Md or the second member 3Rr. The coupling portion (engagement portion, connection portion, for example, an engagement portion formed by a claw and a hole edge, not shown) is released, and the first member 3Fr is removed from the third member 3Md or the second member 3Rr. Remove. A plurality of joint portions (engagement portions, connection portions) between the first member 3Fr and the third member 3Md or the second member 3Rr are provided along the outer periphery of the first member 3Fr. A plurality of screws (not shown) as a coupler for coupling the second member 3Rr and the third member 3Md are all covered with the first member 3Fr. Therefore, the operator can remove the screw by removing the first member 3Fr from the third member 3Md or the second member 3Rr, and can separate the second member 3Rr and the third member 3Md. According to such a configuration, when the battery 18 is removed from the battery housing 3s, the casing 3B can be smoothly disassembled. That is, it is possible to prevent the housing 3B from being disassembled in a state where the battery 18 is mounted in the battery housing 3s.

  Further, in the present embodiment, the second member 3Rr and the third member 3Md advance to the battery housing portion 3s, and constitute a part of the end portion 3c (wall portion 3n, side surface 3p). Therefore, as an example, the rigidity of the housing 3B can be further increased. In addition, since the rigidity of the battery housing portion 3s is further increased, as an example, it becomes easier to further suppress vibration, displacement, and the like of the battery 18.

  15-21, the operation part 20 and the connector 21 are provided in the front surface 3a and the side surface 3p of the housing | casing 3B. The operation unit 20 can be a push button, a push switch, a slide switch, a pointing device, or the like. The connector 21 is a connector for a power cable, a USB connector, an earphone or a microphone connector, or the like. The operation part 20 and the connector 21 are exposed through the opening part 3u provided in wall part 3k, 3n of the housing | casing 3B. A camera (camera module, imaging device) 31 can be provided on the front surface 3a.

  In addition, as shown in FIGS. 17 and 19, the rear surface 3b and the side surface 3p of the housing 3B introduce and discharge air used for cooling the electronic component 12 (see FIG. 24, etc.). Is provided. In this embodiment, as an example, the rear surface 3b (wall portion 3m) is provided with an introduction port 22a for introducing air, and the side surface 3p (wall portion 3n, end portion 3d) is provided with a discharge port 22b for discharging air. It has been. In the present embodiment, the introduction port 22a and the discharge port 22b are provided as portions where a plurality of small holes 22c provided in the walls 3m and 3n are gathered. A protrusion 3v is provided on the rear surface 3b. Accordingly, even when the rear surface 3b as shown in FIGS. 19 and 21 is placed on the placement surface P, the introduction port 22a is not blocked. In the present embodiment, the inclined portion 3Bc is provided at the boundary between the thin first portion 3Ba and the thick second portion 3Bb of the housing 3B. And as FIG. 17 shows, one 22a1 of the inlet ports 22a is provided in the rear surface 3b of inclination part 3Bc. As shown in FIGS. 19 and 21, the distance between the inclined portion 3Bc and the placement surface P is larger than the distance between the other portion and the placement surface P. For the inlet 22a1, the air flow resistance can be easily reduced, and the cooling efficiency can be further improved. In the present embodiment, a plurality of inlets 22a are provided. Therefore, as an example, even when one introduction port 22a is blocked for some reason, an air flow can be introduced into the housing 3B from the other introduction port 22a, and the cooling performance is improved. It becomes hard to be damaged. Note that the inside of the housing 3B may be cooled by the cooling mechanism 23 (see FIG. 23 and the like) or may be cooled by natural cooling (convection cooling).

  As shown in FIG. 22, also in the present embodiment, a display device (display unit, display, panel) is provided in the housing 3B, as an example, between the first member 3Fr and the third member 3Md. 4) is housed. The display screen 4a located on the front surface 3a side of the display device 4 is exposed to the front (outside) of the housing 3B through the opening 3r, and the user can pass through the opening 3r from the front side. The display screen 4a can be visually recognized. The display device 4 is configured in a rectangular shape (in the embodiment, a rectangular shape as an example) when viewed from the front. The display device 4 is configured in a flat rectangular parallelepiped shape that is thin in the front-rear direction. The display device 4 is, for example, a liquid crystal display (LCD), an organic EL display (OELD, organic electro-luminescent display), or the like.

