JP4133159B2 - Electronic computer system and operation status display method thereof - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic computer system and an operation status display method thereof, and is particularly suitable for an electronic computer system including a display unit for displaying the operation status of the system and an operation status display method thereof.
[0002]
[Prior art]
As disclosed in Japanese Patent Application Laid-Open No. 2002-108486 (Patent Document 1), a conventional electronic computer system is constructed by including a main body, a display device, a keyboard, a remote controller, and a mouse. There is something. The main body is provided with an elongated sub-display unit made up of an LED and a small-screen liquid crystal display on the front surface, and includes various components including a controller, a disk drive device, and a CD drive device. Further, the display device is arranged on a stand member and includes a main display unit and a speaker made of a large-screen liquid crystal display.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2002-108486 (page 7-8, FIGS. 16-17)
[0004]
[Problems to be solved by the invention]
However, in the electronic computer system of Patent Document 1, the LED and the sub display unit are not arranged so as to face various components built in the main body, and the LED simply displays and the operation by the small screen sub display unit. Since it is a display, there exists a subject that it is difficult to grasp | ascertain the operating condition of each component easily and specifically.
[0005]
An object of the present invention is to provide an easy-to-use electronic computer system capable of easily and specifically grasping operating states of a plurality of devices, and an operating status display method thereof.
[0006]
[Means for Solving the Problems]
In order to achieve the above-described object, the present invention provides a main body having a device housed in a box, a display unit that displays an operation status of the device in a lighting state, and a control unit that controls the device and the display unit. Part, a display device having a display screen, and an input device for inputting data to the main body, a plurality of the devices are juxtaposed to face the front of the box, and the boxes are juxtaposed The front surface is divided into regions facing each device, the display unit is disposed at a boundary portion of each region, and has an LED corresponding to each region, and the control unit includes the device During operation, the lighting control is performed so that the lighting of a large number of the LEDs is shown as a movement and repeated.
In order to achieve the above-described object, the present invention provides a main body having a device housed in a box, a display unit that displays an operation status of the device in a lighting state, and a control unit that controls the device and the display unit. Part, a display device having a display screen, and an input device for inputting data to the main body, a plurality of the devices are juxtaposed to face the front of the box, and the boxes are juxtaposed The front surface is divided into regions facing each device, the display unit is disposed at a boundary portion of each region, and has an LED corresponding to each region, and the control unit includes the device During the operation, the lighting of the plurality of LEDs is controlled so that the device in operation can be specified.
In order to achieve the above-described object, the present invention provides a main body having a device housed in a box, a display unit that displays an operation status of the device in a lighting state, and a control unit that controls the device and the display unit. Part, a display device having a display screen, and an input device for inputting data to the main body, a plurality of the devices are juxtaposed to face the front of the box, and the boxes are juxtaposed The front surface is divided into regions facing each device, the display unit is disposed at a boundary portion of each region, and has a pair of LEDs corresponding to each of the regions, the control unit, During the operation of the device, the lighting of a large number of the LEDs is sequentially changed so as to appear to be a constant movement, and the lighting of the numerous LEDs is controlled so that the device in operation can be specified.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0008]
An outline of an electronic computer system according to an embodiment of the present invention will be described with reference to FIG. The electronic computer system 1 according to the present embodiment includes a main body 2, a display device 3, and an input device 4, and has a function as a personal computer. The main body 2 and the display device 3 are connected via a wiring 3a so that data transmission / reception and power supply are performed. The input device 4 includes a keyboard 5, a mouse 6, and a remote controller (not shown). The main body 2 is connected to the keyboard 5 through the wiring 5 a and is connected to the mouse 6 through the wiring 6 a so as to capture data input by the keyboard 5 and the mouse 6. The keyboard 5 and the main body 2 may be connected wirelessly.
