JP4902015B2 - Television receiver and electronic device - Google Patents

Description

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

  2. Description of the Related Art Conventionally, an electronic device in which a heating element is accommodated on the back side of a display panel in a housing is known.

JP 11-219236 A

  In television receivers and electronic devices, it is required to further suppress the temperature rise of the devices.

  Therefore, an embodiment of the present invention has, as an example, one object of obtaining a television receiver and an electronic device that can further suppress the temperature rise of the device.

  The electronic device according to the embodiment includes a display device, a housing, and a heat transport mechanism. The display device has a rectangular display screen, and is used in a first posture in which one side of the display screen is positioned upward and a second posture in which another side orthogonal to the one side is positioned upward. The The housing accommodated at least a part of the display device, and was provided with an intake port and an exhaust port. The heating element was housed in the housing on the opposite side of the display screen from the display device. At least a part of the heat transport mechanism is housed in the housing, and has a heat receiving part that receives heat from the heating element and a heat radiating part that radiates heat. The heat receiving portion is positioned below the heat radiating portion in both the first posture and the second posture, the exhaust port is located facing the heat radiating portion, and at least a part of the air intake port is displayed on the housing Opened on the opposite side of the screen and positioned away from the exhaust.

FIG. 1 is a front view of a television device as an electronic apparatus according to the first embodiment, showing a first posture. FIG. 2 is a front view of the television apparatus according to the first embodiment and is a diagram illustrating a second posture. FIG. 3 is a block diagram illustrating an example of a video control mechanism included in the television apparatus according to the first embodiment. FIG. 4 is a rear view of the corner portion of the casing of the television device according to the first embodiment. FIG. 5 is a side view of the corner portion of the casing of the television device according to the first embodiment. FIG. 6 is a front view of a television device as an electronic apparatus according to the second embodiment, and shows a first posture. FIG. 7 is a front view of the television apparatus according to the second embodiment and is a diagram showing a second posture. FIG. 8 is a perspective view of a personal computer as an electronic apparatus according to the third embodiment, showing a developed state. FIG. 9 is a diagram showing a state where the display panel of the second main body is removed from FIG. FIG. 10 is a front view of the personal computer according to the third embodiment with the display panel inside the second main body portion removed. FIG. 11 is a perspective view of the personal computer according to the third embodiment as seen from the back side, and is a view showing a developed state. FIG. 12 is a perspective view of a personal computer according to the third embodiment, showing a first usage pattern. FIG. 13 is a perspective view of a personal computer according to the third embodiment, showing a second usage pattern. FIG. 14 is a perspective view of a personal computer according to the third embodiment, showing a third usage pattern. 15A and 15B are plan views showing the posture of the personal computer according to the third embodiment, wherein FIG. 15A is a third posture, and FIG. 15B is a diagram showing a fourth posture. 16 is a cross-sectional view taken along the line XVI-XVI in FIG. 17 is a cross-sectional view taken along the line XVII-XVII in FIG.

  In the following plurality of embodiments, similar components are included. Therefore, below, about the same component, a common code | symbol is provided and the overlapping description is abbreviate | omitted. In each figure, UP indicates the upper side in use.

<First Embodiment>
As shown in FIGS. 1 and 2, the television apparatus 1 as an electronic apparatus according to the present embodiment includes a stand 2 and a main body 3 supported by the stand 2.

  The stand 2 includes a base portion 2a and leg portions 2b extending upward from the base portion 2a to the rear of the central portion of the main body portion 3. And the rear part (back surface part) of the housing | casing 3a of the main-body part 3 has the hinge mechanism (not shown) comprised including a ball joint, a universal joint, etc. in the front-end | tip part (all are not shown) of the leg part 2b. And is supported rotatably. This television device 1 has a so-called pivot function, and a first horizontally long posture P1 (FIG. 1) in which one side 4b of the display screen 4a is positioned upward, and another side 4c of the display screen 4a is upward. And a vertically long second posture P2 (FIG. 2).

  The main body 3 includes a display panel 4 (for example, an LCD (Liquid Crystal Display)) as a display device (display) having a display screen 4a exposed forward from an opening 3c provided on the front surface 3b of the housing 3a. And a substrate 5a on which electronic components such as a CPU 6 are mounted. The display panel 4 and the substrate 5a are fixed to the housing 3a with screws (not shown) or the like. The board assembly 5 is composed of the board 5a and components (not shown) mounted on the board 5a. 1 and 2, illustration of electronic components other than the CPU 6 is omitted.

  The display panel 4 is formed in a flat rectangular parallelepiped shape that is thin in the front-rear direction (direction perpendicular to the paper surface of FIG. 1). The display panel 4 receives a video signal from a video signal processing circuit (none of which is shown) included in a control circuit composed of electronic components and the like mounted on the substrate 5a, and is stationary on the front display screen 4a. Display images such as pictures and videos. The control circuit of the television apparatus 1 includes a video signal processing circuit, a tuner unit (not shown), an HDMI (High-Definition Multimedia Interface) signal processing unit, an AV (Audio Video) input terminal, a remote control signal receiving unit, a control Unit, selector, on-screen display interface, storage unit (for example, ROM (Read Only Memory), RAM (Random Access Memory), HDD (Hard Disk Drive), etc.), audio signal processing circuit, and the like. The board | substrate 5a (board | substrate assembly 5) is accommodated in the back (back side) of the display panel 4 in the housing | casing 3a. The television apparatus 1 also includes an audio output amplifier, a speaker, and the like (not shown).