  A transparent relatively thin rectangular input operation panel (for example, a touch panel, a touch sensor, and an operation surface) 5 is provided on the front side (front side, wall 3k side) of the display device 4. The input operation panel 5 covers the display screen 4a. An operator (user or the like) performs an operation such as touching, pushing, rubbing, or moving a finger or stylus in the vicinity of the input operation panel 5 with the fingers or a component 16 (stylus) or the like. By performing the above, input processing can be executed. The light emitted from the display screen 4a of the display device 4 passes through the input operation panel 5 and exits from the opening 3r of the wall 3k to the front (outward) of the housing 3B. The input operation panel 5 is an example of an input unit.

  As shown in FIGS. 22 and 23, the housing 3B has a rear side of the display device 4 (the back side, the back side, the wall 3m side, the side opposite to the display screen 4a), in this embodiment. As an example, a plurality of substrates 6, 7, 25 are accommodated between the second member 3Rr and the third member 3Md. The substrates 6, 7 and 25 are arranged at different positions, and all are provided in parallel with the display device 4. Further, the substrates 6, 7, 25 are provided in a state of being separated from the wall portions 3k, 3m, 3n, etc., that is, in a state where a space is formed between the wall portions 3k, 3m, 3n, etc. . The substrates 6, 7 and 25 are preferably arranged side by side along the display device 4 and do not overlap in the thickness direction of the housing 3B. Further, the substrates 6, 7, and 25 are fixed to the housing 3B by a fixing tool such as a screw.

  The board (first board, first circuit board, control board, main board) 6 includes, for example, a CPU (central processing unit), graphic controller, power circuit component, PCH (platform controller hub), memory slot connector, LCD A plurality of electronic components 12 (see FIG. 24, etc., only part of which are shown in FIG. 24) such as a connector, an I / O (input / output) connector, a power supply coil, an element, and a connector can be mounted. The electronic component 12 includes a heating element. A cooling mechanism 23 can be provided in the electronic component (heating element) 12 that generates a large amount of heat. The cooling mechanism 23 includes a heat sink (heat receiving portion, not shown), a heat pipe 23a, a heat radiating portion 23b, a fan 24, and the like. The substrate 6 and the electronic component 12 constitute at least a part of a control circuit (not shown). The control circuit includes, for example, a video signal processing circuit, a tuner unit, an HDMI (high-definition multimedia interface) signal processing unit, an AV (audio video) input terminal, a remote control signal receiving unit, a control unit, a selector, an on-screen display An interface, a storage unit (for example, ROM (read only memory), RAM (random access memory), HDD (hard disk drive), etc.), an audio signal processing circuit, and the like can be included. The control circuit outputs video (moving images, still images, etc.) on the display screen 4a of the display device 4, outputs audio from a speaker (not shown), and emits light from an LED (light emitting diode, not shown). Control etc. The display device 4, the speaker, the LED, and the like are examples of the output unit.

  The substrate 7 and the modules 8A and 8B have the same configuration as that in the first embodiment. Also in this embodiment, the first surface 7a and the module 8A of the substrate 7 are located on the display device 4 side, and the second surface 7b and the module 8B are located on the opposite side of the display device 4. The first surface 7 a, the second surface 7 b, and the modules 8 </ b> A and 8 </ b> B are disposed along the display device 4. In addition, the electronic component 12 is provided on the substrate 25. A flexible cable 27 is accommodated in the housing 3B. The flexible cable 27 electrically connects the substrates 6, 7, 25, the display device 4, the connector 19, and the like. The flexible cable 27 is electrically connected to the corresponding connector 14. The flexible cable 27 is, for example, a flexible printed wiring board or a flat cable.