[0009]
The main body 2 is thin (elongated) and configured by housing a plurality of devices in a substantially rectangular box 2a. The front surface of the main body 2 is divided into a plurality of regions 2b. This region 2b is divided into upper, lower, left and right, and is arranged in the circumferential direction around the center of the front surface of the box 2a. The region 2b includes a door and a cover that can be opened and closed corresponding to the device. Below, a door and a cover are demonstrated using the same code | symbol 2b as an area | region.
[0010]
A display unit 2c that displays the operating status of the system in a lighting state is provided at the center of the front surface of the main unit 2. This display portion 2c is provided so as to light up corresponding to each region 2b, and specifically, is formed in an annular shape at a portion where the boundary line of each region 2b intersects (the front center portion of the box 2a). . A power switch 2d is disposed at the center of the display unit 2c. A pair of LEDs (orange LED and green LED) having different emission colors are arranged inside the power switch 2d, and the lighting state of the LEDs can be visually recognized from the front of the power switch 2d. The power switch 2d does not necessarily have to be lit, and at least the display unit 2c may be configured to shine. In addition, the display part 2c and the power switch 2d are provided in a state of being slightly recessed from the front surface of the box 2a.
[0011]
The display device 3 includes a display screen 3a, a speaker 3b, a remote control light receiving unit 3c, and a power switch 3d on the front surface. The display screen 3a is composed of an LCD and displays characters, images and videos. The speakers 3b are arranged on both sides of the display screen 3a and output sound.
[0012]
A more specific configuration of the electronic computer system 1 will be described with reference to FIG.
[0013]
The main unit 2 includes an external interface 2e, a first optical disc device 2f, a second optical disc device 2g, an HDD device 2h, and the like, a power source 2i, a control unit 2j, a display unit 2c, and a power switch 2d. It is configured with.
[0014]
The control unit 2j is composed of a control board and controls the main control of the electronic computer system 1. The display unit 2c is connected to the control unit 2j, and a predetermined lighting display is performed under the control of the control unit 2j. The power switch 2d and the power source 2i are connected to the control unit 2j, and the power source 2i is turned on and off by operating the power switch 2d. The external interface 2e, the first optical disk device 2f, the second optical disk device 2g, and the HDD device 2h constitute a device that performs operations, data recording, reproduction, data transmission / reception, and the like. It is stored.
[0015]
The external interface 2e has an interface function that enables an external device and the control unit 2j to be connected. The external interface 2e is connected to external devices including a keyboard 5, a mouse 6, headphones 7, a microphone 8, a network 9, an AV device 10, and the like. The keyboard 5, mouse 6, network 9 and AV device 10 constitute an input device, and the headphone 7, microphone 8, network 9 and AV device 10 constitute an output device. The AV device 10 is composed of a television, an audio device, and the like, and the electronic computer system 1 is also operated as an AV device.
[0016]
The display device 3 includes a display screen 3a, a speaker 3b, a remote control light receiving unit 3c, a power switch 3d, a progress status display unit 3e, an external interface 3f, a power source 3g, and the like connected to the control unit 3h. The control unit 3h is composed of a control board, and controls the display device 3. An external interface 2e, a mouse 6, headphones 7, and a microphone 8 are connected to the external interface 3f as external devices.
[0017]
The keyboard 5 includes keys 5a, shortcut keys 5b, an external interface 5c, and the like. An external interface 2e, a mouse 6, headphones 7, and a microphone 8 are connected to the external interface 5c as external devices.
[0018]
Next, a specific structure of the main body 2 will be described with reference to FIGS.
[0019]
A plurality of devices 2e to 2h for transmitting and receiving data are juxtaposed in the box 2a of the main body 2 so as to face the front surface, and a large number of devices 2e to 2h are arranged in the circumferential direction with the center portion of the front surface as the central axis. Specifically, the devices 2e to 2h are arranged at four locations on the top, bottom, left, and right facing the front surface of the box 2a.