  In the present embodiment, the control circuit includes a video control mechanism 11 as shown in FIG. 3 that controls the video displayed on the display screen 4 a according to the attitude of the main body 3. The video control mechanism 11 includes, for example, a control unit 11a, a posture sensor 11b, a posture sensor controller 11c, a storage unit 11f, and the like. The control unit 11a includes a posture detection unit 11d, a video posture control unit 11e, and the like. The video control mechanism 11 sends control data for controlling the attitude (orientation) of the video on the display screen 4 a to the video signal processing circuit 12.

  The attitude sensor 11b can be constituted by, for example, a gyroscope, an acceleration sensor, a magnetic sensor, or the like. The posture sensor controller 11c receives a signal indicating the detection result from the posture sensor 11b, generates a posture detection signal, and sends the posture detection signal to the control unit 11a.

  The posture detection unit 11d detects (determines) the posture of the main body 3 based on the posture detection signal. The posture detection unit 11d detects at least the first posture P1 and the second posture P2 of the main body 3. In this case, the posture detection unit 11d can detect (determine) the posture of the main body unit 3 by comparing the posture detection signal with the data stored in the storage unit 11f. The storage unit 11f can be a nonvolatile storage unit such as an HDD or NVRAM (Non Volatile RAM).

  Based on the detection result (discrimination result) of the posture detection unit 11d, the video posture control unit 11e has the main body 3 in the first posture P1 (FIG. 1) or the second posture P2 (FIG. 2). Control data that can be discriminated whether the posture is other than that, or the control data is sent to the video signal processing circuit 12. The video signal processing circuit 12 generates a video signal corresponding to the attitude of the main body 3 based on the received control data. That is, when the posture of the main body 3 is the first posture P1, the video signal processing circuit 12 generates a video signal with one side 4b of the display screen 4a facing upward, and the posture of the main body 3 is the second. In the case of the posture P2, the video signal is generated with the one side 4c of the display screen 4a facing upward. A video based on the video signal is displayed on the display screen of the display panel 4. Note that the video control mechanism 11 can perform adjustment of the range of video displayed on the display screen 4a and control of enlargement, reduction, arrangement, and the like according to the attitude of the main body unit 3.

  Here, in the present embodiment, when the posture of the main body 3 is a posture other than the first posture P1 (FIG. 1) and the second posture P2 (FIG. 2), the video signal processing circuit 12 A video signal corresponding to the posture is not generated, for example, a video signal corresponding to the first posture P1, a video signal corresponding to the second posture P2, or a video signal is not generated. That is, in the television apparatus 1 according to the present embodiment, the first posture P1 and the second posture P2 are defined as correct postures, and the postures other than these postures P1 and P2 are determined by the above-described operation of the video control mechanism 11. In this posture, the display screen 4a may display a vertically reversed image, a horizontally reversed image, or the like, or no image may be displayed. Therefore, it is possible to prompt the user to set the specified postures P1 and P2 by the video displayed on the display screen 4a. That is, according to the present embodiment, the above-described operation of the video control mechanism 11 can suppress the user from setting the main body 3 to a posture other than the first posture P1 and the second posture P2. . Note that when the main body unit 3 is in an incorrect posture, the video control mechanism 11 indicates that the posture of the main body unit 3 is not correct or a character or image that prompts the user to change the posture of the main body unit 3 to the correct posture. The video signal processing circuit 12 can be controlled so as to be displayed. In addition, a voice control mechanism (not shown) may be provided in the control circuit so that a voice indicating that the posture of the main body 3 is not correct or prompts to change to the correct posture can be output to a speaker, a buzzer, or the like.

  In the present embodiment, the display element 13 indicating at least one of the first posture P1 and the second posture P2 (both in the present embodiment) is provided on the front surface 3b of the housing 3a. The display element 13 can include a symbol indicating that it is above, characters, and the like. Therefore, in this embodiment, the display element 13 can present the correct posture to the user, and the user is prevented from setting the main body 3 to a posture other than the first posture P1 and the second posture P2. can do. In the present embodiment, the display element 13 corresponds to a posture presenting element that presents the user with a correct posture visually. Note that the user may be able to determine the correct posture (vertical direction) depending on the direction of the symbols and characters. Therefore, the character need not be a word or a sentence indicating the direction or posture, and may be a logo or the like as an example.

  Furthermore, by providing an engagement mechanism (not shown) in which a part of the stand 2 and a part of the main body 3 are mechanically engaged with each other, the first posture P1 is opposite to the second posture P2. It can be configured such that the main body 3 does not move in the direction, or the main body 3 does not move in the direction opposite to the first posture P1 from the second posture P2.

  As shown in FIGS. 1 and 2, a CPU 6 as a heating element and an electronic component is mounted on the substrate 5 a. Further, a heat radiation block 6a is placed on a die (not shown) of the CPU 6, and a heat receiving portion 7a of a heat pipe 7 as a heat transport mechanism is placed on the heat radiation block 6a. The heat receiving portion 7a is pressed onto the heat dissipation block 6a by a pressing member 8 fixed to the substrate 5a with screws 9 or the like as fasteners. In such a configuration, heat generated by the CPU 6 serving as a heating element is transmitted to the heat receiving portion 7a via the heat dissipation block 6a and the like.

