JP2008236167A - Video display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve removing workability in a removable HDD and to prevent the approach of noise, concerning a video display device. <P>SOLUTION: A circuit part is arranged by superimposition on the backside of a display part. An HDD socket, where the removable HDD is removably mounted, is arranged on the side surface of the circuit part. AC power source wiring, by which AC power is supplied to a power source circuit board with a power source circuit formed thereon, and the HDD socket are arranged on both the sides of a signal circuit board. Intersection and paralleling at adjacent positions are evaded between HDD socket connection wiring for connecting the signal circuit board to the HDD socket and the AC power source wiring. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a video display device such as a plasma display device or a liquid crystal display device, and more particularly to an arrangement of circuit boards and wiring between circuit boards in a circuit section.

  Conventional techniques related to the present invention and described in the patent literature include those described in Japanese Patent Application Laid-Open No. 2004-326013 (Patent Document 1) and Japanese Patent Application Laid-Open No. 2006-279836 (Patent Document 2). There is. In Japanese Patent Laid-Open No. 2004-326013, a hard disk drive as a storage device is provided on a shield plate on the rear surface side of the display device as a low-cost display device capable of reading and writing a large amount of data, easily attaching and detaching the storage device. The configuration described in the above is described. In this configuration, the hard disk drive is inserted into an opening provided in a planar area on the rear surface side of the display device from above the opening, and is fixed to the shield plate with a plurality of bolts. Further, the upper part of the opening is covered with a bolt-fixed cover. Japanese Patent Application Laid-Open No. 2006-279836 describes a configuration in which an HDD (Hard Disk Drive) unit is detachably accommodated in a stand that supports the apparatus main body as a video signal processing apparatus and a television broadcast receiving apparatus. In this configuration, the HDD unit case includes a pair of component storage portions and a connecting portion that connects between the end portions of the component storage portions. The HDD main body is stored in one of the component storage portions, and the connector. Is attached, and the handle portion is provided near the component storage portion in which the HDD main body is stored.

JP 2004-326013 A JP 2006-279836 A

  In the technique described in Japanese Patent Application Laid-Open No. 2004-326013, since the hard disk drive is provided on the rear surface side of the display device, the operator must display the display device each time the hard disk drive is attached to or detached from the display device. The hard disk drive is fixed to the shield plate with a plurality of bolts in the opening, and the cover covering the opening is also fixed with the plurality of bolts. It is impossible to attach and detach the drive to the display device with a single touch. For this reason, with the technique described in Japanese Patent Application Laid-Open No. 2004-326013, it is expected that the hard disk drive mounting / removing operation is complicated and takes time. Further, in the technique described in Japanese Patent Application Laid-Open No. 2006-279836, since the HDD (hard disk drive) unit is housed in a stand for supporting the apparatus main body, the size and weight of the stand increase. In addition, wiring for this purpose is also required between the apparatus main body and noise easily enters the HDD (Hard Disk Drive) unit from the wiring. If noise enters, the recording or reproducing operation of the HDD (hard disk drive) may stop. Furthermore, when the stand is on the floor surface, when attaching / detaching the HDD unit, an operator needs to perform the attaching / detaching operation at a low position, and it is expected that the operation is difficult.

In view of the above-described prior art, the problem of the present invention is that in a removable hard disk drive (hereinafter referred to as “removable HDD”) video display device, noise enters the removable HDD, and the temperature of the removable HDD increases. It is to be able to be suppressed.
An object of the present invention is to provide an image display device that solves the above-described problems, is easy to use, and ensures reliability.

  In order to solve the above-described problems, in the present invention, as a video display device, an HDD socket in which a removable HDD is detachably loaded is provided on a side surface side of the circuit unit in a circuit unit arranged on the back side of the display unit. In addition, the AC power supply wiring for supplying AC power to the power supply circuit board on which the power supply circuit is formed, the signal circuit board on which the signal processing circuit is formed, and the HDD socket are divided on both sides of the signal circuit board. It is set as the structure to distribute. Such a configuration improves the detachability of the removable HDD, and the AC power supply wiring and the HDD socket connection wiring for connecting the signal circuit board and the HDD socket cross each other or become parallel at a close position. To prevent noise from entering the removable HDD.

  According to the present invention, in the video display device, it is possible to improve the reliability of the device by suppressing the influence of noise on the removable HDD.

Embodiments of the present invention will be described below with reference to the drawings.
1 to 3 are explanatory views of a first embodiment of the present invention. FIG. 1 is a configuration diagram of a video display device as a first embodiment of the present invention, FIG. 2 is a comparative diagram for explaining the configuration of the video display device of FIG. 1, and FIG. 3 is a diagram of the video display device of FIG. It is an external view. The first embodiment is an example of a plasma display device including an HDD socket in which a removable HDD for recording signals is detachably loaded.