[0020]
The region 2b formed on the front surface of the box 2a is provided so as to be divided into a plurality of parts facing the devices 2e to 2h. Specifically, the region 2b is divided into four parts, top, bottom, left and right, corresponding to the four devices 2e to 2h.
[0021]
The display unit 2c is arranged at the boundary portion of each region 2b. Specifically, the display unit 2c is formed in an annular shape and disposed at a portion where the boundary of the region 2b intersects, and is positioned at the center of the devices 2e to 2h and at the center of the front surface of the box 2a. .
[0022]
The power source 2i is disposed behind the devices 2f and 2g. The control part 2j is located at one corner in the box 2a and is arranged extending in the front-rear direction. The external interface 2e is mounted before and after the controller 2j, and the front external interface 2e faces one of the areas 2b.
[0023]
6 and 7, the front surface of the box 2a corresponds to the door 2b corresponding to the first optical disc device 2f, the door 2b corresponding to the second optical disc device 2g, and the HDD device 2h. A cover 2b and a door 2b corresponding to the external interface 2e and the control unit 2j are provided. Since the door 2b and the cover 2b constitute a region in which the front surface of the box 2a is partitioned, the region can be easily recognized.
[0024]
The door 2b corresponding to the first optical disc device 2f and the second optical disc device 2g is normally closed as shown in FIG. 6 (a), but is opened in the same direction as shown in FIG. 6 (b). Thus, the first optical disk device 2f and the second optical disk device 2g can be easily taken out. The doors 2b can be opened and closed on both sides as shown in FIGS. 8A and 8B, so that the first optical disk device 2f and the second optical disk device 2g can be taken out more easily. Can be done.
[0025]
Next, a specific structure of the display unit 2c will be described with reference to FIGS. The display unit 2c includes an annular lens 2c1 and a number of LEDs 2c2. The LED 2c2 is composed of a pair of LEDs (green LED and blue LED) having different emission colors (see FIG. 9B). In FIG. 9B, the green LED is small and the blue LED is large, but the same size may be used. The lens 2c1 is disposed so as to be exposed on the front surface of the box 2a, and the LED 2c2 is disposed circumferentially so as to face the rear of the lens 2c1. LED2c2 is provided corresponding to each area | region 2b, and is provided also in the middle. The lighting state of the LED 2c2 is controlled by the control unit 2j.
[0026]
In addition, as the shape of the display part 2c, various shapes can be considered as shown in FIGS.
[0027]
Next, a specific lighting mode of the display unit 2c will be described with reference to FIGS. The lighting modes in these figures are selectively controlled by the control unit 2j.
[0028]
The state from the state where the power source 2i is completely turned off to the starting state will be described with reference to FIG.
[0029]
In a state where the power source 2i is completely turned off (a state where the power plug of the main body unit 2 is not inserted into the outlet), as shown in FIG. 12A, the front surface of the main body unit 2a is not illuminated (the display unit 2c). And the power switch 2d is not emitting light).
[0030]
From this state, when the power plug of the main unit 2 is inserted into the outlet and only the main unit 2 is energized, as shown in FIG. 12 (b), the lower left region (region corresponding to the HDD device 2h and the power source 2i) 2b. The corresponding green LED is lit. As a result, the user can easily grasp the standby state in which only the main body 2 is energized.
[0031]
When the power switch 2d of the main unit 2 is pressed from this state, the green LED is turned on so that the entire display unit 2c shines in green as shown in FIG. The blue LED located in the middle between the area 2b corresponding to the optical disk device 2f and the upper right area (area corresponding to the second optical disk device 2g) 2b is turned on, and the activation starts. Thereby, the user can easily grasp the start of the activation of the main body 2. The lower right area 2b is an area corresponding to the external interface 2e and the control unit 2j.
[0032]
In the state where the whole is shining lightly in green, the blue LED is controlled to turn on once and repeat as shown in FIG. 12D (see arrow). Thereby, the user can easily grasp that the main body 2 is being activated.
