JP2010268290A - External remote control light receiving device, and electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an external remote control light receiving device which can be connected to a remote control cable connector which connects the remote control transmitter of electronic equipment by a remote control cable, and whose range where an infrared signal from the remote control transmitter is received is expanded, and to provide the electronic equipment with the same. <P>SOLUTION: The remote control light receiving device 20 is connected to the remote control cable connector 6 for connecting the remote control transmitter 3 in the electronic equipment 1 using the same remote control cable 5 as the one used in the case of connecting the remote control transmitter 3. In addition, the external remote control light receiving device 20 is provided with: a casing which intercepts intrusion of infrared rays from the outside; a remote control light receiving portion 22 stored in the casing, which receives the infrared signal 3a from the remote control transmitter 3 to be converted into an electric signal; and a connector 21 for output for connecting the remote control cable 5 which transmits the converted electric signal. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a remote control light receiving device, and in particular, when a remote control light receiving device prevents an infrared signal emitted from a remote control transmission device due to infrared noise, obstacles, or the like, or depending on installation conditions, a remote control cable. The present invention relates to an external remote-control light-receiving device that can be used when connection of a remote-control transmission device is inconvenient and an electronic device using the same. Here, the external remote control light receiving device refers to a remote control light receiving device connected to an electronic device by a remote control cable.

  In recent years, many electronic devices operated by a wireless remote controller have been used. However, in the case where the operation room is in a different room from the electronic device and the infrared signal does not reach, the infrared signal from the remote control transmission device can be received and the remote control transmission device can be connected by a remote control cable. Electronic equipment is used. As such an example, there is one that can receive signals from a wireless remote control transmission device and a wired remote control transmission device, and prioritizes reception of signals from the latter over signals from the former. As such a thing, there exists a thing described in patent document 1, for example.

  As another example, there has been proposed an electronic apparatus in which a wired remote control transmission device can be connected, in which a remote control light receiving device is fixedly attached to a terminal for connecting the wired remote control transmission device. As such a thing, there exists a thing described in patent document 2, for example.

JP-A-7-322374 JP 60-184383 A

  By the way, with respect to a built-in remote control light receiving device built in an electronic device, such as the above-described conventional device, or a remote control light receiving device fixedly attached to a terminal to which a wired remote control transmission device is connected, infrared rays from the remote control transmission device When signals are transmitted wirelessly, remote control operation may not be possible depending on the position of the infrared noise source. Further, when the remote control transmission device is used by connecting it with a remote control cable, the remote control transmission device cannot be freely swung, so that there is a problem that handling is easily restricted.

  This point will be further described with reference to FIG. FIG. 11A is an installation example illustrating a case where an electronic device cannot be operated due to the influence of infrared noise even if an infrared signal is wirelessly transmitted from the remote control transmission device. The electronic device 1 shown in this figure is a three-plate liquid crystal projector that is suspended from the ceiling using a ceiling hanger 2 or the like, and receives an infrared signal 3a from a remote control transmitter 3 on one side and receives an electric signal. There is provided a built-in remote control light receiving device 4 for converting to. On the other side, a remote control cable connector 6 for connecting the remote control transmission device 3 with a remote control cable 5 is provided as shown in FIG. In addition, the remote control transmission device 3 in this example is formed so as to be able to transmit the infrared signal 3a wirelessly and to connect the remote control cable 5 and transmit the signal by wire.

  Further, a fluorescent lamp 7 serving as an infrared noise source is installed on a ceiling where a three-plate liquid crystal projector as the electronic apparatus 1 is installed. Therefore, when the infrared signal 3a is transmitted wirelessly from the remote control transmission device 3 to the built-in remote control light receiving device 4 as shown in FIG. 11A, the infrared noise 7a emitted from the fluorescent lamp 7 is generated by the built-in remote control light receiving device. 4, the infrared noise 7a is superimposed on the infrared signal 3a. For this reason, the built-in remote control light receiving device 4 receives an infrared signal different from the infrared signal 3a transmitted by the remote control transmission device 3, and there is a problem that the remote control operation is not effective.