  In FIG. 1, reference numeral 1a denotes a plasma display device that displays an image by display discharge based on an input video signal, and 11 includes address electrodes and display discharge electrodes arranged in a matrix and are addressed. A display unit 12 for discharging the cells between the electrodes to perform the above-described image display, is arranged on the back surface (−Z axis direction) side of the display unit 11 so as to overlap the display unit 11 in a plane, and drives the device , 10 is a cover that covers a part of the display unit 11 and the circuit unit 12, 13 is a stand that supports the display unit 11, the circuit unit 12, and the cover 10, 121 is a power circuit board, and 121a is a power circuit board. 121 is a power supply circuit that forms and outputs device driving power of a predetermined voltage based on AC power input from the outside, 122 is a signal circuit board, 122a is on the signal circuit board 122 A signal processing circuit that is formed and includes an image processing circuit, a microcomputer, etc., that processes an input video signal and outputs a signal that can be displayed on the display unit 11, and 1221 to 1223 are connection terminal portions of the signal processing circuit 122a. , 123 are provided on the signal circuit board 122 and store a signal processed by the signal processing circuit 122a. Reference numerals 1231 and 1232 denote connection terminals of the storage part 123. Reference numerals 124 and 125 denote display electrodes. The drive circuit board 124a is formed on the display electrode drive circuit board 124, and one of the display discharge electrodes in the display unit 11, for example, a display electrode drive circuit for driving the Y electrode, 125a is the display electrode drive circuit. A display electrode driving circuit that is formed on the substrate 125 and drives the other of the display discharge electrodes in the display unit 11, for example, an X electrode; 13 Are a built-in HDD (hard disk drive) (hereinafter referred to as a built-in HDD) and 132 provided in the circuit unit 12 for recording the input video signal or the signal processed by the signal processing circuit 122a. The removable HDD 133 is provided on the side surface in the X-axis direction of the circuit unit 12, and is an HDD socket in which the removable HDD 132 is detachably mounted. The 151 is a video signal input / output terminal or HDMI (High Definition Multimedia Interface). ) And the like are provided on the input / output terminal board. The HDD socket 133 has a configuration in which the user can attach and detach the removable HDD 132 by a one-touch operation.

  In addition, 141 is an AC power supply line that is connected to the power supply circuit board 121 and supplies the AC power from the outside to the power supply circuit 121a. 161 is connected in the middle of the AC power supply line 141, and A power switch for turning on and off the supply to the power circuit 121, 141 a is a switch connection portion on the AC power wiring 141 to which the power switch 161 is connected, and 142 is a connection between the signal circuit board 122 and the HDD socket 133. Wiring for connecting between them (FIG. 1 shows a state where the storage unit 123 and the HDD socket 133 are connected) (hereinafter referred to as HDD socket connecting wiring), 143 is the signal circuit board 122 and the built-in HDD 131. (FIG. 1 shows a state in which the storage unit 123 and the built-in HDD 131 are connected to each other) (Hereinafter referred to as a built-in HDD connection wiring) 144 is a wiring for connecting the power circuit board 121 and the signal circuit board 122 (hereinafter referred to as a power circuit board connection wiring), 145 and 146 are the signals A wiring for connecting the circuit board 122 and the input / output terminal board 151 (hereinafter referred to as an input / output terminal board connecting wiring), cc ′, is a horizontal direction (X axis) of the plane (XY plane) of the display unit 11. Direction) centerline.

The power circuit board 121, the signal circuit board 122, and the HDD socket 133 are arranged at different positions in a plane parallel to the plane (XY plane) of the display unit 11, and the AC power wiring 141 and the HDD socket 133 are The circuit board 122 is arranged on both sides. In the configuration of FIG. 1, the AC power supply wiring 141 and the HDD socket connection wiring 142 are also arranged separately on both sides of the signal circuit board 122. The distance between the wirings is 10 × 10 ⁻² m or more.

As shown in FIG. 2, the HDD socket 133 is on the side surface in the X-axis direction of the circuit unit 12 in the cover 10, and the removable HDD 132 is in a plane substantially parallel to the plane (XY plane) of the display unit 11. -It is set as the structure which moves along the X-axis direction and an X-axis direction, and is attached or detached. Further, the HDD socket 133 has a height in the Y-axis direction of the horizontal center line cc ′ of the plane of the display unit 11 in the plane of the circuit unit 12 parallel to the plane (XY plane) of the display unit 11. It is arranged below the y _c position. The HDD socket 133 is disposed below the height position of the signal circuit board 122 in the Y-axis direction. Further, the HDD socket 133 is also arranged below the height position in the Y-axis direction with respect to the display electrode drive circuit boards 124 and 125. Furthermore, the signal circuit board 122 is disposed below the height position of the power circuit board 121 in the Y-axis direction.
The power switch 161 is provided on the lower surface (−Y-axis direction end surface) side of the circuit unit 12 or the display unit 11 and on the side opposite to the HDD socket connection wiring 142 with respect to the signal circuit board 122. The input / output terminal board 151 is provided below the signal circuit board 122, and the input / output terminal board connection wirings 145 and 146 are arranged below the signal circuit board 122.