  The heat pipe 7 as a heat transport mechanism has, for example, an oval flat cross-section tube made of a metal member (for example, a copper alloy) having a relatively high thermal conductivity. One end of the tube is a heat receiving portion 7a, the other end is a heat radiating portion 7b, and a space between the heat receiving portion 7a and the heat radiating portion 7b is a heat transfer portion 7c. A fin (not shown in FIGS. 1 and 2) configured by a thin plate of a metal member (for example, copper alloy) having a relatively high thermal conductivity is attached to the outside of the heat radiating portion 7b. A fan 10 is provided in the housing 3a at a position adjacent to the heat radiating portion 7b. The fan 10 has a thin flat appearance in the thickness direction of the substrate 5a and has a rotor (not shown) that rotates about a rotation axis along a direction perpendicular to the front and back surfaces of the substrate 5a. The fan 10 rotates the rotor with an electric motor, for example, air sucked from the inside of the housing 3a through intake ports (not shown) provided on both sides (both front and back sides) in the axial direction of the rotation shaft. Is discharged from an exhaust port (not shown) facing the heat radiating portion 7b. That is, the air flow exhausted from the fan 10 hits the heat radiating portion 7b and the fins, thereby cooling the heat radiating portion 7b and the fins. The fan 10 is disposed in a state of being fitted into an L-shaped notch 5b formed at a corner of the substrate 5a.

  In the pipe of the heat pipe 7, a heat transport medium such as alternative chlorofluorocarbon as a medium having relatively high volatility is enclosed. In the heat pipe 7, the heat transport medium that has been vaporized by heat from the CPU 6 in the heat receiving part 7a reaches the heat radiating part 7b via the heat transfer part 7c in a gaseous state, and is cooled by the heat radiating part 7b. And condensed into a liquid. The heat transport medium that has become liquid in the heat radiating unit 7b returns to the heat receiving unit 7a via the heat transfer unit 7c in a liquid state, and evaporates into a gas in the heat receiving unit 7a. That is, the heat transport medium transports heat from the heat receiving portion 7a to the heat radiating portion 7b by absorbing the latent heat at the heat receiving portion 7a and releasing the latent heat at the heat radiating portion 7b. That is, the heat generated by the CPU 6 as the heating element is transported to the heat radiating part 7b via the heat receiving part 7a and the heat transfer part 7c (heat transport medium flowing inside), and is transmitted from the heat radiating part 7b to the air flow. Then, the air is discharged out of the housing 3a through the exhaust port 3d provided in the housing 3a.

  In this embodiment, referring to FIGS. 1 and 2, the heat receiving portion 7a is positioned below the heat radiating portion 7b in both the first posture P1 (FIG. 1) and the second posture P2 (FIG. 2). You can understand that As an example, the arrangement of the heat receiving unit 7a and the heat radiating unit 7b is such that one side 4c of the display screen 4a which is upward in the second posture P2 is upper in the first posture P1 in the first posture P1. The left and right sides of the side 4b of the display screen 4a, which is one side (left side in the present embodiment) and the lower side, in the first posture P1, the heat receiving portion 7a is left and right with respect to the heat radiating portion 7b. Can be achieved by being arranged on the other side (right side in the present embodiment) and the lower side. In the heat pipe 7 as a heat transport mechanism, when the heat receiving portion 7a is in a so-called top heat state where the heat receiving portion 7a is located above the heat radiating portion 7b, the liquid heat transport medium is difficult to return from the heat radiating portion 7b to the heat receiving portion 7a. The heat transport efficiency, that is, the heat dissipation efficiency is lowered. In this respect, in the present embodiment, the heat receiving portion 7a is positioned below the heat radiating portion 7b in both the first posture P1 (FIG. 1) and the second posture P2 (FIG. 2) defined as the correct posture. It can suppress that heat transport efficiency, ie, heat dissipation efficiency, fall because heat receiving part 7a is located above heat dissipation part 7b.

  Moreover, in this embodiment, the heat radiating part 7b is arrange | positioned at the corner | angular part 3e of the housing | casing 3a used as an upper end by the 1st attitude | position P1 (FIG. 1) and the 2nd attitude | position P2 (FIG. 2). Inside the housing 3a, heat is likely to rise due to the airflow. Therefore, the heat radiating portion 7b is arranged at the corner 3e of the housing 3a which is the upper end in the first posture P1 and the second posture P2, so that heat hardly stays inside the housing 3a.

  As shown in FIGS. 4 and 5, in the present embodiment, an inclined surface 3 f whose normal direction faces upward and rearward is provided on the rear surface side (back surface side) of the housing 3 a. And the exhaust port 3d is formed in the inclined wall 3g which makes this inclined surface 3f in the corner | angular part 3e of the housing | casing 3a. Therefore, the air flow which is blown out from the fan 10 and heated by passing through the heat radiating portion 7b disposed in the corner 3e is provided at the corner 3e of the housing 3a and is opposed to the heat radiating portion 7b in the vicinity. Since 3d is discharged | emitted more smoothly, it becomes difficult to retain heat inside the housing | casing 3a. In addition, the air flow heated by passing through the heat radiating portion 7 b is not easily discharged to the front side of the main body portion 3.

  In the present embodiment, the CPU 6 as the heating element has the first posture P1 from the center Ct of the main body 3 (inside the housing 3a) when viewed from the front (that is, the line of sight of FIGS. 1 and 2) with respect to the display screen 4a. And in the second posture P2, it is arranged in a rectangular area Ar1 that is on the upper side (that is, in this embodiment, on the upper left side from the center Ct of the display screen 4a in FIG. 1. Therefore, heat is generated in the housing 3a. The upward air flow generated by the heat of the CPU 6 as a body or the air flow sucked into the fan 10 moves a relatively long distance in the housing 3a, so that a wider range of electronic components and the like in the housing 3a are affected by the heat. In addition, if the CPU 6 as a heating element is located at the center Ct, the area on the opposite side of the exhaust port 3d from the center Ct in the housing 3a. In this embodiment, both the first posture P1 and the second posture P2 have a CPU 6 as a heating element in the region on the exhaust port 3d side from the center Ct. Since it is arranged, the heated air is easily discharged outside the housing 3a.