  FIG. 11B is an installation example diagram in the case of a wired remote control system in which an electrical signal is transmitted from the remote control transmission device 3 through the remote control cable 5. In this case, the remote control transmission device 3 is connected by the remote control cable 5 to the remote control cable connector 6 in the ceiling-mounted three-plate liquid crystal projector that is the electronic apparatus 1 described above. However, in this case, since the remote control cable 5 is always present between the remote control transmission device 3 and the electronic device 1, when the orientation or position of the remote control transmission device 3 is adjusted, the remote control transmission is performed by the rigidity of the remote control cable 5. There is a problem that the device 3 cannot always be handled freely.

  In view of such a problem, the present invention provides an external remote controller that can be connected with a remote control cable to a remote control cable connector for connecting a remote control transmission apparatus of an electronic device and has an expanded light receiving range of an infrared signal from the remote control transmission apparatus. An object is to provide a light receiving device. Moreover, it aims at providing the electronic device using this.

  An external remote control light receiving device according to the present invention is connected to a remote control cable connector for connecting a remote control transmission device in an electronic apparatus using the same remote control cable as that used to connect the remote control transmission device. A light receiving device that shields the intrusion of infrared light from the outside, a remote control light receiving unit housed in the housing that receives an infrared signal from the remote control transmission device and converts it into an electrical signal, and And an output connector for connecting a remote control cable for transmitting electrical signals.

  According to this configuration, when the remote control transmission device is connected to the remote control connector using the remote control cable, if it is desired to improve the handling of the remote control transmission device, the remote control cable connector is used to remove the remote control transmission device. Connect the remote control receiver. If comprised in this way, the influence of the infrared noise from an infrared noise source can be prevented by selecting the installation place of an external remote control light-receiving device, and the light-receiving range of the infrared signal from a remote control transmission device can be expanded.

  Moreover, it is preferable that the said housing | casing is comprised so that it may be fixed to a to-be-fixed object by the detachable attachment means. Thus, by attaching the housing by the detachable attachment means, the attachment position of the external remote control light-receiving device can be attached while searching for the optimum position according to the situation at the site.

  The output connector preferably includes a signal terminal for transmitting a signal, a grounding GND terminal, and a power supply terminal for receiving power from an electronic device. If comprised in this way, operation | movement of an external remote control light-receiving device can be performed by supply of the electric power from the power supply of an electronic device.

  In such an external remote control light receiving device, it is preferable that a signal amplifying unit for amplifying an electric signal received and converted by the remote control light receiving unit is provided. With this configuration, the received signal can be amplified to a desired level and transmitted to the electronic device.

  In the external remote control light receiving device, a plurality of the output connectors may be provided. With this configuration, it is possible to simultaneously operate a plurality of electronic devices with one external remote control light receiving device.

  In the external remote control light receiving device, one or a plurality of input connectors for connecting another external remote control light receiving device with a remote control cable may be provided. With this configuration, when one input connector is provided, the connection topology of the external remote control light receiving device can be a daisy chain topology. When a plurality of input connectors are provided, the connection topology of the external remote control light receiving device can be a bus topology or a star topology. Thus, by providing one or a plurality of input connectors, the degree of freedom for installing the external remote control light receiving device can be improved.

  Further, in such an external remote control light-receiving device, a power connector for receiving power from an external power source, a power supplied from a power terminal of the output connector, and a power supplied from the power terminal It is preferable that a power supply switching unit to be selected is provided. If comprised in this way, the voltage of an external remote control light-receiving device can be maintained at a desired level by switching the power supply of an external remote control light-receiving device to an external power supply. In addition, when relying only on the power supply from the electronic device, when the length of the remote control cable to the external remote control light receiving device becomes long or the number of external remote control light receiving devices connected increases, The voltage supplied to the external remote control light receiving device drops, and the signal cannot be normally transmitted to the electronic device.