As described above, in the plasma display device 1a of FIGS. 1 and 2, since the AC power supply wiring 141 and the HDD socket 133 are separately arranged on both sides of the signal circuit board 122, the AC power supply wiring 141 and the HDD are arranged. The socket connection wiring 142 can also be arranged separately on both sides of the signal circuit board 122. As a result, the two wirings do not cross each other, and the distance between them is 10 × 10 ⁻² m or more. Yes. As described above, the HDD socket connection wiring 142 is arranged not to intersect with the AC power supply wiring 141 and at a sufficient distance, so that noise entering the HDD socket connection wiring 142 from the AC power supply wiring 141 is reduced. The influence of noise on the removable HDD can be suppressed to a low level that does not impede practical use. Since the input / output terminal board 151 is provided below the signal circuit board 122 and the input / output terminal board connection wirings 145 and 146 are arranged below the signal circuit board 122, the AC power supply wiring 141 is connected to the input circuit board. The output terminal board connection wirings 145 and 146 can be prevented from intersecting with each other, and as a result, noise entering the input / output terminal board connection wirings 145 and 146 from the AC power supply wiring 141 can be suppressed to a low level that does not impede practical use. it can. According to an experiment, when the AC power supply wiring 141 and the HDD socket connection wiring 142 are not intersecting, if the separation distance between the two wirings is 5 × 10 ⁻² m or more, the AC power supply wiring 141 is connected to the HDD. The influence on the removable HDD due to noise entering the socket connection wiring 142 is at a level that does not hinder practical use.

In the plasma display device 1a of FIGS. 1 and 2, the HDD socket 133 is placed in a plane parallel to the plane (XY plane) of the display unit 11 with respect to the height position in the Y-axis direction of the power circuit board 121. Needless to say, it is located below the height y _c position in the Y-axis direction of the horizontal center line cc ′ of the horizontal plane of the display unit 11, and further, the Y of the signal circuit board 122. Since it is arranged below the height position in the axial direction and the height position in the Y-axis direction of the display electrode drive circuit boards 124 and 125, the power supply circuit board 121, the display electrode drive circuit boards 124 and 125, and the signal circuit It is difficult to be affected by the heat generated in the substrate 122, and therefore, the temperature rise of the removable HDD due to the heat can be suppressed.

For example, when the arrangement position of the HDD socket 133 in the circuit unit 12 is changed as shown in FIG. 3, that is, the HDD socket 133 is located on the side surface side of the circuit unit 12 and the horizontal center of the plane of the display unit 11. When the line cc ′ is provided above the height y _c position in the Y-axis direction and arranged on the same side as the AC power supply wiring 141 with respect to the signal circuit board 122, the HDD socket connection wiring 142 is A state in which the signal circuit board 122 is arranged on the same side as the AC power supply wiring 141 and intersects each other (P portion in FIG. 3) and has a parallel portion close to (Q portion in FIG. 3). Become. Thus, in a state where the HDD socket connection wiring 142 has a parallel portion that intersects and is close to the AC power supply wiring 141, noise entering the HDD socket connection wiring 142 from the AC power supply wiring 141 is likely to increase, and the HDD socket 133 In some cases, the removable HDD stops the recording / reproducing operation due to the noise. In such a configuration, for example, when noise (hereinafter referred to as AC line noise) due to operation of another electrical product enters the AC power supply wiring 141 from an outlet or the like, the noise enters the HDD socket connection wiring 142, The operation of the removable HDD in the HDD socket 133 is disturbed or stopped.

  In a video display device such as a television receiver including a plasma display device, as noise to be noted, in addition to the AC line noise, discharge noise caused by lightning entering from an antenna (hereinafter referred to as antenna discharge noise) In addition, discharge noise caused by electrostatic discharge when the cable is inserted into the input / output terminal of the input / output terminal board 151 (hereinafter referred to as terminal discharge noise), ripple noise generated due to the operation of the display unit, etc. However, it is necessary to pay attention to these in view of ensuring the operation of the removable HDD.