[0033]
In the activated state, as shown in FIG. 12 (e), the blue LED is turned off, and the entire display unit 2c is only turned on with a green LED that glows pale green. As a result, the user can easily grasp that the main body 2 is activated.
[0034]
Another mode from the standby state to the activated state of the power supply 2i will be described with reference to FIG.
[0035]
When the power source 2i is in a standby state, only the central portion of the power switch 2d is lit as shown in FIG. A mark may be put on the central portion of the power switch 2d so that the mark lights up. In this case, the grasping of the lighting state becomes clearer.
[0036]
When the power switch 2d of the main body 2 is pressed from this state, the lighting of the blue LED is controlled to rotate once as shown in FIG. 13B (see arrow). The rotation of the blue LED is continuously performed during startup, and the rotation time is controlled to coincide with the startup time. Thereby, the user can easily grasp that the main body 2 is being activated.
[0037]
In the activated state, as shown in FIG. 13 (c), the blue LED is turned off, and the entire display unit 2c is turned on only in green and the central part of the power switch 2d is turned on. . As a result, the user can easily grasp that the main body 2 is activated.
[0038]
The lighting state of the display unit 2c when the devices 2e to 2h are operated in the startup state in which the entire display unit 2c is light and glows green will be described with reference to FIG. 14A to 14F show lighting states in different modes.
[0039]
FIG. 14A shows a state where the HDD device 2h is in operation. In this state, while the green LED corresponding to the upper left and upper right area 2b is lit lightly, the green LED corresponding to the lower left and lower right area 2b is lit darkly, and the blue LED is rounded as described above. Lights up to rotate. That is, when the HDD device 2h is in operation, the green LED is lit in shades so that the side of the HDD device 2h in operation can be specified, and the lighting of a large number of blue LEDs is sequentially changed and repeated. Thus, the user can easily and specifically grasp that the HDD device 2h side is in operation. In addition, the green LED that is darkly lit can be easily viewed with the lower half, but if necessary, only the HDD device 2h can be specified so that only the lower left green LED is lit darkly. You may be able to. This applies also in the lighting mode of FIG.
[0040]
FIG. 14B shows a state in which the first optical disk device 2f or the second optical disk device 2g is in operation. In this state, the green LEDs corresponding to the lower left and lower right areas 2b are lit lightly, the green LEDs corresponding to the upper left and upper right areas 2b are lit darkly, and the blue LEDs are lit so as to rotate when rounded. . Thereby, the user can easily and specifically grasp that the first optical disc device 2f and the second optical disc device 2g are in operation.
[0041]
FIG. 14C shows a state where the entire main body 2 is in operation. In this state, the green LEDs corresponding to all the regions 2b are lit darkly, and the blue LEDs are lit so as to rotate when they are rounded. Thereby, the user can grasp | ascertain easily and specifically that the main-body part 2 whole is working.
[0042]
FIG. 14D shows different modes in which the HDD device 2h is operating. In this state, the green LEDs corresponding to the upper left and upper right areas 2b are lit lightly, while the green LEDs corresponding to the lower left and lower right areas 2b are lit dark and the blue LEDs are turned off. Thus, the user can specifically grasp that the HDD device 2h is in operation, and can reduce the number of times of turning on / off the blue LED.
[0043]
FIG. 14E shows different modes in which the first optical disk device 2f or the second optical disk device 2g is in operation. In this state, while the green LEDs corresponding to the lower left and lower right regions 2b are lit lightly, the green LEDs corresponding to the upper left and upper right regions 2b are darkly lit and the blue LEDs are turned off. Thus, the user can specifically grasp that the first optical disk device 2f or the second optical disk device 2g is in operation, and can reduce the number of times the blue LED is turned on / off.
[0044]
The lighting state of the display unit 2c in the sleep state of the main body unit 2 will be described with reference to FIG. FIGS. 15A to 15B show lighting states in different modes.
