JP3861858B2 - Image display device maintenance system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a maintenance system for an image display apparatus represented by a projector that is always connected to an arbitrary network.
[0002]
[Prior art]
In recent years, an image display device represented by a projector has been used as a device that provides an arbitrary video on a large screen to a large number of people such as an event facility, a teaching facility, or a monitoring control room, and several tens of image display devices depending on the intended use Are used at the same time. Projectors used for such applications tend to be expensive because they generally require high luminance of 5000 lumens or more, and replacement of image display devices cannot be performed easily. Therefore, it is necessary to extend the service life of the image display device by a serviceman each time. Recently, an image display device having a network function has been installed, and the image display device is collectively managed via an arbitrary network by a maintenance device (generally a personal computer or a server device) installed in a central management room. Thus, maintenance work is performed to improve the efficiency of the maintenance work.
[0003]
A conventional image display apparatus maintenance system will be described below.
[0004]
2. Description of the Related Art Conventionally, a maintenance system for an image display apparatus is known as described in JP-A-2002-250971. FIG. 17 shows a maintenance system for the image display apparatus. FIG. 17 shows a configuration diagram of a maintenance system for a conventional image display apparatus. In FIG. 17, 1 is an image display device typified by a projector, 2 is a maintenance device typified by a personal computer, and 3 is an arbitrary network network typified by a local area LAN or the Internet network. Reference numeral 19 denotes a state detection means for detecting a failure in the data setting state of the image display apparatus 1 or hardware, and 15 denotes maintenance of the result detected by the state detection means 19 via an arbitrary network 3 by e-mail. The communication means A transmits to the device 2.
[0005]
The operation of the conventional image display apparatus maintenance system configured as described above will be described below.
[0006]
First, a failure that has occurred in the image display device 1 and a data setting state necessary for periodic reporting are detected by the state detection means 19, and the detected information is sent from the communication means A15 to the maintenance device via an arbitrary network 3. Send to E-mail to 2. The administrator of the maintenance device 2 that has received such an e-mail can grasp the state of the image display device 1 without going to the place where the image display device 1 is installed.
[0007]
[Patent Document 1]
JP 2002-250971 A (paragraph numbers “0010”-“0012”)
[0008]
[Problems to be solved by the invention]
However, in the above-described conventional configuration, it is possible to grasp the state of the image display device at a place away from the place where the image display device is installed, but the image display is performed because a countermeasure for trouble must be introduced. When updating the main program data for operating the apparatus, there is a problem that a service person has to go to the installation location of the image display apparatus to perform the update operation of the main program data.
[0009]
Further, in the conventional configuration, as is normally done between personal computer devices, the maintenance data is automatically transmitted by e-mail from the maintenance device to the image display device via an arbitrary network. Although it is possible to update the main program data, generally, the user of the image display device and the user of the maintenance device are separate and remote, so the user of the image display device updates the main program data. There is a possibility that the image display apparatus is turned off without knowing that it is inside. In this way, when the image display device is turned off during the main program data update operation, the main program data stored in the image display device is in an incomplete data state. There is a problem in that it cannot be performed correctly, and as a result, no video is displayed from the image display device.
[0010]
As a solution to the above problem, when the maintenance data is received by the image display device, a message image is displayed on the image display device, and the power supply of the entire related system such as the image display device and the network is turned on during the display period. A method to avoid cutting is considered. However, when a projector is assumed as an image display device, it is used for important presentations and movie / theatrical screenings. Therefore, sudden display of the message image during video display impairs the quality of the displayed video, and There is a new problem that it is not preferable to suddenly impose usage restrictions on the user of the display device.
[0011]
Further, since the user of the maintenance device can know the state of the image display device via an arbitrary network, it is possible to grasp whether the image display device is currently in a power-on state or a standby state. . Therefore, as a method for solving the above problem, a method of transmitting the maintenance data to the image display device in a standby state where no image is displayed from the image display device can be considered. However, when the power of the image display device is suddenly turned on while the maintenance data is being transmitted, if the projector is a lamp lighting operation after the power is turned on, a spike noise of several hundred volts is generated from the lamp driving power circuit. Invade the entire circuit board. The spike noise is superimposed on a data bus, a write signal, and a read signal of a control means (generally a CPU), so that the main program data malfunctions. As a result, the main program data is correctly corrected. Has the problem that it cannot be written to.
[0012]
The present invention solves the above-mentioned conventional problems, and provides a maintenance system for an image display device that transmits maintenance data from the maintenance device to the image display device at an arbitrary timing and reliably updates the main program data. With the goal.
[0013]
[Means for Solving the Problems]
In order to achieve this object, the maintenance system for an image display device according to the present invention is configured to store maintenance data transmitted from the maintenance device to the image display device in an image display device and a maintenance device that are always connected via an arbitrary network. The image display device includes maintenance data storage means for storing the maintenance data when the maintenance data is stored with reference to data stored in the maintenance data storage means after power is turned on. Is written to the main storage element of the image display device, and then the maintenance data stored in the maintenance data storage means is deleted.