  In the configuration of the plasma display device 1 ′ of FIG. 3, the HDD socket 133 is located above the height position in the Y-axis direction of the signal circuit board 122 and overlaps the display electrode driving circuit board 124 in a plane. Therefore, the removable HDD easily rises in temperature due to the influence of heat generated in the signal circuit board 122 and the display electrode drive circuit board 124. For example, according to an experiment, when the temperature of the external environment of the apparatus is 35 ° C., the temperature of the space portion at the position of the input / output terminal board 151 on the lower side of the signal circuit board 122 in the cover 10 of the plasma display apparatus is about The temperature of the space portion at the position of 40 ° C. and the power supply circuit board 121 is about 60 ° C., and the temperature between the two space portions is an intermediate temperature between these two temperatures. Therefore, at the position where the HDD socket 133 in FIG. 3 is arranged, when the temperature of the external environment of the apparatus is 35 ° C., the temperature becomes about 50 ° C., and the removable HDD is heated at this temperature. Since the upper limit of the use temperature of the removable HDD 132 is considered to be about 50 ° C. from the viewpoint of ensuring stable normal operation, there is no margin in the configuration of FIG. For this reason, it is necessary to arrange the HDD socket 133 at a lower position. In the configuration of FIG. 1, the HDD socket 133 is arranged below the display electrode drive circuit board 125 so as to suppress the temperature rise.

In the configuration of FIG. 3, the HDD socket 133 is located on the side surface side of the circuit unit 12 and above the height y _c position in the Y-axis direction of the horizontal center line cc ′ on the plane of the display unit 11. Therefore, when the removable HDD 132 is attached to or detached from the HDD socket 133, the rotational moment about the Z axis acting on the apparatus is large. For this reason, when the apparatus is lightweight, the apparatus may move during the attaching / detaching operation. On the other hand, in the plasma display device 1a of FIGS. 1 and 2, the HDD socket 133 is connected to the lower side of the display electrode driving circuit board 125, that is, the side surface side of the circuit unit 12 as described above. Since it is provided in the vicinity of the lower portion, it is possible to reduce the rotational moment around the Z axis that acts on the device when the removable HDD 132 is attached to and detached from the HDD socket 133, and the device moves during the attachment and detachment work. Can be prevented. 1 and 2, the HDD socket 133 is on the side surface in the X-axis direction of the circuit unit 12 in the cover 10, and the removable HDD 132 is on the plane (XY plane) of the display unit 11. Since it is configured to be attached and detached by moving along the −X axis direction and the X axis direction in a substantially parallel plane, the user can easily attach and detach the removable HDD 132 and is loaded in the HDD socket 133. It is also possible to prevent inconvenience such as the removable HDD 132 falling off due to its own weight.

  As described above, according to the first embodiment of the present invention, the removable HDD 132 can be easily attached to and detached from the HDD socket 133 in a short time. Further, the influence of noise from the AC power supply wiring 141 to the removable HDD 132 can be suppressed low. Further, the temperature rise of the removable HDD 132 can be suppressed low. As a result, it is possible to provide a plasma display device 1a that is easy to use and ensures reliability.

  FIG. 4 is a block diagram of the second embodiment of the present invention. The second embodiment is also an example in the case of a plasma display device having an HDD socket in which a removable HDD is detachably loaded, and the plasma display device 1a as the first embodiment shown in FIG. Are different in the arrangement position of the input / output terminal board 151 and the arrangement position of the input / output terminal board connection wirings 145 and 146 connecting the input / output terminal board 151 and the signal circuit board 122. In addition, the configuration and arrangement position of the HDD socket and the like are the same as those of the plasma display device 1a.

  In FIG. 4, 1b is the plasma display device of the second embodiment. Other reference numerals are the same as those in FIG. In the present plasma display device 1 b, the input / output terminal substrate 151 is provided on the uppermost portion of the circuit unit 12 above the power supply circuit substrate 121. For this reason, even if the position of the input / output terminal board 151 is far from the position of the signal circuit board 122 and terminal discharge noise or the like occurs in the input / output terminal board 151, the signal processing circuit 122a is less susceptible to the influence. Further, in the plasma display device 1b of FIG. 4, since the HDD socket 133 has the same configuration and arrangement as in the plasma display device 1a, the AC power supply for the removable HDD 132 is the same as described in the first embodiment. The effects and effects of reducing the influence of noise from the wiring 141, reducing the temperature rise, facilitating the attachment / detachment work, and shortening the required time can be obtained.