[0045]
A first mode in the sleep state is shown in FIG. In this state, as shown in the upper part, the entire green LED of the display unit 2c is lit light for a predetermined time, and then the entire green LED is lit dark for a predetermined time as shown in the lower part. The repetition continues during the sleep state. Thereby, the user can easily grasp that the electronic computer system 1 is sleeping. The light and dark lighting repetition interval is changed, and a short sleep state is set when the interval is short, and a deep sleep state is set when the interval is long. Thereby, the user can grasp the depth of the sleep state of the electronic computer system 1.
[0046]
The second mode in the sleep state is shown in FIG. In this state, as shown in the upper part, after the entire display unit 2c is turned off for a predetermined time, the whole green LED is turned on darkly for a predetermined time as shown in the lower part, and the repetition of turning off and turning on darkly is a sleep state. For the duration. Thereby, the user can easily grasp that the electronic computer system 1 is sleeping.
[0047]
Further, by combining the first mode and the second mode, the depth of the sleep state can be expressed by using the first mode as a shallow sleep state and the second mode as a deep sleep state.
[0048]
A lighting state in which the transmitting side and the receiving side of the operating devices 2e to 2h can be specified will be described with reference to FIG. FIGS. 16A to 16B show lighting states in different modes.
[0049]
FIG. 16A shows a lighting state mode that enables the transmitting-side HDD device 2h and the receiving-side external interface 2e to be identified. In this state, the blue LED corresponding to the HDD device 2h on the transmission side is turned on, and the lighting is sequentially shifted to the external interface 2e on the reception side, and this is repeated (see arrows). As a result, the user can specifically grasp the operating state of the plurality of external devices 2 external interface 2e, and based on this, the user can easily shift to the next operation, thereby improving usability.
[0050]
FIG. 16A shows a lighting mode in which the transmitting-side external interface 2e and the receiving-side second optical disk device 2g can be specified. In this state, the blue LED corresponding to the external interface 2e on the transmission side is lit, and the lighting is sequentially shifted to the second optical disk device 2g on the reception side, and this is repeated (see arrows). Accordingly, the user can specifically grasp the operating states of the plurality of devices 2e and 2g, and based on this, the user can easily shift to the next operation, thereby improving usability.
[0051]
The lighting state of the display unit 3c that displays the completion of the task of the device will be described with reference to FIG. FIGS. 17A to 17C show lighting states of different modes of the display unit 3c.
[0052]
FIG. 17A shows the task end operation of recording in the HDD device 2h, and the blue LED corresponding to the HDD device 2h blinks only for a short time. FIG. 17B shows a mail incoming operation to the external interface 2e, and the blue LED corresponding to the external interface 2e blinks only for a short time. FIG. 17C shows the task end operation of writing to the first optical disk device 2f, and the blue LED corresponding to the first optical disk device 2f blinks for a short time only. In these operations, the blue LED blinks only for a short time at the moment of termination or incoming call, and performs an eye-catching operation, and thereafter, the blue LED is turned on in accordance with the area. Thereby, the user can settle down and visually recognize the operation state displayed on the display unit 3c. In addition, you may make it provide this display display part 3c in the keyboard 5. FIG.
[0053]
According to the electronic computer system of the present embodiment, a plurality of devices 2e to 2h are juxtaposed so as to face the front surface of the box 2a, and the box 2a has a front surface in a region 2b facing each of the juxtaposed devices 2e to 2h. The display unit 2c is arranged at the boundary of each region 2b and has an LED 2c2 corresponding to each region. The control unit 2j sequentially changes the lighting of a number of LEDs 2c2 when the devices 2e to 2h are in operation. In addition, it is configured to control the lighting of a plurality of LEDs so as to be able to identify a device that is in operation, so that the operation state of the plurality of devices 2e to 2h can be easily and specifically grasped. A good electronic computer system 1 can be provided.