  Further, in the above-described external remote control light receiving device including the remote control light receiving unit and the output connector, infrared noise that enters from the output connector or a gap formed between the output connector and the housing is generated. It is preferable that a shield for shielding infrared noise is formed inside the housing so as not to reach the remote control light receiving unit. If comprised in this way, it can avoid that the infrared noise which penetrate | invades from the output connector or the clearance gap formed between this output connector and a housing | casing is transmitted to a remote control light-receiving part.

  Further, in the above-described external remote control light receiving device including the remote control light receiving portion, the output connector, and the input connector, the output connector, the input connector, or between these connectors and the housing is formed. It is preferable that a shield for shielding the infrared noise is formed inside the casing so that the infrared noise entering from the gap does not reach the remote control light receiving unit. If comprised in this way, it can avoid that the infrared noise which penetrate | invades from the output connector, the input connector, or the clearance gap formed between these connectors and a housing | casing is transmitted to a remote control light-receiving part.

  In the above-described external remote control light receiving device including a remote control light receiving unit, an output connector, an input connector, and a power connector, the output connector, the input connector, the power connector, or these It is preferable that a shield for shielding the infrared noise is provided inside the casing so that the infrared noise entering from the gap formed between the connector and the casing does not reach the remote control light receiving unit. With this configuration, it is possible to avoid the transmission of infrared noise that enters from the output connector, the input connector, the power supply connector, or the gap formed between these connectors and the casing to the remote control light receiving unit. Can do.

  The electronic device according to the present invention includes a remote control cable connector for connecting a remote control transmission device, and uses the same remote control cable as that used when connecting the remote control transmission device to the remote control cable connector. An attached remote control light receiving device can be connected. According to the electronic apparatus configured as described above, it is possible to connect and install an external remote control light receiving device so as not to receive infrared noise, and it is possible to avoid the influence of the infrared noise on the remote control operation.

  Further, this electronic device can be a projector. When such an external remote control light receiving device is adopted for the projector, the projector can be mounted in various ways according to the application and installation environment and can be operated in various ways, so that the operability of the projector is improved. Can do.

  According to the external remote control light receiving device according to the present invention, the external remote control light receiving device can be connected to the remote control cable connector using the remote control cable. In addition, the influence of infrared noise can be prevented by selecting the installation location of the external remote control light receiving device.

It is the example of installation of the electronic device which uses the external remote control light-receiving device which concerns on embodiment. It is a block diagram which shows schematic structure at the time of connecting an external remote control light-receiving device with the same electronic device. It is a block diagram which shows schematic structure at the time of connecting a remote control transmitter with the electronic device. It is a block diagram which shows schematic structure of the external remote control light-receiving device connected to the same electronic device. It is an applied system block diagram of the external remote control light receiving device. It is another application system block diagram of the external remote control light-receiving device. It is the further another application system block diagram of the same external remote control light-receiving device. It is an application system block diagram of the external remote control light-receiving device which concerns on a modification. It is an application system block diagram of the external remote control light-receiving device which concerns on another modification. It is an application system block diagram of the external remote control light-receiving device which concerns on another modification. It is an installation example figure of the conventional electronic device, (a) is an installation example figure when operating with a wireless remote control, (b) is an installation example figure when operating with a wired remote control.