  FIG. 5 is a block diagram of the third embodiment of the present invention. The third embodiment is also a case of a plasma display device having an HDD socket in which a removable HDD is detachably loaded. As in the case of the second embodiment, the first embodiment shown in FIG. The plasma display device 1a as an embodiment includes an arrangement position of the input / output terminal board 151 and arrangement positions of the input / output terminal board connection wirings 145 and 146 that connect the input / output terminal board 151 and the signal circuit board 122. Only the difference. In addition, the configuration and arrangement of the HDD socket and the like are the same as those of the plasma display device 1a.

  In FIG. 5, 1c is the plasma display device of the third embodiment. Other reference numerals are the same as those in FIG. In the plasma display device 1 b, the input / output terminal substrate 151 is provided above the HDD socket 133 on the side surface side in the X-axis direction of the circuit unit 12. Therefore, in this case as well, as in the case of FIG. 4, the position of the input / output terminal board 151 is far from the position of the signal circuit board 122, and signal discharge noise or the like occurs in the input / output terminal board 151. The processing circuit 122a is not easily affected. Further, in the plasma display device 1c of FIG. 5, the HDD socket 133 has the same configuration and arrangement as in the case of the plasma display device 1a. The effects and effects of reducing the influence of noise from the wiring 141, reducing the temperature rise, facilitating the attachment / detachment work, and shortening the required time can be obtained.

  FIG. 6 is a block diagram of the fourth embodiment of the present invention. The fourth embodiment is also an example of a plasma display device having an HDD socket in which a removable HDD is detachably loaded. As in the second and third embodiments, FIG. The plasma display device 1a according to the first embodiment shown in the figure is the input / output terminal board connection wiring 145 that connects the input / output terminal board 151 and the input / output terminal board 151 to the signal circuit board 122. Only the arrangement position of 146 is different. In addition, the configuration and arrangement of other parts such as the HDD socket are the same as those of the plasma display device 1a.

  In FIG. 6, 1d is the plasma display device of the fourth embodiment. Other reference numerals are the same as those in FIG. In the present plasma display device 1 b, the input / output terminal substrate 151 is provided on the side surface side of the circuit unit 12 in the −X axis direction. Therefore, in this case as well as in the case of FIG. 4, the position of the input / output terminal board 151 is far from the position of the signal circuit board 122, and terminal discharge noise or the like occurs in the input / output terminal board 151. The signal processing circuit 122a is less susceptible to the influence. In the plasma display device 1d of FIG. 6, since the HDD socket 133 has the same configuration and arrangement as in the plasma display device 1a, the AC power supply for the removable HDD 132 is the same as described in the first embodiment. The effects and effects of reducing the influence of noise from the wiring 141, reducing the temperature rise, facilitating the attachment / detachment work, and shortening the required time can be obtained.

FIG. 7 is a block diagram of the fifth embodiment of the present invention. The fifth embodiment is a case of a liquid crystal display device including an HDD socket in which a removable HDD is detachably loaded.
In FIG. 7, reference numeral 1e denotes a liquid crystal display device that displays an image by forming an optical image corresponding to an input video signal by modulating light applied to the liquid crystal display element. A display unit 12 for displaying is a circuit unit that is arranged in a plane overlapping the display unit 11 on the back surface (−Z axis direction) side of the display unit 11, and 10 is a part of the display unit 11. And a cover for covering the circuit unit 12, 13 is a stand for supporting the display unit 11, the circuit unit 12 and the cover 10, 121 is a power circuit board, 121 a is formed on the power circuit board 121, and is input from the outside A power supply circuit that generates and outputs device driving power of a predetermined voltage based on AC power, 122 is a signal circuit board, 122a is formed on the signal circuit board 122, and includes an image processing circuit, a microcomputer, and the like. A signal processing circuit that performs signal processing on the output video signal and outputs a signal that can be displayed on the display unit 11, 1221 to 1223 are connection terminal portions of the signal processing circuit 122 a, and 123 is provided on the signal circuit board 122. A storage unit for storing the signal processed by the processing circuit 122a, 1231 and 1232 are connection terminal units of the storage unit 123, 131 is a built-in HDD provided in the circuit unit 12, and 132 is the input video signal. Alternatively, a removable HDD 133 for recording the signal processed by the signal processing circuit 122a is provided on the side surface in the −X-axis direction of the circuit unit 12, and is an HDD socket in which the removable HDD 132 is detachably loaded. 151 are input / output terminal boards provided with video signal input / output terminals and HDMI terminals. The HDD socket 133 has a configuration in which the user can attach and detach the removable HDD 132 by a one-touch operation.