[0014]
With this configuration, maintenance data can be transmitted from the maintenance device to the image display device at an arbitrary timing, and the main program data can be reliably updated.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
According to the first aspect of the present invention, there is provided an image display device that is fixedly installed at a predetermined location and is always connected to an arbitrary network, and maintenance of the image display that is always connected to the network. A maintenance data generator for generating new main program data (hereinafter referred to as maintenance data) for updating main program data of the image display device, and the maintenance data. A communication unit B that enables transmission of maintenance data generated by the generation unit to the image display device via the network; and a control unit B that controls the maintenance data generation unit and the communication unit B. An image display device includes a main memory element storing main program data for operating the image display device, and a main memory element stored in the main memory element. Volatile memory for developing program data, communication means A for receiving the maintenance data transmitted from the maintenance device via the network, and maintenance data storage for storing the maintenance data received by the communication means A And control means A for controlling the main memory element, the volatile memory, the communication means A, and the maintenance data storage means, respectively. , Lamp drive power supply circuit to light the lamp and The control means A includes a power supply for the image display device After the lamp lighting operation is completed, expand the main program data, and then When the maintenance data is stored with reference to the data stored in the maintenance data storage means, the maintenance data stored in the maintenance data storage means after writing the maintenance data to the main storage element It has a function of deleting data, and has an effect of transmitting maintenance data from the maintenance device to the image display device at an arbitrary timing and reliably updating the main program data.
[0016]
The invention described in claim 2 is the invention described in claim 1, The data stored in the maintenance data storage means is referred to. When the maintenance data is stored, the lamp is turned off, and then the maintenance data is written to the main storage element. Yes, avoiding the risk of unexpected spike noise from the lamp drive power circuit due to the lamp entering an abnormal state in an unforeseen situation, and reliably updating the main program data Has an effect.
[0026]
Claim 3 The described invention is claimed. 1 In the invention described above, the control unit A detects whether or not the maintenance data transmitted from the maintenance device has been normally written when the maintenance data is written to the maintenance data storage unit, and the detection result is determined as the maintenance data. A function of controlling the communication means A so as to transmit to the apparatus; In addition, when the maintenance data cannot be normally written to the maintenance data storage means, the cause is detected and checked against an error code table of the image display device, and the corresponding error code is sent to the maintenance device. It has a function to notify via the communication means A The maintenance device notifies the maintenance device of the result of whether or not the maintenance data has been normally written to the maintenance data storage means, so that the maintenance device can correctly send the desired maintenance data to the image display device. It has the effect of ascertaining whether or not it has been stored.
[0027]
Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[0028]
(Embodiment 1)
FIG. 1 is a configuration diagram of a maintenance system for an image display apparatus according to Embodiment 1 of the present invention, and FIG. 2 is an operation explanatory diagram thereof.
[0029]
In FIG. 1, 1 is an image display device typified by a projector installed in a predetermined place having a network function, 2 is a maintenance device typified by a personal computer or server equipment that performs maintenance work of the image display device 1, 3 Is an arbitrary network such as a local LAN or the Internet, and the image display device 1 and the maintenance device 2 are always connected to an arbitrary network 3. Reference numeral 10 denotes display means that can display an arbitrary image on the image display device 1, and reference numeral 13 denotes a nonvolatile main memory element represented by a flash memory in which main program data for operating the image display device 1 is stored. , 12 is a volatile memory represented by SDRAM that expands the main program data stored in the main memory element 13, and 15 is always connected to an arbitrary network 3 and receives the maintenance data transmitted from the maintenance device 2. Communication means A and 14 are maintenance data storage means represented by a nonvolatile memory card such as an SD card or a PC card for storing maintenance data received by the communication means A15, and 11 is a display means 10 and a volatile memory 12 and a main memory. Control means A and 100 for controlling the element 13, maintenance data storage means 14 and communication means A15 are control means A. It is one of the data bus. Reference numeral 20 denotes a maintenance data generating unit that generates maintenance data. Reference numeral 21 denotes communication means B and 22 that are always connected to an arbitrary network 3 and transmit maintenance data generated from the maintenance data generating unit 20 to the image display device 1. Control means B and 200 for controlling the maintenance data generation unit 20 and the communication means B21, respectively, are data buses for the control means B22.
[0030]
The operation of the maintenance system for the image display apparatus configured as described above will be described with reference to FIGS. First, in the maintenance device 2, the maintenance data is generated by the maintenance data generator 20, and the maintenance data is transferred to the communication means B21 through the data bus 200 of the control means B22. The communication unit B21 transmits the maintenance data to the communication unit A15 of the image display device 1 via an arbitrary network 3. The control means A11 that has detected that the communication means A15 has received the maintenance data writes the maintenance data to the volatile memory 12 through the data bus 100, and then maintains the maintenance data written to the volatile memory 12. Write to the data storage means 14. Since this writing operation is performed while the control unit A11 manages the data amount of the data bus 100, there is no problem that the image displayed from the display unit 10 is disturbed during the writing operation. The control means A11 determines whether or not the data transmitted to the communication means A15 is maintenance data by predetermining the file name of the maintenance data as “maintenance.mhx”, etc. If it is transmitted, it is maintenance data. Otherwise, it can be easily determined that it is not maintenance data. When e-mail is used as a communication method, maintenance data can be determined based on the subject of the e-mail. If the power of the image display apparatus 1 is turned off while the maintenance data is being written to the maintenance data storage means 14, the maintenance data storage means 14 naturally does not store normal maintenance data, but the main program of the image display apparatus 1 The main storage element 13 in which data is stored is not changed at all, and the image display apparatus 1 is activated with the same main program data as the previous time even when the power is turned on again. Then there is no problem.