Hereinafter, an external remote control light-receiving device according to Embodiment 1 of the present invention will be described with reference to FIGS. In addition, the same code | symbol shall be attached | subjected to the element which is common in the past.
In FIG. 1, an external remote control light receiving device 20 according to the present embodiment is connected to an electronic device 1, and an infrared signal 3a from the remote control transmission device 3 is received by the external remote control light receiving device 20, and the received infrared signal is received. FIG. 3 is an installation example diagram in which 3a is converted into an electric signal and transmitted to the electronic device 1;

  The electronic device 1 is a three-plate type liquid crystal projector that is suspended from the ceiling by a ceiling hanger 2, and infrared noise 7a is directly incident on a built-in remote control light receiving device 4 built in the electronic device 1 from a fluorescent lamp 7. ing. This makes it difficult for the built-in remote control light receiving device 4 to receive the infrared signal 3a of the remote control transmission device. For this reason, one end of the remote control cable 5 is connected to the remote control cable connector 6 of the electronic device 1 and the other end is connected to the output connector 21 of the external remote control light receiving device 20, so The device 20 is connected. The external remote control light receiving device 20 is provided with a remote control light receiving unit 22 for receiving the infrared signal 3 a from the remote control transmission device 3. The infrared signal 3a transmitted from the remote control transmission device 3 is received by the remote control light receiving unit 22 and is converted into an electric signal after being received. The converted electrical signal is transmitted to the electronic device 1 via the remote control cable 5 connected to the output connector 21. This configuration will be described in detail below.

  2 and 3 are circuit configuration diagrams of the electronic apparatus according to the installation example. The electronic device 1 includes a built-in remote control light receiving device 4 on one side surface and a remote control cable connector 6 for connecting the remote control transmission device 3 or the external remote control light receiving device 20 with a remote control cable 5 on the other side surface portion. (See FIG. 1). FIG. 2 is a circuit configuration diagram of an electronic device in an installation example in which an external remote control light receiving device 20 is connected to a remote control cable connector 6 by a remote control cable 5 as shown in FIG.

  On the other hand, FIG. 3 is a circuit configuration diagram of an electronic device in an installation example in which the remote control transmission device 3 is directly connected to the remote control cable connector 6 by the remote control cable 5 instead of the external remote control light receiving device 20. This is the same as what is called the conventional wired remote control system. In this case, since the posture of the remote control transmission device 3 is restricted by the rigidity of the remote control cable 5, the remote control transmission device 3 is restricted in handling. On the other hand, such inconvenience can be solved by connecting the external remote control light receiving device 20 as shown in FIG. Hereinafter, an example in which the external remote control light receiving device 20 is connected to the remote control cable connector 6 by the remote control cable 5 will be mainly described.

  As shown in FIGS. 2 and 3, the electronic device 1 includes a detection unit 11 that detects when the remote control cable 5 is connected to the remote control cable connector 6, and a built-in remote control light reception based on a detection signal from the detection unit 11. A signal switching unit 12 that switches an output signal from the device 4 and an output signal from the remote control cable connector 6 and outputs the signal to the CPU 13 is provided. The CPU 13 compares the data input from the signal switching unit 12 with the data stored in the memory 14 and executes a command corresponding to the data to control the controlled object 15. The output signal from the remote control cable connector 6 is an output signal transmitted from the external remote control light receiving device 20 in the case of FIG. 2, but is an output signal transmitted from the remote control transmission device 3 in the case of FIG.

  As shown in FIGS. 1 and 4, the external remote control light receiving device 20 is provided with a remote control light receiving unit 22 for receiving the infrared signal 3 a transmitted from the remote control transmission device 3 on one side of the housing 23. Yes. The housing | casing 23 is formed with the material which shields the infrared noise 7a irradiated from the outside. As shown in FIG. 4, the remote control light receiving unit 22 is disposed inside the housing 23 facing the remote control light receiving window 22a and a remote control light receiving window 22a for introducing the infrared signal 3a transmitted from the remote control transmission device 3. Remote control light receiving element 22b. The remote control light receiving element 22b receives the infrared signal 3a introduced from the remote control light receiving window 22a, converts it into an electrical signal, and outputs it. The remote control light receiving element 22b includes a power input terminal for connecting a power source, a signal output terminal for outputting a signal, and a GND terminal for enabling grounding.