  In addition, 141 is an AC power supply line that is connected to the power supply circuit board 121 and supplies the AC power from the outside to the power supply circuit 121a, and 161 is connected in the middle of the AC power supply line 141, and an AC power supply circuit from the outside. A power switch 141 for turning on / off the supply to the power supply 121, a switch connection portion on the AC power wiring 141 to which the power switch 161 is connected, and 142 between the signal circuit board 122 and the HDD socket 133. Wiring to be connected (FIG. 7 shows a state in which the storage unit 123 and the HDD socket 133 are connected) (hereinafter referred to as HDD socket connecting wiring) 143 is the signal circuit board 122 and the built-in HDD 131. Wiring for connecting the storage units (in FIG. 7, the storage unit 123 and the built-in HDD 131 are connected) 144 is a wiring for connecting the power circuit board 121 and the signal circuit board 122 (hereinafter referred to as a power circuit board connection wiring), and 145 and 146 are the signal circuit board 122. A wiring connecting the input / output terminal board 151 (hereinafter referred to as an input / output terminal board connecting wiring) cc ′ is a horizontal (X-axis direction) center line of the plane (XY plane) of the display unit 11. It is.

  The power circuit board 121, the signal circuit board 122, and the HDD socket 133 are arranged at different positions in a plane parallel to the plane (XY plane) of the display unit 11, and the AC power wiring 141 and the HDD socket 133 are The circuit board 122 is arranged on both sides. Further, the HDD socket 133, the power supply circuit board 121, and the signal circuit board 122 are arranged side by side in the horizontal direction (X-axis direction).

The HDD socket 133 is on the side surface in the −X axis direction of the circuit unit 12 in the cover 10, and the removable HDD 132 moves in a direction (−X axis direction) substantially parallel to the plane (XY plane) of the display unit 11. It is configured to be detachable. Further, the HDD socket 133 has a height in the Y-axis direction of the horizontal center line cc ′ of the plane of the display unit 11 in the plane of the circuit unit 12 parallel to the plane (XY plane) of the display unit 11. It is arranged below the y _c position. The HDD socket 133 is disposed below the height position of the signal circuit board 122 in the Y-axis direction.

  The power switch 161 is provided on the lower surface (−Y-axis direction end surface) side of the circuit unit 12 or the display unit 11. The input / output terminal board 151 is provided in the horizontal direction (−X axis direction) of the signal circuit board 122, and the input / output terminal board connection wirings 145 and 146 are provided in the horizontal direction (−X axis direction) of the signal circuit board 122. It is supposed to be arranged.

As described above, in the liquid crystal display device 1e of FIG. 7, the HDD socket 133, the power circuit board 121, and the signal circuit board 122 are arranged side by side in the horizontal direction (X-axis direction), and the AC power wiring 141 and the HDD socket are arranged. 133 is arranged separately on both sides of the signal circuit board 122, the AC power supply wiring 141 and the HDD socket connection wiring 142 can be arranged at a long distance. As a result, the two wirings are The distance between each other is 10 × 10 ⁻² m or more without intersecting. As described above, the HDD socket connection wiring 142 is arranged not to intersect with the AC power supply wiring 141 and at a sufficient distance, so that noise entering the HDD socket connection wiring 142 from the AC power supply wiring 141 is reduced. The influence of noise on the removable HDD can be suppressed to a low level that does not impede practical use. Further, since the input / output terminal board 151 is arranged in the lateral direction (−X axis direction) of the signal circuit board 122, the AC power supply wiring 141 does not intersect the input / output terminal board connection wirings 145 and 146. As a result, noise that enters the input / output terminal board connection wirings 145 and 146 from the AC power supply wiring 141 can be suppressed to a low level that does not hinder practical use. According to an experiment, when the AC power supply wiring 141 and the HDD socket connection wiring 142 are not intersecting, if the separation distance between the two wirings is 5 × 10 ⁻² m or more, the AC power supply wiring 141 is connected to the HDD socket. It has been confirmed that the influence on the removable HDD caused by noise entering the connection wiring 142 is at a level that does not hinder practical use.

In the plasma display device 1e of FIG. 7, the HDD socket 133 is arranged side by side in the horizontal direction (X-axis direction) with the power circuit board 121 and the signal circuit board 122, and the plane of the display unit 11 (XY plane). In the plane parallel to the horizontal direction, the horizontal center line cc ′ of the plane of the display unit 11 is below the position of the height y _c in the Y-axis direction, and further, the power circuit board 121 and the signal circuit board The removable HDD is less susceptible to the heat generated in the power supply circuit board 121 and the signal circuit board 122 because of being arranged below the height position of the Y axis direction of 122. The temperature rise of the removed removable HDD can be suppressed. Further, since the power circuit board 121 and the signal circuit board 122 are also arranged side by side in the horizontal direction (X-axis direction) as described above, the signal circuit board 122 is affected by the heat generated by the power circuit board 121. The power circuit board 121 is not easily affected by the heat generated in the signal circuit board 12.