  Also, as shown in FIG. 23, a plurality of antennas 26 are accommodated in the housing 3B. In the present embodiment, a plurality of antennas 26 connected to one communication module (for example, module 8B) are arranged apart from each other. In the present embodiment, as an example, one antenna 26 is disposed in the vicinity of the end 3d and the end 3e of the housing 3B (near the corner 3h), and the other antenna 26 is connected to the end of the housing 3B. It is disposed in the vicinity of the portion 3e and the end portion 3f (in the vicinity of the corner portion 3i). Thereby, as an example, the spatial diversity of the antenna 26 can be configured. The antenna 26 and the module 8B are electrically connected via a cable 28. The functions can be divided by a plurality of antennas 26 and 26, such that one antenna 26 is used for transmission and reception and the other antenna 26 is dedicated for reception, and one antenna 26 is used as a spare for the other antenna 26. You can also

  As is clear from FIGS. 17 and 23, the substrates 6 and 7 and the cooling mechanism 23 are located in the thick second portion 3Bb of the housing 3B. Therefore, as an example, compared with the case where the substrates 6 and 7 and the cooling mechanism 23 are positioned in the thin first part 3Ba, it becomes easier to secure a larger space, and the air flow caused by the fan 24 of the cooling mechanism 23 Cooling effect is easily obtained. Further, in the present embodiment, the fan 24 and the heat radiating portion 23b are provided at the corner portion 3g where the end portion 3c and the end portion 3d, which are on the upper side in a specified (controlled) use state, are connected. Therefore, as an example, the fan 24 and the heat radiating portion 23b can be arranged on the upper side in the housing 3B regardless of the usage posture of the electronic apparatus 1B. Therefore, as an example, it is difficult for heat to stay in the housing 3B. In addition, the fan 24 and the heat radiating part 23b are provided adjacent to the discharge port 22b.

  The board | substrate 7 is provided in the position (position where the board | substrate 7, the board | substrate 6, and the cooling mechanism 23 are located in order in 2nd part 3Bb) which pinches | interposes the board | substrate 6 between the cooling mechanisms 23. FIG. With such a configuration, the air sucked from the outside hits the substrate 7 before reaching the position of the substrate 6. Therefore, as an example, the heat dissipation efficiency of the substrate 7 is improved. In addition, the board 7 on which the modules 8A and 8B are mounted has a relatively heavy weight among the components in the housing 3B, and the cooling mechanism 23 is another heavy object with respect to the board 6 positioned at the center of the housing 3B. Located on the opposite side. Therefore, as an example, the weight balance of the electronic device 1B becomes better. Therefore, as an example, the user can easily hold the electronic device 1B when carrying the electronic device 1B.

  As shown in FIGS. 17 and 24, in this embodiment, as an example, the wall 3 m of the housing 3 </ b> B has an introduction port 22 a 2 close to the fan 24 and a side opposite to the introduction port 22 a 2 with the substrate 6 interposed therebetween. There are provided an introduction port 22a3 positioned and an introduction port 22a1 closer to the electronic component 12 as a heating element than the introduction ports 22a2 and 22a3. Since the introduction port 22a2 is provided, an air flow can be made to flow more efficiently in the housing 3B. Further, the air flow S introduced from the introduction port 22a3 is an air flow S2 that flows toward the fan 24 along the second surface 6b on the rear side of the substrate 6 and an end of the substrate 6 that is located on the opposite side of the fan 24. The air flow S1 flows toward the fan 24 along the first surface 6a on the front side of the substrate 6 through the outside of the portion 6c (around and around). Therefore, the electronic component (heating element) 12 provided on both sides of the first surface 6a and the second surface 6b of the substrate 6 can be cooled.