  On the other side of the housing 23 of the external remote control light receiving device 20, as shown in FIGS. 1 and 4, the signal converted into the electrical signal by the remote control light receiving element 22 b is sent through the remote control cable 5 to the electronic device 1. An output connector 21 for transmitting to the side is provided. The output connector 21 protrudes so as to open to the outside so that the remote control cable 5 can be connected. Further, on this side surface, an input connector 24 for enabling connection of another external remote control light receiving device 20 and a power supply connector 25 for connecting an external power source are provided. The input connector 24 and the power connector 25 are also provided so as to project to the outside in the same manner as the output connector 21.

  The output connector 21 includes a power supply terminal for connecting to the power supply of the electronic device 1, a signal terminal for outputting a signal, and a GND terminal for enabling grounding. The remote control cable 5 is configured to correspond to this terminal structure, although the detailed structure is not shown. The input connector 24 is a power supply terminal for supplying electricity to another external remote control light receiving device 20, a signal terminal for inputting a signal from the other external remote control light receiving device 20, and a grounding enable A GND terminal is provided. The power connector 25 includes a power terminal for connecting to an external power source and a GND terminal for enabling grounding.

  Also, the external remote control light receiving device 20 is output from the power supply switching unit 26 for selecting whether to connect to the power supply of the electronic device 1 or to the external power supply, and the remote control light receiving element 22b inside the housing 23. And a signal amplifying unit 27 for amplifying the electrical signal to a predetermined level before output from the output connector 21.

  Further, inside the housing 23 of the external remote control light receiving device 20, a space where the remote control light receiving unit 22 including the remote control light receiving element 22b is installed, an output connector 21, an input connector 24, and a power supply connector 25. A shielding object 28 that shields infrared rays is provided so as to partition the space where the light is installed. The shield 28 is provided as described above for the following reason. That is, the output connector 21, the input connector 24, and the power connector 25 have a connector coupling hole in the center. For this reason, when the connectors to be coupled to the output connector 21, the input connector 24, and the power connector 25 are not coupled, the output connector 21 and the input connector depending on the installation location of the external remote control light receiving device 20. Infrared noise 7a may be incident from a connector coupling hole in the connector 24 and the power connector 25, and the remote control operation may be hindered. Further, in the actually created device, when a gap is formed between each connector and the housing 23, remote control operation may be hindered by infrared noise entering through the gap. Therefore, in order to prevent such an adverse effect, the light enters from the connector coupling holes of the output connector 21, the input connector 24, and the power supply connector 25, and the gaps formed between the connectors and the housing 23. A shielding object 28 is provided in the housing 23 for shielding the emitted infrared noise 7a from being radiated to the remote control light receiving unit 22 including the remote control light receiving element 22b.

  The external remote control light receiving device 20 configured in this way may be provided with a mounting screw hole in the housing 23 of the external remote control light receiving device 20 and screwed to a fixed object. For easy adjustment, it is preferable to use a simple and detachable attachment means. As a simple and detachable attachment means, a magnet is attached to the housing 23 and clipped to the object to be fixed, a double-sided tape is attached to the attachment surface of the housing 23, and the magnet is fixed to the object to be fixed with an adhesive force. A method is conceivable, such as attaching to the attachment surface of the housing 23 and attaching to the object to be fixed by magnetic force. If such a simple and detachable attachment means is used, it becomes easy to rearrange the electronic device 1 and an object to be fixed such as its surroundings.

In the electronic apparatus configured as described above, signal processing is performed as follows.
As shown in FIG. 2, the infrared signal 3a transmitted from the remote control transmission device 3 and incident on the remote control light receiving window 22a is converted into an electrical signal by the remote control light receiving element 22b. The converted electric signal is amplified by the signal amplification unit 27 and then transmitted to the three-plate liquid crystal projector as the electronic apparatus 1 through the signal terminal of the output connector 21. On the other hand, the power source of the electronic device 1 is connected to the power source switching unit 26 via the power source terminal of the output connector 21 as the power source of the external remote control light receiving device 20.