[0031]
When the user of the image display device 1 turns on the power of the image display device 1 in a state where the desired maintenance data is normally stored in the maintenance data storage means 14 as described above, it is stored in the main storage element 13. The main program data is expanded to the volatile memory 12 via the data bus 100 (step S1). In general, main program data stored in the main storage element 13 is stored in a compressed state in order to reduce the data capacity, and the compressed data is expanded and expanded on the volatile memory 12. . When a projector is used as the image display device 1, a lamp lighting operation is performed after turning on the power. At this time, spike noise of several hundred volts is generated from the lamp driving power supply circuit and enters the entire projector circuit board. In order to avoid the problem that the main program data cannot be correctly expanded from the main memory element 13 to the volatile memory 12 due to the spike noise superimposed on each signal line, the spike noise is stored in the main memory element 13 again after the lamp lighting operation is completed. The main program data that has been stored is developed in the volatile memory 12 via the data bus 100 (step S1). After the main program data is expanded in the volatile memory 12 in this way, the control means A11 refers to the data stored in the maintenance data storage means 14 (step S2) and searches whether the maintenance data is stored. (Step S3). In the operation of step S3, when the folder location where the maintenance data is stored is determined in advance, the search operation can be completed in a short time. For example, if the maintenance data “maintenance.mhx” is always placed only in the folder “maintenance” under the root directory, the maintenance data is stored in the folder “maintenance” under the root directory of the maintenance data storage unit 14. Only stored. Thus, in step S3, the control means A11 only needs to perform data search in the folder “maintenance” under the root directory of the maintenance data storage means 14, and the search time can be shortened. When it is determined in step S3 that the desired maintenance data exists in the maintenance data storage means 14, the control means A11 performs an operation for expanding the maintenance data in the main memory element 13 (step S4). After the expansion (step S5), the maintenance data stored in the maintenance data storage means 14 is deleted (step S6). This is because step S6 does not repeat the operations from step S1 to step S5 for the same maintenance data every time the image display apparatus 1 is turned on. Further, since the main memory element 13 is normally composed of a flash memory, the operation of step S4 is performed by the control means A11 first erasing the main program data written in the main memory element 13, and then the maintenance data storage means. 14 writes the maintenance data stored in the volatile memory 12 via the data bus 100, and finally writes the maintenance data written in the volatile memory 12 to the main memory element 13 via the data bus 100. Is generally done. When a projector is used as the image display device 1, the projector is often used for important presentations or movie screenings. Usually, it takes time to stabilize the operation characteristics of an analog circuit such as an A / D converter or a PLL circuit. It is used for these applications after performing warm-up operation for 10 minutes or more in consideration. Until the characteristics of the analog circuit components enter the stable operation region, the reference clock phase of the A / D converter and the analog video phase are shifted, resulting in a latch error, and the image displayed from the display means 10 flickers or brightness. Since it cannot be used for applications such as important presentations and movie screenings, warm-up operation is generally performed until the characteristics of the analog circuit components are stabilized. . On the other hand, although the maintenance data update operation depends on the data capacity of the maintenance data, the time required from step S4 to step S6 is about 1 minute to 2 minutes. The update of the maintenance data can be completed within the warm-up operation time. In addition, the warm-up operation is performed until the internal temperature inside the projector becomes constant and the characteristics of the analog circuit components are put into the stable operation region. Therefore, the projector power is turned off during the warm-up operation. There is no cutting. As a result, the maintenance data can be reliably updated. Further, when the projector has a function of displaying a message such as “Now Loading” from the control unit A11 to the display unit 10 during the warm-up operation of the projector, when the maintenance data is stored in the maintenance data storage unit 14, By displaying the “Now Loading” message until the step S6 is completed, it is possible to avoid the risk that the user of the image display device 1 suddenly cuts off the power during the message display period. In addition, during the “Now Loading” message display period, the control means A11 has a function of rejecting reception of the power-off command transmitted from the projector remote control, thereby further avoiding risk. Note that since the “Now Loading” message is a display during the warm-up operation period, there is no new problem of deteriorating the display quality of the projector. During the period from step S4 to step S6, there is a method in which the lamp lighting operation is completely completed as described above, but by turning off the lamp when the control means A11 detects the maintenance data in step S3, The same effect can be obtained by a method of reliably executing the update of the main program data while avoiding the risk that the lamp enters an abnormal state due to an unexpected situation and unnecessary spike noise is generated from the lamp driving power supply circuit.