  Further, in the liquid crystal display device 1e of FIG. 7, the HDD socket 133 is provided in the vicinity of the lowermost portion on the side surface side of the circuit unit 12 as described above, so that the removable HDD 132 is attached to and detached from the HDD socket 133. The rotational moment about the Z-axis acting on the device can be reduced, and the device can be prevented from moving during the attachment / detachment work. The HDD socket 133 is on the side surface in the X-axis direction of the circuit unit 12 in the cover 10, and the removable HDD 132 is in the X-axis direction and the −X-axis in a plane substantially parallel to the plane (XY plane) of the display unit 11. The user can easily attach and detach the removable HDD 132 by moving along the direction, and the removable HDD 132 loaded in the HDD socket 133 falls off the HDD socket 133 by its own weight. Inconvenience can also be prevented.

  As described above, according to the fifth embodiment of the present invention, the removable HDD 132 can be easily attached to and detached from the HDD socket 133 in a short time. Further, the influence of noise from the AC power supply wiring 141 to the removable HDD 132 can be suppressed low. Further, the temperature rise of the removable HDD 132 can be suppressed low. As a result, it is possible to provide a liquid crystal display device 1e that is easy to use and ensures reliability.

  FIG. 8 is a block diagram of the sixth embodiment of the present invention. The sixth embodiment is also an example of a liquid crystal display device having an HDD socket in which a removable HDD is detachably loaded, and the liquid crystal display device 1e as the fifth embodiment shown in FIG. Are different in the arrangement position of the input / output terminal board 151 and the arrangement position of the input / output terminal board connection wirings 145 and 146 connecting the input / output terminal board 151 and the signal circuit board 122. In addition, the arrangement of the HDD socket and the like is the same as that of the liquid crystal display device 1e of the fifth embodiment.

  In FIG. 8, 1f is a liquid crystal display device as a sixth embodiment. Other reference numerals are the same as those in FIG. In the present liquid crystal display device 1 f, the input / output terminal substrate 151 is provided below the power circuit board 121 and the signal circuit board 122 at the bottom of the circuit unit 12. For this reason, the position of the input / output terminal board 151 is far from the position of the signal circuit board 122, and even when terminal discharge noise or the like occurs in the input / output terminal board 151, the signal processing circuit 122a is hardly affected. Further, in the liquid crystal display device 1f of FIG. 8, the HDD socket 133 has the same arrangement as that of the liquid crystal display device 1e of FIG. 7, and therefore, the removable HDD 132 similar to that described in the fifth embodiment. The effects and effects of reducing the influence of noise from the AC power supply wiring 141, reducing the temperature rise, facilitating attachment / detachment work, and shortening the required time can be obtained.

  FIG. 9 is a block diagram of the seventh embodiment of the present invention. The seventh embodiment is also an example of a liquid crystal display device including an HDD socket in which a removable HDD is detachably loaded, and the liquid crystal display device 1e as the fifth embodiment shown in FIG. Are different in the arrangement position of the input / output terminal board 151 and the arrangement position of the input / output terminal board connection wirings 145 and 146 connecting the input / output terminal board 151 and the signal circuit board 122. In addition, the arrangement of the HDD socket and the like is the same as that of the liquid crystal display device 1e of the fifth embodiment.

  In FIG. 9, 1g is a liquid crystal display device as a seventh embodiment. Other reference numerals are the same as those in FIG. In the present liquid crystal display device 1g, the input / output terminal board 151 is provided on the uppermost part of the circuit unit 12 above the power circuit board 121 and the signal circuit board 122. For this reason, the AC power supply wiring 141, HDD socket connection wiring 142, built-in HDD connection wiring 143, power supply circuit board connection wiring 144, and input / output terminal board connection wirings 145 and 146 are arranged in the plane (XY plane) of the circuit unit 12, respectively. In this case, each of the wirings can be a wiring that does not pass between the substrates, between the substrate and the built-in HDD 131, between the substrate and the HDD socket 132, or the like. For this reason, the influence of noise between each connection wiring and each board | substrate 121,122, between each connection wiring and built-in type HDD 131, and between each connection wiring and the removable HDD132 can be suppressed. . Further, in the liquid crystal display device 1g of FIG. 9, the HDD socket 133 has the same arrangement as that of the liquid crystal display device 1e of FIG. 7, so that the removable HDD 132 similar to that described in the fifth embodiment is used. The effects and effects of reducing the influence of noise from the AC power supply wiring 141, reducing the temperature rise, facilitating attachment / detachment work, and shortening the required time can be obtained.