[0054]
Further, according to the electronic computer system of the present embodiment, the display unit 2c includes the LEDs 2c2 corresponding to the plurality of devices 2e to 2h and the LEDs 2c2 arranged between these LEDs 2c2, and the control unit 2j is the transmission side device. Since the LED is controlled to be repeatedly turned on sequentially from the LED side corresponding to the receiving side device to the LED side corresponding to the receiving side device, the operation of the devices 2e to 2h is less expensive than the display by the small liquid crystal screen. It is very easy to identify the state.
[0055]
Furthermore, according to the computer system of the present embodiment, the devices 2e to 2h are juxtaposed in the box 2a of the main body 2 so as to face the front, and the front of the box 2a of the main body 2 is juxtaposed. The display unit 2c is provided so as to correspond to the segmented region, and the control unit 2j corresponds to the transmitting side of the devices 2e to 2h that are operating on the display unit 2c. Since the configuration is such that the transition from the area to the area corresponding to the receiving side is repeated, the devices 2e to 2h in operation can be identified more easily.
[0056]
Furthermore, according to the electronic computer system of the present embodiment, a large number of devices 2e to 2h are arranged in the circumferential direction with respect to the center of the front surface, and the regions are arranged in the circumferential direction facing the devices 2e to 2h. Since the display unit 2c is located at the center of the devices 2e to 2h and is arranged in the center of the front surface over the area corresponding to each device 2e to 2h, the display unit 2c is arranged between the devices 2e to 2h. This space can be effectively used and installed in a place where the display unit 2c is easy to see.
[0057]
Next, a second embodiment of the present invention will be described with reference to FIG. FIG. 18A is a first example of the second embodiment, and FIG. 18B is a second example of the second embodiment. The second embodiment is different from the first embodiment as described below, and is basically the same as the first embodiment in other points.
[0058]
In the first example of FIG. 18A, a region 2b corresponding to the first optical disc device and the second optical disc device is provided separately on the upper right side of the vertically long main body 2, and the HDD device and the external A region 2b corresponding to the interface is provided separately. A display unit 2c is provided corresponding to these regions 2b. The display unit 2c is provided so as to extend up and down adjacent to the region 2b arranged up and down. In the display unit 2c, LEDs 2c2 for displaying the operation states of the first optical disk device, the second optical disk device, the HDD device, and the external interface are juxtaposed vertically. The LED 2c2 that displays the operating state of the first optical disk device and the second optical disk device is arranged corresponding to the upper region 2b, and the LED 2c2 that displays the operating state of the HDD device and the external interface is displayed in the lower region 2b. Correspondingly arranged. The operating state of each device is displayed by the shade of the color of these LEDs 2c2. For example, in a state where the first optical disk device and the second optical disk device are operating, the operating state is displayed by the shading of the LED 2c2, and the upper (first optical disk device) to the lower (second optical disk device) in the display unit 2c. The optical disc device) or the lower (second optical disc device) to the upper (first optical disc device) is displayed so as to show a linear motion.
[0059]
According to the first example, since the display unit 2c corresponds to each region 2b over a wide range, it is very easy to identify an operating device. In addition, since the area 2b in which a plurality of optical disk devices are grouped and the area 2b of the HDD device are divided, the operating state corresponding to the type of equipment can be easily recognized, and the usability is good.
[0060]
In the second example of FIG. 18B, a region 2b corresponding to the device is provided on the right side of the main body 2, and a display unit 2c is provided adjacent to the left side thereof. In the area 2b, the area 2b corresponding to the first optical disk apparatus corresponds to the uppermost level, the area 2b corresponding to the second optical disk apparatus corresponds to the lower area, the area 2b corresponding to the HDD apparatus corresponds to the lower area, and corresponds to the external interface. The region 2b to be processed is provided separately at the lowermost stage. A display unit 2c is provided corresponding to these regions 2b. The display unit 2c is provided so as to extend up and down adjacent to the entire region 2b arranged up and down. In the display unit 2c, LEDs 2c2 for displaying the operating states of the first optical disk device, the second optical disk device, the HDD device, and the external interface are juxtaposed in the vertical direction corresponding to the respective areas 2b. The operating state of each device is displayed by the shade of the color of these LEDs 2c2. For example, in a state where the first optical disk device and the second optical disk device are operating, the operating state is displayed by the shading of the LED 2c2, and the upper (first optical disk device) to the lower (second optical disk device) in the display unit 2c. The optical disc device) or the lower (second optical disc device) to the upper (first optical disc device) is displayed so as to show a linear motion.