Second Embodiment
As can be seen by referring to FIGS. 6 and 7 as FIGS. 1 and 2, the television apparatus 1A as the electronic apparatus according to the second embodiment is basically the same as the television apparatus 1 according to the first embodiment. It has the composition of.

  However, in the television apparatus 1A according to the present embodiment, the arrangement of the CPU 6, the heat pipe 7, the exhaust port 3d, and the like arranged inside the housing 3a is different from the first embodiment. Specifically, in the present embodiment, the arrangement of the CPU 6, the heat pipe 7, the exhaust port 3d, and the like in the first posture P1 shown in FIG. 6 is the second posture P2 of the first embodiment shown in FIG. The arrangement of the CPU 6, the heat pipe 7, the exhaust port 3d, etc. in the second posture P2 shown in FIG. 7 is the same as that in the first embodiment shown in FIG. This is the same as the arrangement in the posture P1 (but the mirror image relationship). Even in such a configuration, since the heat receiving portion 7a is positioned below the heat radiating portion 7b in both the first posture P1 and the second posture P2, the heat receiving portion 7a in this embodiment as well as the first embodiment. It can suppress that heat transport efficiency, ie, heat dissipation efficiency, fall by being located above the thermal radiation part 7b.

<Third Embodiment>
As shown in FIG. 8, a so-called notebook personal computer 20 as an electronic apparatus according to the present embodiment includes a rectangular flat first main body 21, a rectangular flat second main body 22, and the like. It is equipped with. The first main body 21 and the second main body 22 are connected via a joint 23 so as to be relatively rotatable.

  The first main body 21 has a display panel 25 such as an LCD as a display device in which the touch panel 24 is arranged on the front surface (display screen 25a) side in a state exposed on the front surface 21b side as the outer surface of the housing 21a, A push button mechanism 26 and the like are provided. On the other hand, the second main body 22 is exposed to the front surface 22b as the outer surface of the housing 22a, and a display panel 28 such as an LCD as a display device having a touch panel 27 on the front surface (display screen 28a) side. In addition, a push button mechanism 29 and the like are provided.

  In the unfolded state shown in FIG. 8, the display panels 25 and 28, the cover bodies 26a and 29a of the push button mechanisms 26 and 29, and the like are exposed, and the user can use them. On the other hand, in the folded state (not shown), the front surfaces 21b and 22b face each other in the state of being close to each other, and the display panels 25 and 28, the cover bodies 26a and 29a of the push button mechanisms 26 and 29, etc. The state is hidden by 22a. In the present embodiment, the touch panels 24 and 27, push button mechanisms 26 and 29, a microphone (not shown), and the like correspond to the input operation unit, and the display panels 25 and 28, a speaker (not shown), and the like are the output unit. It corresponds to. In a personal computer having a keyboard, a click button, a pointing device, etc. (not shown), these keyboard, click button, etc. also serve as an input operation unit.

  The joint portion 23 is a component that connects the first main body portion 21 and the second main body portion 22, and is configured as a separate component from the first main body portion 21 and the second main body portion 22. The joint portion 23 connects the end portion 21 c of the first main body portion 21 located on the base end side and the end portion 22 c of the second main body portion 22. At the center in the longitudinal direction of the edges 21d and 22d of the end portions 21c and 22c, rectangular notches 21e and 22e having a long opening width and a short depth are formed, leaving both end portions in the direction. ing. And half of the joint part 23 is inserted in one notch 21e, and the other half is inserted in the other notch 22e. The length L of the joint part 23 is slightly shorter than the width of the notches 21e and 22e. Further, the width W of the joint portion 23 is substantially the same as the total thickness of the first main body portion 21 and the second main body portion 22 that overlap each other in the folded state.

  The first main body portion 21 and the joint portion 23 are connected to each other so as to be capable of relative rotation about the rotation axis Ax1 via the first hinge mechanism 30A, and the second main body portion 22 and the joint portion 23 are connected. Is connected via the second hinge mechanism 30B so as to be relatively rotatable about the rotation axis Ax2. The rotation axis Ax1 and the rotation axis Ax2 are parallel to each other. In the present embodiment, the first hinge mechanism 30 </ b> A and the second hinge mechanism 30 </ b> B are interlocked with each other, the relative rotation angle around the rotation axis Ax <b> 1 of the first main body portion 21 with respect to the joint portion 23, and the joint. The relative rotation angle around the rotation axis Ax2 of the second main body portion 22 with respect to the portion 23 is the same. However, the relative rotation directions with respect to these joint portions 23 are opposite to each other. Therefore, when the user performs an operation of opening one of the first main body portion 21 and the second main body portion 22 with respect to the joint portion 23, the personal computer 20 is in an unfolded state. 20 is in a folded state. When the user performs an operation of opening the first main body 21 and the second main body 22, the personal computer 20 is in an unfolded state, and when the user performs an operation of closing, the personal computer 20 is in a folded state.