  Further, as shown in FIG. 25, in the present embodiment, the connector 21A (21) and the substrate 25 are arranged so as to overlap in the thickness direction of the housing 3B. The substrate 25 is provided with an electronic component (for example, a push switch) 12 that outputs a signal corresponding to the operation of the push button 20a of the operation unit 20A. In the present embodiment, as an example, an uneven shape formed by providing the connector 21A or the connector 21A (in the present embodiment, as an example, an uneven shape, a recessed portion or a protruded portion, a protruding portion provided in the third member 3Md). ) 32 can be used for positioning and supporting the substrate 25. The substrate 25 is provided with a concavo-convex shape 25a corresponding to the concavo-convex shape 32 (for example, a protrusion, a cutout, a through-hole, etc., such as a cutout in the present embodiment). In the present embodiment, the concavo-convex shape 32 provided in the third member 3Md is provided corresponding to the movable region of the terminal (not shown) of the connector 21A, and is a relief that suppresses interference between the terminal and other components. It functions as a department.

  In addition, as shown in FIGS. 26 to 28, in this embodiment, the bracket 29 that fixes or positions the operation unit 20B to the housing 3B fixes or positions the connector 21B to the housing 3B. Used as a bracket. That is, the bracket 29 has, as an example, a first portion 29a that supports the operation portion 20B and a second portion 29b that supports the connector 21B. Both the first portion 29a and the second portion 29b are formed in a plate shape along the wall 3n of the housing 3B. With such a configuration, for example, the number of parts can be reduced. Further, as an example, it is easy to reduce manufacturing effort and manufacturing cost.

  Further, referring to FIG. 23 together with FIGS. 26 to 28, in the present embodiment, the operation units 20 are provided in the housings 3B located on both sides in the direction along the end 3c with respect to the battery 18, respectively. I understand that. That is, in the present embodiment, the operation unit 20 is provided inside the support unit 3 w that supports the end of the battery 18 in the longitudinal direction. With such a configuration, as an example, the dead space in this portion can be used more effectively.

  Furthermore, as shown in FIG. 29, in the present embodiment, a protruding portion 3x that suppresses erroneous operation of at least one of the operation portion 20C (20) as a slide switch is provided. The operation element 20b of the operation unit 20C is configured to be movable between the first position P1 and the second position P2. For example, the operation element 20b is held at least at the first position P1 and the second position P2 by a mechanism inside the operation unit 20C (not shown). However, it is not preferable that the operation element 20b moves to the position of the first position P1 or the second position P2 by an unintentional external force or the like. Therefore, in this embodiment, the operation element 20b is retracted from the rear surface 3b of the housing 3B to the inside of the housing 3B. Furthermore, a rib-shaped (wall-shaped) protruding portion 3x is provided as a barrier (obstacle) that prevents the finger or object from hitting the operation element 20b. The protrusion 3x is provided in a state of surrounding the protrusion 3x from the opposite side of the first position P1 with respect to the second position P2, and is provided in a semicircular shape (arc shape) as an example. As an example, when the operation unit 20C is a power switch that switches on / off the power of the electronic device 1B, it is preferable that the first position P1 is turned off and the second position P2 is turned on. As a result, the operator 20b unintentionally moves from the second position P2 to the first position P1, the power to the electronic device 1B is shut off, and it is easy to suppress the occurrence of any inconvenient event.