[0061]
According to the second example, since the display unit 2c corresponds to each region 2b over a wide range, it is very easy to identify an operating device. Further, since the LED is provided corresponding to the region 2b divided so as to correspond to each device, each device can be identified and its operating state can be easily visually confirmed, and the usability is good.
[0062]
【The invention's effect】
As described above, according to the present invention, it is possible to obtain an easy-to-use electronic computer system capable of easily and specifically grasping the operation states of a plurality of devices and an operation status display method thereof.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an electronic computer system according to an embodiment of the present invention.
FIG. 2 is a specific configuration diagram of the electronic computer system of FIG. 1;
3 is a perspective schematic view of a main body of the electronic computer system of FIG.
4 is a schematic top sectional view of the main body of FIG.
5 is a schematic cross-sectional view of the lower part of the main body of FIG.
6 is a cross-sectional view of the upper front portion of the main body of FIG. 3, in which (a) shows a state where the door is closed, and (b) shows a state where the door is opened.
7 is a cross-sectional view of the lower front portion of the main body shown in FIG. 3, in which (a) shows a state where the door is closed, and (b) shows a state where the door is opened.
8 is a cross-sectional view of the modified example of FIG. 6, in which (a) shows a state where the door is closed, and (b) shows a state where the door is opened.
9 is an explanatory diagram of a display unit of the main body unit of FIG. 3, in which (a) shows a front view and (b) shows a rear view.
10 is a schematic cross-sectional view for explaining a display unit of the main body of FIG.
FIG. 11 is a diagram schematically showing a modification of the display unit of the main body unit of FIG.
12 is a diagram for explaining a specific lighting example 1 of the display unit in the main body of FIG. 3;
13 is a diagram for explaining a specific lighting example 2 of the display unit in the main body of FIG. 3;
14 is a diagram for explaining a specific lighting example 3 of the display unit in the main body of FIG. 3;
15 is a diagram for explaining a specific lighting example 4 of the display unit in the main body unit of FIG. 3;
16 is a diagram for explaining a specific lighting example 5 of the display unit in the main body unit of FIG. 3;
17 is a diagram for explaining a specific lighting example 6 of the display unit in the main body of FIG. 3;
FIG. 18 is a front view showing two examples of the main body in the electronic computer system according to the second embodiment of this invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Computer system, 2 ... Main-body part, 2a ... Box, 2b ... Area | region (door, cover), 2c ... Display part, 2c1 ... Lens, 2c2 ... LED, 2d ... Power switch, 2e ... External interface, 2f ... 1st optical disk device, 2g ... 2nd optical disk device, 2h ... HDD device, 2i ... power supply, 2j ... control unit, 3 ... display device, 3a ... display screen, 3b ... speaker, 3c ... remote control light receiving unit, 3d ... Power switch, 3e ... progress indicator, 3f ... external interface, 3g ... power supply, 3h ... control unit, 4 ... input device, 5 ... keyboard, 5a ... key, 5b ... shortcut key, 5c ... external interface, 6 ... mouse 7 ... Headphones, 8 ... Microphone, 9 ... Network, 10 ... AV equipment.

Claims (11)

A device housed in a box, a display unit that displays an operating state of the device in a lighting state, and a main body unit that includes a control unit that controls the device and the display unit;
A display device having a display screen;
An input device for inputting data to the main body,
A plurality of the devices are juxtaposed so as to face the front surface of the box,
The front surface of the box is divided into regions facing the devices arranged side by side,
The display unit is disposed at a boundary portion of each region, and has an LED corresponding to each region.