  In this embodiment, as shown in FIGS. 9 and 10, the substrate 31 a (see the substrate assembly 31, FIGS. 9 and 10, etc.) on which at least a part of the control circuit including electronic components is mounted is, for example, the second The main body 22 is disposed in a housing 22a. The display panel 28 and the substrate 31a are fixed to the housing 22a with screws or the like (not shown). On the other hand, as shown in FIG. 11, in the first main body portion 21, a battery 32 as a device power source is disposed on the rear side (back side) of the display panel 25. On the rear surface side of the first main body portion 21, a concave portion 21f having a rectangular shape in rear view is formed. The battery 32 is detachably attached to the housing 21a of the first main body 21 in a state of covering the recess 21f. Thus, in this embodiment, the board 31a (board assembly 31) on which the main electronic components such as the CPU 38 are mounted and the battery 32 are provided separately in the first main body 21 and the second main body 22. It has been. When the board assembly 31 and the battery 32 are integrated into one of the first main body portion 21 and the second main body portion 22, for example, the thickness of the main body portion increases, or conversely, the thickness of the battery 32 is restricted due to the thickness constraint Inconveniences such as the size and capacity tend to be limited tend to occur. In this respect, in the present embodiment, since the board assembly 31 and the battery 32 are provided separately in the first main body portion 21 and the second main body portion 22, it is possible to avoid such inconvenience. It becomes easy. However, in the first usage pattern U1 shown in FIG. 12, in order to stably place the personal computer 20 on a desk or the like, in this embodiment, the mass of the first main body 21 is the second main body. Greater than 22 masses. In the present embodiment, the first main body portion 21 corresponds to another main body portion connected to the second main body portion 22 in which the substrate assembly 31 is accommodated via the hinge mechanisms 30A and 30B so as to be relatively rotatable. . In addition, the display screen 25a of the display panel 25 of the first main body 21 corresponds to another display screen.

  The personal computer 20 according to this embodiment is used in the second usage pattern U2 shown in FIG. 13 and the third usage pattern U3 shown in FIG. 14 in addition to the first usage pattern U1 shown in FIG. Can be done. As shown in FIG. 13, the second usage pattern U <b> 2 is in a state where the first main body 21 and the second main body 22 are relatively widened, on both sides in the width direction of the first main body 21. This is a usage pattern in which the side edge portion 21g is held with both hands H. In this usage pattern, the user can operate the push button mechanism 26 with the thumb T of the hand H holding the first main body 21. Further, as shown in FIG. 14, the third usage pattern U <b> 3 is a state in which the first main body portion 21 and the second main body portion 22 are relatively widened, and the width direction of the first main body portion 21. This is a usage mode in which the side edge portion 21 h on one side and the side edge portion 22 f on one side in the width direction of the second main body portion 22 are gripped with both hands H. The second usage pattern U2 is the same as the first usage pattern U1 in terms of the user's field of view, but the user places the personal computer 20 on a desk or the like or uses it in a standing or sitting position. There is a difference between using with hand H. On the other hand, the third usage pattern U3 differs from the first and second usage patterns U1 and U2 in the direction of the display screens 25a and 28a of the display panels 25 and 28 by about 90 °.

  That is, in the personal computer 20 according to the present embodiment, the first posture P1 in which the one side 28b of the display screen 28a of the display panel 28 is positioned upward (see the first and second usage forms U1 and U2, FIGS. 12 and 13). ) And the second posture P2 (see the third usage pattern U3, see FIG. 14) in which another side 28c of the display screen 28a and one side 25b of the display screen 25a are positioned upward. One side 28b of the display screen 28a is one side away from the boundary portion Bd of the first and second main body portions 21 and 22. Further, another side 28c of the display screen 28a and one side 25b of the display screen 25a face each other across the boundary portion Bd. In the present embodiment, the first posture P1 of the display screen 28a is also the third posture P3 of the two display screens 28a and 25a, and the second posture P2 of the display screen 28a is the two of the two display screens 28a and 25a. This is also the fourth posture P4.

  The display panels 25 and 28 are each formed in a flat rectangular parallelepiped shape. The display panels 25 and 28 receive a display signal from a control circuit (none of which is shown) composed of electronic components and the like mounted on the substrate 31a, and display images such as still images and moving images. Also in the present embodiment, light indicating an image displayed on the display screens 25a and 28a of the display panels 25 and 28 passes through the colorless and transparent touch panels 24 and 27 and is emitted forward. The control circuit of the personal computer 20 includes a control unit, a storage unit (for example, ROM (Read Only Memory), RAM (Random Access Memory), HDD (Hard Disk Drive), etc.), an interface circuit, various controllers, and the like. ing. The personal computer 20 also incorporates a speaker for voice output (not shown).

  In the present embodiment, the control circuit has the same image as that in the first embodiment that controls the images displayed on the display screens 25a and 28a in accordance with the postures of the first and second main body portions 21 and 22. A control mechanism 11 (see FIG. 3) is included. Therefore, also in the personal computer 20 according to the present embodiment, when the postures of the first and second main body portions 21 and 22 are the first posture P1 (FIGS. 12 and 13), as in the first embodiment. When the video with the sides 25c and 28b of the display screens 25a and 28a facing upward is displayed and the postures of the first and second main body portions 21 and 22 are the second posture P2 (FIG. 14), the display is performed. An image with the sides 25b and 28c on the screens 25a and 28a facing upward is displayed. In addition, when the postures of the first and second main body portions 21 and 22 are postures other than the first and second postures P1 and P2, images corresponding to the postures are displayed on the display screens 25a and 28a. For example, an image corresponding to the first posture P1 or an image corresponding to the second posture P2 is displayed, or no image is displayed. Therefore, also in this embodiment, it is possible to prompt the user to set the specified postures P1 and P2 by the video displayed on the display screens 25a and 28a. That is, according to the present embodiment, the user sets the first and second main body portions 21 and 22 to a posture other than the first posture P1 and the second posture P2 by the above-described operation of the video control mechanism 11. Can be suppressed. In this embodiment, the video control mechanism 11 also indicates that the postures of the first and second main body portions 21 and 22 are not correct when the first and second main body portions 21 and 22 are in an incorrect posture. Alternatively, the video signal processing circuit 12 can be controlled so that characters, images, and the like that prompt the user to change the postures of the first and second main body portions 21 and 22 to the correct posture are displayed. In addition, a voice control mechanism (not shown) is provided in the control circuit so that the speaker and the buzzer are urged to indicate that the postures of the first and second main body portions 21 and 22 are not correct or to be changed to a correct posture. Audio can also be output. Each component of the video control mechanism 11 is mounted in one of the casings 21a and 22a of the first and second main body portions 21 and 22. Preferably, each component of the video control mechanism 11 is mounted in a housing 22a of the second main body 22 in which the board assembly 12 on which the main part of the control circuit is constructed is accommodated.