  In each of the above embodiments, the case where a part of the removable HDD 132 loaded in the HDD socket 133 protrudes from the outer surface of the cover 10 is illustrated, but the removable HDD 132 does not protrude from the outer surface of the cover 10. May be. In addition, the HDD socket 133 in each of the above embodiments is not limited to the one in which one type of removable HDD 132 is loaded, and may be one that can accommodate a plurality of types of removable HDDs 132 having different sizes.

  Further, in the embodiment shown in FIGS. 1 to 9, it goes without saying that the same effect can be obtained even if the position of the HDD socket 133 into which the removable HDD 132 is inserted and the position of the AC power wiring 141 are reversed left and right. . Furthermore, in the above-described embodiments, the liquid crystal display device and the plasma display device are described as examples of the video display device. However, a display device using other display elements, such as an organic EL (organic electroluminescence) or FED (Field Emission). The present invention can also be applied to a display device using a display.

It is a block diagram of the video display apparatus of 1st Example of this invention. FIG. 2 is a comparative diagram for explaining the configuration of the video display device in FIG. 1. It is an external view of the video display apparatus of FIG. It is a block diagram of the video display apparatus of 2nd Example of this invention. It is a block diagram of the video display apparatus of the 3rd Example of this invention. It is a block diagram of the video display apparatus of the 4th Example of this invention. It is a block diagram of the video display apparatus of the 5th Example of this invention. It is a block diagram of the video display apparatus of the 6th Example of this invention. It is a block diagram of the video display apparatus of the 7th Example of this invention.

Explanation of symbols

1a, 1b, 1c, 1d ... plasma display device,
1e, 1f, 1g ... liquid crystal display device,
10 ... cover,
11 ... display part,
12 ... circuit part,
13 ... stand,
121 ... power circuit board,
121a ... power supply circuit,
122 ... signal circuit board,
122a ... Signal processing circuit,
1221 to 1223, 1231, 1232 ... terminal portions for connection,
123 ... storage section,
... 124, 125 ... display electrode drive circuit board,
124a, 125a ... display electrode driving circuit,
131 ... Built-in HDD,
132: Removable HDD,
133 ... HDD socket,
151 ... Input / output terminal board,
141 ... AC power supply wiring,
161: Power switch,
141a ... switch connection part,
142 ... HDD socket connection wiring,
143 ... Built-in HDD connection wiring,
144: Power supply circuit board connection wiring,
145, 146: Input / output terminal board connection wirings.

Claims (8)

A video display device for displaying video based on an input video signal,
A display unit for displaying the image;
A circuit unit that is disposed on the back side of the display unit and drives the device;
Comprising
The circuit section is
A power supply circuit board on which a power supply circuit that forms and outputs power for driving a device having a predetermined voltage based on AC power input from the outside is formed;
A signal circuit board formed with a signal processing circuit that processes an input video signal and outputs a signal that can be displayed on the display unit;
An HDD socket provided on a side surface of the circuit unit, in which a removable HDD for recording the input video signal or the signal processed by the signal processing circuit is detachably loaded;
AC power supply wiring for supplying the AC power to the power supply circuit board;
HDD socket connection wiring for connecting between the signal circuit board and the HDD socket;
And the power circuit board, the signal circuit board, and the HDD socket are arranged at different positions in a plane parallel to the plane of the display unit, and the AC power wiring and the HDD socket are connected to the signal. An image display device characterized in that it is configured separately on both sides of a circuit board.   The video display device according to claim 1, wherein the HDD socket is configured such that the removable HDD moves in a direction substantially parallel to a plane of the display unit and is attached and detached.   The said HDD socket is distribute | arranged below the height position of the horizontal direction centerline of the said display part plane in the plane of the said circuit part parallel to the plane of the said display part. Video display device.   The video display device according to claim 1, wherein the HDD socket is disposed below the signal circuit board.   4. The video display device according to claim 1, wherein the AC power supply wiring and the HDD socket connection wiring are separately arranged on both sides of the signal circuit board.   The AC power supply wiring is connected to a power switch for turning on and off the supply of the AC power to the power supply circuit board. The power switch is on the lower surface side of the circuit unit or the display unit, and 4. The video display device according to claim 1, wherein the video display device is provided on a side opposite to the HDD socket connection wiring across a circuit board. The video display device is a plasma display device,
In the above circuit part,
The signal circuit board is disposed below the power supply circuit board,
7. The video display according to claim 1, wherein the HDD socket is arranged on a lower side than a substrate on which a display electrode driving circuit for driving an electrode for display discharge in the display unit is formed. apparatus. The video display device is a liquid crystal display device,
In the above circuit part,
The video display device according to claim 1, wherein the HDD socket, the power circuit board, and the signal circuit board are arranged side by side in a horizontal direction.

Images