  When the remote control cable 5 for connecting the external remote control light receiving device 20 and the electronic device 1 is long, or when the external remote control light receiving devices 20 are connected in a multiple connection as will be described later, the power source of the electronic device 1 is used. Relying on may cause a desired power supply voltage not to be obtained and transmission to be impossible. Therefore, in such a case, the external power source 31 (see FIG. 6) is connected to the power connector 25. In this case, the power source switching unit 26 switches the power from the output connector 21 to the power source from the power connector 25 and supplies the power to the remote control light receiving element 22b and other circuits. The power supply may be switched by the user, but it is preferable that the power supply is automatically detected to be connected to the external power supply 31 and automatically switched. The external power supply may be supplied from a general commercial power supply via an adapter.

  Next, the signal transmitted from the external remote control light receiving device 20 to the electronic device 1 is input from the remote control cable connector 6 to the signal switching unit 12 as shown in FIG. When the remote control cable 5 is connected to the remote control cable connector 6 of the electronic device 1, the detection unit 11 detects this and outputs a detection signal. This detection signal is input to the signal switching unit 12 and the CPU 13. Thus, the signal switching unit 12 switches between the output signal of the built-in remote control light receiving device 4 and the output signal from the remote control cable connector 6 based on the input detection signal, and inputs the signal to the CPU 13. Specifically, the signal switching unit 12 selects the output from the built-in remote control light receiving device 4 when the remote control cable 5 is not connected to the remote control cable connector 6, but the remote control cable 5 is connected to the remote control cable connector 6. When it is, the signal from the remote control cable connector 6 is selected and output. Therefore, when the external remote control light receiving device 20 is connected to the remote control cable connector 6 as shown in FIG. 2, the signal switching unit 12 selects a signal from the external remote control light receiving device 20 and outputs it. Further, when the remote control transmission device 3 is connected to the remote control cable connector 6 as shown in FIG. 3, the signal switching unit 12 selects a signal from the remote control transmission device 3 and outputs it. The CPU 13 compares the data input from the signal switching unit 12 with the data stored in the memory 14, executes a command corresponding to the data, and controls the controlled object 15.

Since the external remote control light receiving device 20 and the electronic apparatus 1 using the same according to the present embodiment are configured as described above, the following effects can be achieved.
(1) Even if the built-in remote control light receiving device 4 built in the electronic apparatus 1 is exposed to the infrared noise 7a emitted from the fluorescent lamp 7 as shown in FIG. Alternatively, as long as the remote control transmission device 3 is connected to the remote control cable connector 6 by the remote control cable 5, the signal from the built-in remote control light receiving device 4 is not input to the CPU. Therefore, when the external remote control light receiving device 20 is connected to the remote control cable connector 6, the installation location and the direction of the external remote control light receiving device 20 are set so that the infrared noise 7a is not incident on the remote control light receiving window 22a. As a result, it is possible to avoid malfunction of remote control operation.

  (2) The attachment of the external remote control light receiving device 20 in this way is also easy for the electronic devices 1 such as projectors already on the market designed to connect the remote control transmission device 3 with the remote control cable 5. Can be implemented.

  (3) Since the remote control cable 5 for connecting the conventional remote control transmission device 3 can be used between the electronic device 1 such as a projector and the external remote control light receiving device 20, it is economical.

  (4) Since the external remote control light receiving device 20 is connected to the electronic device 1 such as a projector by the remote control cable 5, the infrared noise 7a is not incident on the remote control light receiving window 22a of the external remote control light receiving device 20. An external remote control light receiving device 20 can be arranged.

  (5) Further, in a presentation using a projector, by extending the remote control cable 5 connecting the external remote control light receiving device 20 long, a place where the presenter is easy to operate, for example, near the standing position of the presenter, the infrared noise 7a The external remote control light receiving device 20 can be arranged on a ceiling or a table that is not easily affected. In addition, in this way, even in the case where there is a problem that the infrared remote control is usually difficult to use because the distance from the operation position to the projector is too long, the external remote controller is usually affected by the infrared noise 7a. The projector can be wirelessly operated by the remote control transmission device 3 via the remote control light receiving device 20.