  Further, in the present embodiment, as shown in FIG. 11, the first and second main body portions 21 and 22 have irregularities on the portions that the user holds with the hand H in the first posture P1 and the second posture P2. A shape 39 is provided. The uneven shape 39 can be configured as, for example, a large number of small protrusions and unevenness, a groove formed in a mesh shape, a concave groove or a convex wall corresponding to the shape of the finger of the hand H, and the like. With such a configuration, the user can recognize that the concavo-convex shape 39 is grasped with the hand H in a state where the personal computer 20 is used in the correct posture P1, P2, and the portion where the concavo-convex shape 39 is not formed ( For example, it is possible to suppress the user from setting the personal computer 20 to a posture other than the first posture P1 and the second posture P2 by making the user feel uncomfortable when gripping a portion having a smooth surface. . In the present embodiment, the concavo-convex shape 39 corresponds to a posture presenting element that presents the user with a correct posture by touch.

  As shown in FIGS. 9 and 10, a CPU 38 as a heating element and an electronic component is mounted on the substrate 31a. Further, a heat dissipation block 38a is placed on a die (not shown) of the CPU 38, and a heat receiving portion 41a of a heat pipe 41 as a heat transport mechanism is placed on the heat dissipation block 38a. The heat receiving portion 41a is pressed onto the heat radiation block 38a by a pressing member 42 fixed to the substrate 31a with a screw 43 or the like as a fastener. In such a configuration, heat generated by the CPU 38 serving as a heating element is transmitted to the heat receiving portion 41a via the heat radiating block 38a and the like.

  The heat pipe 41 as a heat transport mechanism has, for example, an oval flat cross-section tube made of a metal member (for example, a copper alloy) having a relatively high thermal conductivity. One end of the tube is a heat receiving portion 41a, the other end is a heat radiating portion 41b, and a space between the heat receiving portion 41a and the heat radiating portion 41b is a heat transfer portion 41c. A plurality of fins 41d made of a thin plate of a metal member (for example, a copper alloy) having a relatively high thermal conductivity is provided outside the tube of the heat radiating portion 41b. Further, a fan 40 is provided at a position adjacent to the heat radiating portion 41b in the housing 22a. The fan 40 has a thin flat appearance in the thickness direction of the substrate 31a and has a rotor (not shown) that rotates around a rotation axis along a direction perpendicular to the front and back surfaces of the substrate 31a. The fan 40 rotates the rotor with an electric motor, for example, to radiate air sucked from the inside of the housing 22a through the intake ports 40a provided on both sides (both front and back sides) in the axial direction of the rotation shaft. It exhausts from the exhaust port (not shown) facing 41b. That is, the air flow exhausted from the fan 40 hits the heat radiating portion 41b and the fins 41d and the like, thereby cooling the heat radiating portions 41b and the fins. The fan 40 is disposed in a state of being fitted in an L-shaped notch 31b formed at a corner of the substrate 31a. The heat pipe 41 functions in the same manner as the heat pipe 41 of the first embodiment.

  As shown in FIG. 15, in this embodiment as well, as in the first embodiment, the first posture P1 (FIG. 15 (a)) and the second posture P2 (FIG. 15 (b)). In both cases, the heat receiving portion 41a is located below the heat radiating portion 41b. In the heat pipe 41 as the heat transport mechanism, when the heat receiving portion 41a is in a so-called top heat state where the heat receiving portion 41a is located above the heat radiating portion 41b, the liquid heat transport medium is difficult to return from the heat radiating portion 41b to the heat receiving portion 41a. The heat transport efficiency, that is, the heat dissipation efficiency is lowered. In this respect, in the present embodiment, the heat receiving portion 41a is positioned below the heat radiating portion 41b in both the first posture P1 and the second posture P2 defined as the correct posture, so the heat receiving portion 41a is the heat radiating portion 41b. It can suppress that heat transport efficiency, ie, heat dissipation efficiency, fall by being located upwards.

  Also in this embodiment, as shown in FIGS. 9, 10, and 15, the heat radiating portion 41 b is disposed at the corner 22 g of the housing 22 a that is the upper end in the first posture P <b> 1 and the second posture P <b> 2. Yes. Inside the housing 22a, heat is likely to rise due to the airflow. Therefore, the heat radiating portion 41b is arranged at the corner 22g of the housing 22a that is the upper end in the first posture P1 and the second posture P2, so that heat hardly stays inside the housing 22a.

  As shown in FIGS. 9, 10, and 11, in this embodiment, the exhaust port 22h is formed in the side wall 22i of the corner 22g of the housing 22a. Accordingly, the air flow that is blown out from the fan 40 and heated by passing through the heat radiating portion 41b disposed at the corner 22g is provided at the corner 22g of the housing 22a and faces the air outlet near the heat radiating portion 41b. Since it is discharged more smoothly from 22h, it becomes difficult for heat to stay inside the housing 22a.