[0032]
As described above, according to the present embodiment, the control means A11 detects the data stored in the maintenance data storage means 14 during the power-on operation of the image display apparatus 1, and the maintenance data transmitted from the maintenance apparatus 2 is stored. If stored, the main program data can be reliably updated by providing means for writing the maintenance data to the main memory element 13 in which the main program data is stored. In addition, since maintenance data can be transmitted from the maintenance device 2 to the image display device 1 at an arbitrary timing, in a system that centrally manages a plurality of image display devices, for all image display devices, It is possible to transmit maintenance data at the same time. In the conventional configuration, it is necessary to detect only an unused image display device in which maintenance data can be updated and to transmit maintenance data each time. When there are a large number of devices, it is possible to easily solve the problem that it is very troublesome to manage which image display device to send the maintenance data and which image display device is not yet available.
[0033]
(Embodiment 2)
FIG. 3 is a configuration diagram of the maintenance system for the image display apparatus according to the present invention, and FIG. 4 is an operation explanatory diagram of the maintenance system for the image display apparatus according to the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0034]
In FIG. 3, reference numeral 16 denotes a light emitting element represented by an LED that is controlled by the control unit A <b> 11 and outputs light toward the outside of the image display device 1.
[0035]
The operation of the maintenance system for the image display apparatus configured as described above will be described with reference to FIG. First, when it is determined in step S3 that maintenance data is stored in the maintenance data storage means 14, the control means A11 performs control so that the maintenance data is written to the main storage element 13 via the data bus 100 (step S3). S4). During the writing operation period, the control means A11 causes the light emitting element 16 to flash light (step S7). The light emitting element 16 may be replaced with a light emitting element that informs the access period to the card normally provided in the image display device 1 when an SD card or a PC card is used as the maintenance data storage means 14. . By blinking the light emitting element 16, the user of the image display device 1 can easily grasp the period during which the maintenance data is written in the image display device 1. The light flashing operation of the light emitting element 16 ends when all the maintenance data is written to the main memory element 13 (step S5). In the present embodiment, the light emitting element 16 is used as means for notifying the user of the image display apparatus 1 of the update period of the maintenance data. However, the same effect can be obtained by generating an arbitrary sound from the speaker.
[0036]
As described above, according to the present embodiment, by providing means for causing the light emitting element 16 to blink while the maintenance data is being written to the main memory element 13, the user of the image display apparatus 1 can perform maintenance after turning on the power. The period during which data is written to the main memory element 13 can be easily informed, and the user of the image display apparatus 1 is disconnected from the power source of the image display apparatus 1 at least during the period in which the light emitting element 16 flashes. It is possible to recognize that it should not be.
[0037]
(Embodiment 3)
FIG. 5 is a diagram for explaining the operation in the maintenance system for the image display apparatus of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0038]
In step S6, after deleting the maintenance data stored in the maintenance data storage means 14, the control means A11 resets the main program data (step S8). Thus, the image display device 1 expands the main program data stored in the main storage element 13 again in the volatile memory 12 via the data bus 100 (step S1). At this time, since the main program data stored in the main memory element 13 is changed to the maintenance data, the image display device 1 can execute an operation according to the contents of the maintenance data. Thereafter, the control means A11 refers to the data stored in the maintenance data storage means 14 (step S2), but since the maintenance data has already been deleted in step S6, the maintenance data cannot be detected (step S3). The initialization process is finished as it is.
[0039]
As described above, according to the present embodiment, by providing means for resetting the main program data again after writing the maintenance data to the main memory element 13, the contents updated with the maintenance data are immediately imaged. It is possible to reflect on the display device 1, and the image display device 1 can always operate with the latest main program data.
[0040]
(Embodiment 4)
FIG. 6 is a configuration diagram of the maintenance system for the image display device according to the present invention, FIG. 7 is an operation explanatory diagram of the maintenance system for the image display device according to the present invention, and FIG. 8 is the maintenance system for the image display device according to the present invention. 10 is an example of a message screen displayed from the image display device when maintenance data is stored in the maintenance data storage means. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0041]
In FIG. 6, reference numeral 17 denotes an input means for inputting an arbitrary command from the outside to the control means A11 represented by a remote controller or the like.
[0042]
The operation of the image display apparatus maintenance system configured as described above will be described with reference to FIG. First, when the control means A11 detects that maintenance data is stored in the maintenance data storage means 14 (step S3), the control means A11 controls the display means 10 to display a message screen as shown in FIG. (Step S9). The user of the image display apparatus 1 who has seen the message screen of FIG. 8 writes the maintenance data stored in the maintenance data storage means 14 into the main storage device 13 by an external input means such as a remote controller (OK). ) Or not (CANCEL) (step S10). When the user of the image display apparatus 1 selects OK in step S10, the control means A11 that has received the control signal writes the maintenance data stored in the maintenance data storage means 14 to the main memory element 13 (step S10). S4) After the completion of writing (step S5), the maintenance data is deleted (step S6). On the other hand, when the user of the image display apparatus 1 selects CANCEL in step S10, the control means A11 that has received the control signal writes the maintenance data stored in the maintenance data storage means 14 to the main memory element 13. Without doing so, the initialization operation is terminated. In this case, when the image display device 1 is turned on again, the operation is performed again according to the flowchart shown in FIG. 7, so the main program data of the image display device 1 is updated according to the convenience of the user of the image display device 1. It becomes possible to do. On the other hand, since the maintenance data stored in the maintenance data storage means 14 always exists even if the user of the image display apparatus 1 selects CANCEL in step S10, the operation in the flowchart of FIG. The message screen of FIG. 8 is always displayed every time the apparatus 1 is turned on. The state in which this message screen is always displayed is avoided by providing means for deleting maintenance data stored in the maintenance data storage means 14 (step S6) when CANCEL is selected in step S10.