  (6) The external remote-control light-receiving device 20 is attached to an object to be fixed such as an electronic device or its surroundings using simple and detachable attachment means such as a double-sided tape, a magnet, and a clip. Therefore, the attachment position of the external remote control light receiving device 20 can be attached while searching for the optimum position according to the situation in the field.

  (7) Since the output connector 21 includes a signal terminal for transmitting a signal, a grounding GND terminal, and a power supply terminal that receives power supply from the electronic device, supply of power from the power supply of the electronic device 1 Thus, the external remote control light receiving device 20 can be operated, and the configuration is simplified.

  (8) The external remote control light receiving device 20 includes the signal amplification unit 27 that converts the infrared signal 3a received by the remote control light receiving element 22b into an electrical signal and amplifies the converted electrical signal. The signal can be amplified to a desired level and transmitted to the electronic device.

(9) The external remote control light receiving device 20 includes an output connector 21 and an input connector 24.
Therefore, if it is desired to use the remote control transmission device 3 as a wired remote control because the operation of pointing the remote control transmission device 3 toward the remote control light receiving window 22a is troublesome, an application system as shown in FIG. 5 may be configured. That is, the remote control transmission device 3 is connected by the remote control cable 5 to the input connector 24 of the external remote control light receiving device 20 connected to the electronic apparatus 1, and the other remote control transmission device 3 is used for wireless transmission. . Thereby, wired remote control transmission and wireless remote control transmission can be made compatible.

  (10) Since the external remote control light receiving device 20 is provided with the output connector 21 and the input connector 24, the external remote control light receiving devices 20 are connected in multiples as in the application system shown in FIG. An operation signal can be transmitted from the remote control transmission device 3 to each external remote control light receiving device 20. In this system, one external remote control light receiving device 20 is attached to the ceiling hanger 2 of the projector that is the electronic device 1, and the other external remote control light receiving device 20 is located far from the projector. It is attached. Further, in this remote remote control light receiving device 20 that is far away, the remote control transmission device 3 is connected to the input connector 24 by the remote control cable 5, and the external power supply 31 is connected to the power supply connector 25. Yes. By connecting the external power supply 31 to the external remote control light receiving device 20 far away from the projector as the electronic device 1 in this way, a voltage drop in the external remote control light receiving device 20 due to the resistance of the remote control cable 5 or the like can be prevented. Can do. As a connection topology, a daisy chain topology in which three or more external remote control light receiving devices 20 are connected in a daisy chain as shown in FIG.

  (11) Further, since the external remote control light receiving device 20 is provided with the shielding object 28 for shielding infrared noise inside the housing 23, the output connector 21, the input connector 24, the power connector 25, Infrared noise 7 a entering from a gap formed between each connector and the housing 23 can be prevented from being transmitted to the remote control light receiving unit 22.

  (12) Since the electronic device 1 according to the present embodiment can be installed by connecting the external remote control light receiving device 20 so as not to receive the infrared noise 7a, the influence of the infrared noise 7a on the operation is avoided. be able to.

(Modification)
The present invention can be modified as follows in the above embodiment.
-Although the above-mentioned external power supply 31 uses a general commercial power supply, you may comprise the external power supply 31 combining a solar cell and a secondary battery in order to improve maintenance-less and installation property. In this way, it is possible to realize a remote control system that is optimal for the usage environment and requirements.