As mentioned above, although embodiment of this invention was described, the said embodiment is only an example. The present invention is not limited to the above embodiment, and various modifications are possible. In addition, the technical features of the above embodiments can be implemented in appropriate combinations. In addition, the specifications of each component (structure, type, direction, shape, size, length, width, thickness, height, number, arrangement, position, material, etc.) should be changed as appropriate. Can do.
The invention described in the scope of the claims at the time of the patent assessment of the original application of the present application will be added below.
[1]
A housing,
A display device provided in the housing;
A substrate housed in the housing and having a first surface on the display device side and a second surface opposite to the display device;
A first module provided on the first surface;
A second module provided on the second surface, wherein the temperature during operation is higher than the first module;
With
The first surface is provided with a first connector electrically connected to the first module,
The second surface is provided with a second connector electrically connected to the second module,
An electronic device in which at least a part of the first module overlaps the second module in the thickness direction of the substrate.
[2]
The electronic device according to [1], further including a second substrate housed in the housing and mounted with a heating element.
[3]
An electronic component is provided in at least one of the first region that is the back side of the second module on the first surface and the second region that is the back side of the first module on the second surface. The electronic device according to [1] or [2].
[4]
The electronic device according to [3], wherein the electronic component is a temperature sensor provided in the first region.
[5]
The electronic device according to [1], wherein a through hole provided in the substrate is commonly used for fixing the first connector and the second connector to the substrate.
[6]
Any of [1] to [5], wherein the size of the first module in the line of sight in the thickness direction of the substrate is the same as the size of the second module in the line of sight of the substrate in the thickness direction. The electronic device as described in one.
[7]
The longitudinal direction of the first module and the longitudinal direction of the second module are parallel,
The electronic device according to [6], wherein the first module and the second module are arranged to be shifted along a longitudinal direction of the first module or a longitudinal direction of the second module.
[8]
The electronic device according to [6], wherein the first module and the second module are entirely overlapped in the thickness direction of the substrate.
[9]
[2] The electronic apparatus according to [2], wherein the board and the second board are electrically connected, and a detachable flexible cable is provided on at least one of the board and the second board.
[10]
The electronic device according to any one of [1] to [9], wherein an attachment index is provided on at least one of the first module and the second module.
[11]
The electronic device according to any one of [1] to [10], wherein the first module is a first card module, and the second module is a second card module.

  DESCRIPTION OF SYMBOLS 1 ... Television receiver (electronic device), 1B ... Electronic device, 3, 3B ... Housing, 3r ... Opening, 4 ... Display device, 4a ... Display screen, 6 ... Substrate (first substrate), 7 ... Substrate (Second substrate), 7a ... first surface, 7b ... second surface, 7c ... flat surface portion (first flat surface portion, second flat surface portion), 7d ... region (first region, second region), 7f ... penetrating. Hole, 7g ... through hole (second through hole), 8A ... module (first card module), 8B ... module (second card module), 9 ... connector (first connector, second connector), 12 ... electronic component 27 ... Flexible cable, 30a ... Indicator, 30b ... Indicator.

Claims (12)

A housing,
A display device provided in the housing;
A substrate housed in the housing and having a first surface on the display device side and a second surface opposite to the display device;
A first module provided on the first surface;
A second module provided on the second surface, wherein the temperature during operation is higher than the first module;
At least one of a first connector provided on the first surface and electrically connected to the first module, and a second connector provided on the second surface and electrically connected to the second module; ,
With electronic equipment.   The electronic device according to claim 1, wherein at least a part of the first module overlaps the second module in a thickness direction of the substrate.   The electronic device of Claim 2 provided with the 2nd board | substrate with which the heat generating body was accommodated in the said housing | casing.   An electronic component is provided in at least one of the first region that is the back side of the second module on the first surface and the second region that is the back side of the first module on the second surface. The electronic device according to claim 2 or 3.   The electronic device according to claim 4, wherein the electronic component is a temperature sensor provided in the first region. Comprising both the first connector and the second connector;
The electronic device according to claim 2, wherein a through hole provided in the substrate is shared for fixing the first connector and the second connector to the substrate.   The size of the first module as viewed in the thickness direction of the substrate and the size of the second module as viewed in the thickness direction of the substrate are the same. Electronic equipment described in one. The longitudinal direction of the first module and the longitudinal direction of the second module are parallel,
The electronic device according to claim 7, wherein the first module and the second module are arranged to be shifted along a longitudinal direction of the first module or a longitudinal direction of the second module.   The electronic device according to claim 7, wherein the first module and the second module are entirely overlapped in the thickness direction of the substrate.   The electronic device according to claim 3, further comprising a flexible cable that electrically connects the substrate and the second substrate and is detachable from at least one of the substrate and the second substrate.   The electronic device according to any one of claims 2 to 10, wherein an attachment index is provided on at least one of the first module and the second module.   The electronic device according to claim 2, wherein the first module is a first card module, and the second module is a second card module.

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