[0043]
As described above, according to the present embodiment, when the maintenance data is stored in the maintenance data storage means 14, a message screen as shown in FIG. 8 is displayed from the image display device 1. By providing the user with means for selecting from the external input means 17 whether or not to write the maintenance data to the main memory element 13, an image display is made in accordance with the convenience of the user of the image display apparatus 1. The main program data of the device 1 can be updated. In general, it is desirable to immediately introduce the transmitted maintenance data into the image display device 1, but it cannot be said that there is no possibility that an unexpected failure will occur due to the introduction. That is, in a state where the image display device 1 is stably operating at the present time, the user of the image display device 1 also has a meaning of risk avoidance when a special important presentation is on the day. Updates may be sent to the next opportunity. At that time, if there is a means shown in the present embodiment, it is very effective.
[0044]
(Embodiment 5)
FIG. 9 is an explanatory view of the operation in the maintenance system for the image display device of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0045]
In step S 6, after deleting the maintenance data stored in the maintenance data storage unit 14, the control unit A 11 controls the communication unit A 15 to store the maintenance data in the main storage 2 via the arbitrary network 3. The fact that data has been written to the element 13 is notified (step S11). In the present embodiment, the same effect can be obtained even if the writing end notification is sent from the image display device 1 to the maintenance device 2 after the maintenance data is written to the main memory element 13 (step S5).
[0046]
As described above, according to the present embodiment, the maintenance device 2 has a means for notifying the maintenance device 2 that the maintenance data has been written to the main storage element 13, so that the administrator of the maintenance device 2 can display a plurality of images. When the devices are managed simultaneously, it is possible to easily grasp which image display device maintenance data is updated and which image display device maintenance data is not updated. In the case of a system in which a large-screen video system that delivers dozens of image display devices such as projectors is collectively managed by a single maintenance device, it simply stores and organizes messages sent from each projector. Thus, the version of the main program data of each projector can be managed efficiently.
[0047]
(Embodiment 6)
FIG. 10 is an explanatory view of the operation in the maintenance system for the image display device of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0048]
When the maintenance data is written from the maintenance data storage means 14 to the main memory element 13 (step S4), if any abnormality occurs and the writing cannot be performed (step S12), the control means A11 can write normally. The communication unit A15 is controlled, and the result is notified to the maintenance device 2 via an arbitrary network 3 (step S2). The administrator of the maintenance device 2 that has received this result knows that the maintenance data writing has failed in the image display device 1. On the other hand, when the maintenance data is written from the maintenance data storage means 14 to the main memory element 13 (step S4), if the writing is normally completed (step S5), a message to that effect is transmitted to the maintenance device 2 (step S4). S2).
[0049]
As described above, according to the present embodiment, the maintenance device includes means for detecting whether or not the maintenance data has been normally written in the main memory element 13 and notifying the maintenance device 2 of the detection result. The administrator 2 can grasp not only the work of writing maintenance data to the main storage element 13 but also the result in the image display device 1, and if the maintenance data rewrite fails, the maintenance data is written again. Since there is a possibility that the cause or cause of failure is present in the image display apparatus 1, the following measures such as analysis of the cause can be quickly performed.
[0050]
(Embodiment 7)
FIG. 11 is a diagram for explaining the operation in the maintenance system for the image display apparatus of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0051]
In step S12, when the maintenance data fails to be written to the main memory element 13, the control means A11 again writes the maintenance data stored in the maintenance data storage means 14 to the main memory element 13 from the beginning (step S4). If the writing is normally completed in this rewriting operation (step S5), the image display apparatus 1 determines that the writing is normally completed, and transmits a message to that effect to the maintenance apparatus 2 via an arbitrary network 3. To do. On the other hand, if any fatal defect exists in the image display device 1, an abnormality always occurs (step S12) even if the rewriting operation is performed. Therefore, a counter indicating how many times this rewriting operation is performed is provided to the control means A11. Provide. For example, when the rewrite operation is performed up to twice, first, when the first abnormality occurs, the control means A11 determines that it is the first time (step S13), and controls to execute step S4 again. When the abnormality is detected again (step S12), the control means A11 determines that it is the second time (step S13) and performs control so that step S4 is executed again. Next, when abnormality is detected again (step S12), the control means A11 determines that it is the third time (step S13), and this time, it returns to step S4 and sends a message to that effect to the maintenance device 2 as abnormal. (Step S11).