  Further, as shown in FIG. 15, in the present embodiment, the CPU 38 as the heating element is second from the center Ct of the second main body 22 in the front view (that is, the line of sight in FIG. 15) with respect to the display screen 28a. It arrange | positions in the rectangular area | region Ar2 which becomes an upper side by the attitude | position P2. Therefore, the rising air flow generated by the heat of the CPU 38 as the heating element in the housing 22a or the air flow sucked into the fan 40 moves over a relatively long distance in the housing 22a, so that a wider range in the housing 22a. It is possible to suppress the electronic components and the like from being easily affected by the heat. In addition, if the CPU 38 as a heating element is located at the center Ct, it is heated in a region on the opposite side of the exhaust port 22h from the center Ct in the housing 22a (that is, on the opposite side of the corner 22g). There is a risk of air retention. In this regard, in the present embodiment, since the CPU 38 as the heating element is disposed in the region on the exhaust port 22h side (that is, the corner 22g side) from the center Ct in both the first posture P1 and the second posture P2. Heated air is easily discharged outside the housing 22a. Furthermore, in this embodiment, when the user grips the second main body 22 with the hand H, the user normally grips the opposite side of the rectangular area Ar2 with the hand H with respect to the center Ct which is downward in each posture. (See FIGS. 13 and 14). Therefore, the user holds the region of the second main body 22 that is separated from the CPU 38, the heat pipe 41, and the like with the hand H, so that the region is warmed by the heat from the CPU 38, the heat pipe 41, and the like of the housing 22a. Is not held by the hand H. That is, when the user grips the personal computer 20 with the hand H, the user does not have to feel uncomfortable with the case 22a being warmed.

  In the present embodiment, as shown in FIGS. 10 and 11, an intake port 22 j is provided at a position near the boundary portion Bd of the housing 22 a of the second main body portion 22 with the first main body portion 21. Yes. Therefore, in the present embodiment, since the intake port 22j is provided at a position away from the exhaust port 22h, the air flow in the housing 22a is introduced into the housing 22a from the intake port 22j and flows toward the exhaust port 22h. It becomes easier to cool a wider range.

  As shown in FIG. 10, the air inlet 22j is disposed on the outer side of the substrate 31a, that is, on the outer side in the direction along the surface of the substrate 31a from the edge 31e of the substrate 31a. Therefore, the air flow introduced from the intake port 22j is easily distributed to both the front and back sides of the substrate 31a, and the electronic components mounted on both the front side and the back side of the substrate 31a are easily cooled by the air flow. Note that the air inlet 22j may be disposed to face the edge 31e of the substrate 31a.

  As shown in FIGS. 16 and 17 and the like, the housing 22a of the second main body 22 includes a mask 34 and a case 35 as an external housing, and an inner plate 36 as an internal housing. The mask 34 and the case 35 serving as an external casing are integrated with each other by screwing, engagement, fitting, or the like, and constitute an outline of the casing 22a. Further, the inner plate 36 as the internal housing is fixed to the mask 34 or the case 35 (for example, the case 35) as the external housing by screwing or the like. The housing 22a houses the display panel 28 in a state where the display screen 28a is exposed on the front surface, and houses the substrate assembly 31. The inner plate 36 is between the display panel 28 and the substrate 31a (substrate assembly 31), that is, behind the display panel 28 (left side in FIG. 16, right side in FIG. 17) and in front of the substrate 31a. It is arranged at a certain position. And the board | substrate 31a is being fixed to the inner plate 36 with the screw (not shown) as a fixing tool. The display panel 28 is supported by the inner plate 36 and the mask 34.

  The substrate 31a is formed in a rectangular shape as shown in FIGS. However, a cutout 31b is formed in the substrate 31a. In this embodiment, as shown in FIGS. 16 and 17, a large number of electronic components 37 are mounted on both the front surface 31c and the rear surface (back surface) 31d of the substrate 31a. In the present embodiment, the relatively tall electronic component 37 is mounted on the front surface 31c, and the relatively short electronic component 37 is mounted on the rear surface 31d. Therefore, compared with the case where the tall electronic component 37 is mounted on both the front surface 31c and the rear surface 31d, the height (thickness) of the substrate assembly 31 including the substrate 31a and the electronic component 37 is suppressed from increasing. be able to.

  Further, in the present embodiment, as shown in FIGS. 9, 10, and 17, the SSD 33 as the electronic component 37 that is taller (larger in thickness) and larger in mounting area is disposed on the front surface 31c of the substrate 31a. Has been. As shown in FIGS. 9 and 10, the SSD 33 has a front surface 31 c of the substrate 31 a and an inner plate on the side (the right side in the figure) opposite to the side (the left side in the figure) on which the CPU 38 and the fan 40 are arranged. In the space Sf (see FIGS. 16 and 17) between the space 36 and the space 36, it is arranged like a partition wall. Therefore, in the present embodiment, by disposing the SSD 33 on the opposite side of the CPU 38 and the fan 40, the space Sf on the CPU 38 and the fan 40 side is made wider than the SSD 33, and the flow rate of the air flow Stf flowing through the space Sf is increased. Is larger.

  Further, as shown in FIGS. 10 and 11, the intake port 22j (that is, the small hole forming region) is provided in a relatively long and narrow region along the edge 35b. In a state where the second main body portion 22 is assembled, the edge 31 e on the base end side (hinge mechanism side) of the substrate 31 a is arranged away from the edge 35 b of the case 35. Thereby, between the front surface 31c of the board | substrate 31a and the inner plate 36 in the housing | casing 22a from the inlet port 22j provided in the bottom wall 35a of the case 35 in the outer side (lower side in FIG. 10) of the edge 31e. An air flow introduction portion toward the space Sf is formed. Further, the SSD 33 is disposed on the front surface 31c of the substrate 31a on the side away from the end edge 31e. With such a configuration, a space Sf (see FIG. 16) between the front surface 31c of the substrate 31a and the inner plate 36 is indicated by a dashed arrow in FIGS. 10 and 16 from the intake port 22j toward the exhaust port 22h. An air flow Stf is formed. In addition, an air flow Stb indicated by a broken line arrow in FIG. 16 is formed in the space (not shown) between the rear surface of the substrate 31a and the bottom wall 35a of the case 35, from the intake port 22j to the exhaust port 22h. Is done.