The electronic computer system according to claim 1, wherein the control unit is configured to control such that when a plurality of LEDs are turned on, the lighting of a large number of the LEDs is shown as a movement and is repeated. A device housed in a box, a display unit that displays an operating state of the device in a lighting state, and a main body unit that includes a control unit that controls the device and the display unit;
A display device having a display screen;
An input device for inputting data to the main body,
A plurality of the devices are juxtaposed so as to face the front surface of the box,
The front surface of the box is divided into regions facing the devices arranged side by side,
The display unit is disposed at a boundary portion of each region, and has an LED corresponding to each region.
The electronic computer system according to claim 1, wherein the control unit is configured to control lighting of the plurality of LEDs so that an operating device can be specified when the device is operating. A device housed in a box, a display unit that displays an operating state of the device in a lighting state, and a main body unit that includes a control unit that controls the device and the display unit;
A display device having a display screen;
An input device for inputting data to the main body,
A plurality of the devices are juxtaposed so as to face the front surface of the box,
The front surface of the box is divided into regions facing the devices arranged side by side,
The display unit is disposed at a boundary portion of each region, and has a pair of LEDs corresponding to each of the regions,
The controller is configured to control the lighting of a large number of the LEDs so as to be able to identify the operating device while controlling the sequential transition of the lighting of the large number of the LEDs when the device is in operation. An electronic computer system characterized by that. 4. The device according to claim 1, wherein a large number of the devices are juxtaposed in a circumferential direction centering on a front central portion, the region is juxtaposed in a circumferential direction facing the device, and the display unit is a central portion of the device. The computer system is located in the center of the front face across the boundary portion of the area located at the opposite to each device. 5. The electronic computer system according to claim 4, wherein the main body portion includes a power switch, and the power switch is disposed at a central portion of the display portion. 6. The device according to claim 1, wherein the box is formed in a thin shape, the device is juxtaposed in four places on the top, bottom, left, and right facing the front surface of the box, and the region is arranged in four places. The computer system is divided into four regions facing each other, and the display unit is arranged at a portion where the boundary portions of the four regions intersect. 7. The computer system according to claim 3, wherein the area is divided by a door or a cover corresponding to the device. 8. The computer system according to claim 1, wherein the device is a storage device such as a disk device or an HDD device, an external interface having a communication function with the outside, or the like. A plurality of devices juxtaposed facing the front in the box, a display unit having an LED for displaying the operating status of the device in a lighting state, and a main body unit having a control unit for controlling the device and the display unit; In an operation status display method of an electronic computer system comprising a display device having a display screen and an input device for inputting data to the main body,
Operation of an electronic computer system characterized in that a large number of LEDs arranged at a boundary portion of a region facing each device are sequentially turned on during operation of the device so that the LED is turned on and viewed as a constant movement. Status display method. A plurality of devices juxtaposed facing the front in the box, a display unit having an LED for displaying the operating status of the device in a lighting state, and a main body unit having a control unit for controlling the device and the display unit; In an operation status display method of an electronic computer system comprising a display device having a display screen and an input device for inputting data to the main body,
An operation status display method for an electronic computer system, wherein a plurality of LEDs arranged at a boundary portion of a region facing a plurality of the devices are lit so as to be able to identify an operating device. A plurality of devices juxtaposed facing the front in the box, a display unit having an LED for displaying the operating status of the device in a lighting state, and a main body unit having a control unit for controlling the device and the display unit; In an operation status display method of an electronic computer system comprising a display device having a display screen and an input device for inputting data to the main body,
A large number of a pair of LEDs arranged at the boundary part of the area facing each device is made to appear as a constant movement by sequentially shifting one of the plurality of LEDs when the device is in operation. In addition, an operating status display method for an electronic computer system, characterized in that an operating device is lit so that it can be identified.

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