[0052]
As described above, according to the present embodiment, when the maintenance data is not normally written in the main memory element 13, it is possible to perform normal writing by the rewriting operation by having means for executing the writing operation again. In addition, it becomes unnecessary to notify the maintenance device 2 of the writing failure due to noise caused by some factor. When the maintenance device 2 receives a maintenance data rewrite failure notification from the image display device 1, the administrator of the maintenance device 2 does not accidentally rewrite, but the image display device 1 has a fundamental cause of failure. Can be easily estimated, and repair of the image display apparatus 1 can be quickly started.
[0053]
(Embodiment 8)
FIG. 12 is a block diagram of an image display apparatus maintenance system according to the present invention, and FIG. 13 is an operation explanatory diagram of the image display apparatus maintenance system according to the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0054]
In FIG. 12, reference numeral 18 denotes maintenance data determination means for determining whether maintenance data transmitted from the maintenance apparatus 2 is maintenance data for the image display apparatus 1 or maintenance data for other models.
[0055]
The operation of the maintenance system for the image display apparatus configured as described above will be described with reference to FIG. First, in step S3, the control means A11 that has detected that maintenance data is stored in the maintenance data storage means 14 refers to the maintenance data determination means 18 as to whether or not the maintenance data is for the image display apparatus 1. (Step S14). The maintenance data discriminating means 18 analyzes the header file of the maintenance data and compares whether the model product number of the model for which the maintenance data is the object matches the model product number of the image display device 1. If the model product numbers match, the maintenance data is written to the main memory element 13, but if it is different, the initialization operation is terminated without writing to the main memory element 13. For example, taking a projector as an example of an image display device, various types of projectors are released every year, and there are generally cases where projectors of various model part numbers are mixed in a large video system that handles multiple projectors. To do. If the model number is different, the built-in hardware configuration is also different, so if you write maintenance data with a different model number, there is a possibility that the projector will not start when the power is turned on again, so the model number does not match Maintenance data should not be written to the main memory element 13. Although the example in which the model number of the projector is detected as the maintenance data discriminating means 18 described above, the version of the maintenance data stored in the maintenance data storage means 14 is further detected and stored in the main storage element 13 at present. When the version is older than the main program data version, the main program data always stored in the main memory element 13 is for the present image display device 1 by providing the function of not writing the maintenance data to the main memory element 13. Yes and the latest version. The main program data of the image display device 1 may be effective only when the hardware of the image display device 1 is changed. If the hardware is changed, the old version of the main program data is erroneously changed. When stored in the main storage element 13, the image display device 1 may not operate normally. In other words, means for executing version management of main program data as the handle data discriminating means 18 is very effective.
[0056]
Further, as the maintenance data discriminating means 18, an identification number such as an IP address or a mail address for specifying the maintenance device 2 that is the transmission source of the maintenance data stored in the maintenance data storage means 14 is registered in advance. Is detected by the control means A11, the identification number of the maintenance data transmission source is compared with the identification number of the maintenance device 2 registered in the maintenance data discrimination means 18, and if both identification numbers match, The main memory element 13 is written based on the judgment as maintenance data. On the other hand, if the identification numbers of the two do not match, it is determined that the maintenance data is not regular, and the maintenance data is not written to the main memory element 13. As a result, only maintenance data transmitted from the maintenance device 2 having the identification number registered in the maintenance data discriminating means 18 can be written to the main storage element 13 of the image display device 1. Even when maintenance data is transmitted from an arbitrary personal computer to the image display device 1, only safe maintenance data whose transmission source has been confirmed can always be written to the main storage element 13.
[0057]
Further, the maintenance data discriminating means 18 is provided with means for transmitting the result of judging that the maintenance data is not for the image display apparatus 1 to the maintenance apparatus 2 as in step S11 of FIG. It is possible to notify the administrator that incorrect maintenance data has been transmitted. The administrator of the maintenance device 2 that has received this notification can quickly make corrections such as exchanging incorrect maintenance data with a proper one and retransmitting it or transferring it to another image display device that should originally be transmitted. It becomes possible.
[0058]
As described above, according to the present embodiment, by having the means for determining whether or not the maintenance data stored in the maintenance data storage means 14 by the maintenance data determination means 18 is the maintenance data for the image display apparatus 1. Only the data for the image display device 1 can be surely written in the main memory element 13. Further, the same effect can be obtained by having means for discriminating the transmission source of the maintenance data as the maintenance data discrimination means 18. Thus, according to the present embodiment, even in a system in which model product numbers of a wide variety of image display devices are mixed, the administrator of the maintenance device 2 that collectively manages these image display devices has a different model product number. Even if an error in transmitting the maintenance data is made, the image display apparatus can cope with it, and a safe maintenance system can be constructed.
[0059]
(Embodiment 9)
FIG. 14 is a diagram for explaining the operation in the maintenance system for the image display apparatus of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0060]
In step S14, when the maintenance data discriminating means 18 determines that the maintenance data is not the maintenance data for the image display apparatus 1, the control means A11 deletes the maintenance data from the maintenance data storage means 14 (step S6). .