  The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above embodiments, and various modifications can be made. For example, in the above-described embodiment, the configuration in which the present invention is implemented as a television device or a notebook personal computer having two display screens is exemplified. However, the present invention is not limited to other electronic devices having at least one display screen. The present invention can also be implemented as a device, for example, a computer (notebook type or desktop type) having a single display screen, a PDA (Personal Digital Assistant), a smart book, a smartphone, a mobile phone terminal, or the like.

  In addition, specifications (methods) such as display devices, display screens, display panels, housings, heating elements, heat transport mechanisms, electronic components, fans, exhaust ports, intake ports, posture presentation elements, display elements, uneven shapes, hinge mechanisms, etc. The structure, shape, material, size, number, direction, type, arrangement, etc.) can be changed as appropriate.

  According to the embodiment of the present invention, it is possible to obtain a television device and an electronic device that can further suppress the temperature rise of the device.

  DESCRIPTION OF SYMBOLS 1,1A ... Television apparatus (electronic device), 3a ... Housing, 3d ... Exhaust port, 3e ... Corner, 4a ... Display screen, 4b ... One side, 4c ... (Other) side, 6 ... CPU (heating element) ), 7 ... Heat pipe (heat transport mechanism), 7a ... Heat receiving part, 7b ... Heat radiation part, 7c ... Heat transfer part, 10 ... Fan, 11a ... Control part, 11b ... Attitude sensor (sensor), 13 ... Display element ( (Posture presentation element), 21... (Another) main body, 22... Main body, 22 g... Corner, 22 h .. exhaust port, 22 j .. intake port, 25 a ... (another) display screen, 25 b. 1) side, 28a ... display screen, 28b ... one side, 28c ... (other) one side, 30A, 30B ... hinge mechanism, 32 ... battery, 38 ... CPU (heating element), 39 ... uneven shape (posture presentation element), 40 ... Fan, Ct ... Center.

Claims (12)

A display device having a rectangular display screen and used in a first posture in which one side of the display screen is positioned upward and a second posture in which another side orthogonal to the one side is positioned upward When,
A housing in which at least a part of the display device is accommodated and provided with an intake port and an exhaust port;
A heating element housed in the housing on the opposite side of the display screen to the display device;
A heat transport mechanism having at least a portion housed in the housing and receiving a heat receiving portion that receives heat from the heating element, and a heat radiating portion that radiates heat;
With
The heat receiving portion is positioned below the heat radiating portion in both the first posture and the second posture,
The exhaust port is located facing the heat radiating portion;
An electronic apparatus, wherein at least a part of the air inlet is opened on a surface of the housing opposite to the display screen and is spaced apart from the air outlet. A display device capable of switching and displaying the display screen between a first posture and a second posture rotated by 90 ° from the first posture;
A housing in which at least a part of the display device is accommodated;
A heating element housed in the housing at a position overlapping the display device;
A heat transport mechanism having a heat receiving portion that receives heat from the heating element, and a heat radiating portion positioned above the heat receiving portion in both the first posture and the second posture;
With electronic equipment.   3. The electronic device according to claim 1, wherein the heat dissipating unit is located at a corner of the casing that is an upper end in both the first posture and the second posture. The housing is provided with an intake port and an exhaust port,
The electronic device according to any one of claims 1 to 3, wherein the exhaust port is located at a corner portion of the casing that is an upper end portion in both the first posture and the second posture. .   The heating element is located in a region in the casing that is above the center in a front view with respect to the display screen in both the first posture and the second posture. The electronic device as described in any one of them. A sensor for detecting the posture;
A control unit that switches a vertical direction of the display screen to a direction corresponding to the first posture or the second posture based on a detection result by the sensor;
With
The control unit does not switch the vertical direction of the display screen to a direction corresponding to an upside down posture with respect to the first posture and an upside down posture with respect to the second posture. The electronic device as described in any one. A second display device having a rectangular second display screen;
A folded state in which at least a part of the second display device is accommodated and the display screen and the second display screen are close to each other and faced to each other via a hinge mechanism and the second display A second housing that is pivotally connected between an expanded state in which the screen is positioned on the opposite side of the one side of the display screen and the display screen and the second display screen are expanded;
The electronic device according to claim 1, comprising: The housing is provided with an intake port and an exhaust port,
The electronic apparatus according to claim 7, wherein the air inlet is provided at an end of the housing on the second housing side.   The electronic device according to claim 7 or 8, wherein a battery as a device power source is attached to the second casing.   The electronic device according to claim 1, further comprising an attitude presentation element that indicates to the user that the user is at least one of the first attitude and the second attitude.   A television receiver having the characteristics according to claim 1. A display device having a rectangular display screen and used in a first posture in which one side of the display screen is positioned upward and a second posture in which another side orthogonal to the one side is positioned upward When,
A housing in which at least a part of the display device is accommodated and provided with an intake port and an exhaust port;
A heating element housed in the housing on the opposite side of the display screen to the display device;
A heat transport mechanism having at least a portion housed in the housing and receiving a heat receiving portion that receives heat from the heating element, and a heat radiating portion that radiates heat;
An electronic device comprising:
The heat receiving portion is positioned below the heat radiating portion in both the first posture and the second posture;
The exhaust port is located facing the heat radiating portion;
At least a part of the air inlet is opened on a surface of the housing opposite to the display screen, and is spaced apart from the air outlet, and the front view with respect to the display screen in a use state An electronic device positioned away from the peripheral edge of the electronic device.

Images