[0061]
As described above, according to the present embodiment, when it is determined that the maintenance data is not maintenance data for the image display apparatus 1, the control unit A <b> 11 has means for deleting the maintenance data from the maintenance data storage unit 14. As a result, when incorrect maintenance data is stored in the maintenance data storage means 14, when the power of the image display apparatus 1 is turned on again, the time and effort of executing step S14 again after step S3 is omitted. It becomes possible to do.
[0062]
(Embodiment 10)
FIG. 15 is a diagram for explaining the operation in the maintenance system for the image display apparatus of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0063]
First, when some maintenance data must be transmitted from the maintenance device 2 to the image display device 1, the maintenance data is transmitted from the communication unit B21 of the maintenance device 2 to the communication unit A15 of the image display device 1 via an arbitrary network 3. Transmit (step S15). The control means A11 determines whether or not the data transmitted from the maintenance device 2 is maintenance data (step S16). Whether or not the transmitted data is maintenance data can be easily determined by the method described in the first embodiment. If the transmitted data is maintenance data, the control means A11 stores the maintenance data in the maintenance data storage means 14 via the data bus 100 (step S17). The control unit A11 detects that all the maintenance data is stored in the maintenance data storage unit 14 (step S18), and then controls the communication unit A15 to detect the maintenance device 2 via the arbitrary network 3. The result is notified (step S19). Thus, the administrator of the maintenance device 2 can grasp that the transmitted maintenance data is stored in the maintenance data storage means 14 in the image display device 1 by looking at the result of writing the maintenance data from the image display device 1. It becomes.
[0064]
If the power source of the image display device 1 is cut off during the operation from step S15 to step S18, the maintenance data transmitted from the maintenance device 2 is not normally stored in the image display device 1, so the data transfer fails from step S19. You will receive a notification. As a result, the administrator of the maintenance device 2 can recognize that the desired maintenance data has not arrived at the image display device 1 and must send the maintenance data again. However, the maintenance data must be sent to the main storage element 13 of the image display device 1. Since the stored main program data is not changed, there is no problem that the image display device 1 is not activated again.
[0065]
As described above, according to the present embodiment, the maintenance device 2 has the means for notifying that the maintenance data transmitted from the maintenance device 2 is stored in the maintenance data storage means 14 in the image display device 1. The administrator can grasp that the transmitted maintenance data is stored in the maintenance data storage means 14 in the image display device 1. Further, since the maintenance data to be transmitted does not update any data in the main memory element 13 in which the main program data of the image display device 1 is stored, the administrator of the maintenance device 2 transmits the maintenance data at an arbitrary timing. However, there is no fear of seriously affecting the image display device 1. Furthermore, in a large video system in which a plurality of image display devices are collectively managed by a single maintenance device, the maintenance device administrator collects maintenance data at an arbitrary timing regardless of the usage status of each image display device. It becomes possible to transmit, and maintenance work can be greatly simplified. At this time, if the power supply of an image display device is cut off, the maintenance information storage result notification does not reach the maintenance device from the image display device, so the administrator of the maintenance device receives maintenance data in the image display device. It becomes possible to grasp that it is not stored, and by transmitting maintenance data only to the image display device again, it becomes possible for the administrator of the maintenance device to always grasp the entire system at an arbitrary timing. .
[0066]
(Embodiment 11)
FIG. 16 is a diagram for explaining the operation in the maintenance system for the image display apparatus of the present invention. Note that the same reference numerals are used for the same components as those in the above-described embodiment, and the description thereof is omitted.
[0067]
In step S17, when the maintenance data transmitted from the maintenance device 2 is written into the maintenance data storage unit 14, the maintenance data storage unit 14 is not mounted on the image display device 1 or the maintenance data is normally stored due to insufficient remaining file capacity. The data cannot be stored in the storage means 14, and the control means A11 determines that the writing has failed (step S20). The control unit A11 controls the communication unit A15 and notifies the maintenance device 2 of the result via the arbitrary network 3 (step S19). Upon receiving this notification, the administrator of the maintenance device 2 can grasp that the transmitted maintenance data has not been stored in the maintenance data storage means 14 of the image display device 1 due to some trouble, and can quickly execute the countermeasure. It becomes. In addition, an error code table is given to the control unit A11 in advance for what is predicted as a cause of failure in writing to the maintenance data storage unit 14. An example of the error code table is shown below.
[0068]
Maintenance data storage means 14 not installed. Error code “E01”
Insufficient capacity of maintenance data storage means 14: Error code “E02”
The control means A11 detects the maintenance data write failure factor, compares the detection result with the error code table, and notifies the maintenance device 2 of the corresponding error code at the same time. Administrators can respond appropriately.
[0069]
As described above, according to the present embodiment, the maintenance device 2 is notified of whether the maintenance data transmitted from the maintenance device 2 has been normally stored in the maintenance data storage unit 14 of the image display device 1. As a result, the administrator of the maintenance device 2 can determine whether or not the transmitted maintenance data has successfully reached the image display device 1, and can manage a plurality of image display devices. In this case, it is possible to grasp which image display device the maintenance data has reached and which image display device has not. Further, when the maintenance device 2 receives information on whether or not the maintenance data has been normally stored in the maintenance data storage unit 14, the state of the image display device 1 can be grasped.
[0070]
【The invention's effect】
As described above, the present invention provides an effect that the maintenance data transmitted from the maintenance device can be reliably written to the main memory element in the image display device. In addition, a system for collectively managing a plurality of image display devices with a single maintenance device by having means for notifying the maintenance device whether or not the maintenance data has been normally written to the main storage element The system administrator can easily grasp to which image display device the maintenance data has been normally updated, and can quickly follow an image display device for which the maintenance data has not been updated. It becomes possible.
[0071]
Further, by providing the maintenance data discriminating means, even when maintenance data for an incorrect model product number that is not for the image display device is transmitted to the image display device, the maintenance data can be written to the main memory element. Since it can be prevented in advance, the desired maintenance data can be reliably written to the main memory element of the image display device.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a maintenance system for an image display device according to a first embodiment of the present invention.
FIG. 2 is an operation explanatory diagram of the maintenance system for the image display device according to the first embodiment of the present invention.
FIG. 3 is a configuration diagram of a maintenance system for an image display device according to a second embodiment of the present invention.
FIG. 4 is an operation explanatory diagram of the maintenance system for the image display device according to the second embodiment of the present invention.
FIG. 5 is an operation explanatory diagram of a maintenance system for an image display device in Embodiment 3 of the present invention.
FIG. 6 is a configuration diagram of a maintenance system for an image display device according to a fourth embodiment of the present invention.
FIG. 7 is an operation explanatory diagram of a maintenance system for an image display device according to Embodiment 4 of the present invention.
FIG. 8 is a diagram showing an example of a message image displayed from the image display device according to the fourth embodiment of the present invention.
FIG. 9 is an operation explanatory diagram of the maintenance system for the image display device according to the fifth embodiment of the present invention.
FIG. 10 is an operation explanatory diagram of a maintenance system for an image display device according to a sixth embodiment of the present invention.
FIG. 11 is an operation explanatory diagram of a maintenance system for an image display device according to a seventh embodiment of the present invention.
FIG. 12 is a configuration diagram of a maintenance system for an image display device according to an eighth embodiment of the present invention.
FIG. 13 is an operation explanatory diagram of a maintenance system for an image display device according to an eighth embodiment of the present invention.
FIG. 14 is an operation explanatory diagram of a maintenance system for an image display device according to a ninth embodiment of the present invention.
FIG. 15 is an operation explanatory diagram of the maintenance system for the image display device according to the tenth embodiment of the present invention;
FIG. 16 is an operation explanatory diagram of the image display device maintenance system in Embodiment 11 of the present invention;
FIG. 17 is a configuration diagram of a conventional image display device maintenance system.
[Explanation of symbols]
1 Image display device
2 maintenance equipment
3 Any network
10 Display means
11 Control means A
12 Volatile memory
13 Main memory element
14 Maintenance data storage means
15 Communication means A
16 Light emitting element
17 Input means
18 Maintenance data discrimination means
19 State detection means
20 Maintenance data generator
21 Communication means B
22 Control means B
100 Data bus of control means A of image display device
200 Data bus of maintenance device control means B

Claims (3)

An image display device fixedly installed in a predetermined place and always connected to an arbitrary network;
A maintenance device for maintaining the image display device that is always connected to the network;
The maintenance device is
A maintenance data generator for generating new main program data (hereinafter referred to as maintenance data) for updating the main program data of the image display device, and maintenance data generated by the maintenance data generator through the network Communication means B that can be transmitted to the image display device via, and control means B that controls the maintenance data generation unit and the communication means B, respectively.
The image display device includes:
A main storage element storing main program data for operating the image display device; a volatile memory for expanding the main program data stored in the main storage element; and the maintenance data transmitted from the maintenance device A communication means A for receiving via a network;
Maintenance data storage means for storing the maintenance data received by the communication means A, control means A for controlling the main memory element, the volatile memory, the communication means A and the maintenance data storage means, and a lamp. A lamp driving power supply circuit to be lit ,
The control means A develops the main program data after the lamp lighting operation is finished after the image display device is turned on, and then refers to the data stored in the maintenance data storage means to store the maintenance data. A maintenance system for an image display device, having a function of deleting the maintenance data stored in the maintenance data storage means after writing the maintenance data to the main storage element when stored . The data stored in the maintenance data storage means is referred to. When the maintenance data is stored, the lamp is turned off, and then the maintenance data is written to the main storage element. A maintenance system for an image display device according to 1. The control means A detects whether or not the maintenance data transmitted from the maintenance device has been normally written when the maintenance data is written to the maintenance data storage means, and transmits the detection result to the maintenance device. If the maintenance data cannot be normally written to the maintenance data storage means, the cause is detected and collated with the error code table of the image display device. and, maintenance system of the image display apparatus according to claim 1, characterized in that it has a function of notifying the error code corresponding via said communication means a with respect to the maintenance device.

Images