  In the above-described embodiment, when a plurality of input connectors 24 are provided, various connection topologies can be formed, and the degree of freedom for installing the external remote control light receiving device 20 can be improved. FIG. 8 shows an example in which an external remote control light receiving device 20 having one output connector 21 and one input connector 24 is attached to the ceiling hanger 2, and the input connector 24 of the external remote control light receiving device 20 is modified. The external remote control light receiving device 20A according to the above is connected to a bus topology. This external remote control light receiving device 20A has two input connectors 24. Further, a signal transmission line is branched from the external remote control light receiving device 20A. Further, in the example shown in FIG. 9, an external remote control light receiving device 20B according to another modification is attached to a ceiling hanger of a projector which is an electronic apparatus, and an output connector 21 and an input are connected to the external remote control light receiving device 20B. The external remote control light receiving device 20 having one connector 24 for each is connected in a star topology. The external remote control light receiving device 20B according to this modification has three input connectors 24, and the external remote control light receiving device 20 is attached to each of the three input connectors 24. Further, the remote control light receiving window 22a of the external remote control light receiving device 20 is attached in various positions and directions. Therefore, the projector can be operated with the remote control transmitter 3 directed at various positions in various directions.

  In the embodiment described above, a plurality of output connectors 21 may be provided. An external remote control light receiving device 20C according to another modified example in FIG. 10 has two output connectors 21. The remote control cable 5 is connected to each of the two output connectors 21 of the external remote control light receiving device 20C, and the projector is connected to each. Therefore, in this case, the infrared signal 3a from one remote control transmission device 3 is received by one external remote control light receiving device 20 and converted into an electric signal. Then, the converted electric signal is simultaneously transmitted to the two projectors. As a result, two projectors can be operated simultaneously by one remote control transmission device 3.

  In the modification of FIG. 10, the number of output connectors 21 in the external remote control light receiving device 20C can be three or more, and three or more projectors can be connected to the external remote control light receiving device 20C.

  In the modification of FIG. 10, the external remote control light receiving device 20 can be connected to the daisy chain as shown in FIG. 7 with respect to the external remote control light receiving device 20C. Further, as shown in FIG. 8, an external remote control light receiving device 20A having two input connectors 24 can be connected to the bus topology as shown in FIG.

  In the modified example of FIG. 9, the number of output connectors 21 in the external remote control light receiving device 20B may be two, or three or more as shown in FIG.

  The external remote control light receiving devices 20, 20A, 20B, and 20C according to the present invention can be widely used in the electronic apparatus 1 such as the above-described three-plate liquid crystal projector. Further, the projector including the external remote control light receiving device 20 can be used as a video display system in various facilities such as a home theater, a conference room, a training room, a classroom, an amusement hall, various exhibition rooms, and a studio.

  DESCRIPTION OF SYMBOLS 1 ... Electronic device, 3 ... Remote control transmitter, 3a ... Infrared signal, 5 ... Remote control cable, 6 ... Remote control cable connector, 7a ... Infrared noise, 20, 20A, 20B, 20C ... External remote control light-receiving device, 21 ... For output Connector, 22 ... Remote control light receiving unit, 23 ... Case, 24 ... Input connector, 25 ... Power supply connector, 26 ... Power supply switching unit, 27 ... Signal amplification unit, 28 ... Shielding object, 31 ... External power supply.

Claims (12)

To a remote control cable connector for connecting a remote control transmission device in an electronic device, an external remote control light receiving device connected using the same remote control cable as that for connecting a remote control transmission device,
A housing that shields the intrusion of infrared rays from the outside, a remote control light receiving unit that receives infrared signals from a remote control transmission device and converts them into electrical signals, and a remote control that transmits the converted electrical signals An external remote control light-receiving device comprising an output connector for connecting a cable.   2. The external remote control light receiving device according to claim 1, wherein the casing is configured to be fixed to an object to be fixed by a detachable mounting means.   3. The external remote controller according to claim 1, wherein the output connector includes a signal terminal for transmitting a signal, a GND terminal for grounding, and a power supply terminal for receiving power supply from an electronic device. Light receiving device.   The external remote control light receiving device according to any one of claims 1 to 3, further comprising a signal amplifying unit that amplifies an electric signal received and converted by the remote control light receiving unit. Remote control light receiving device.   5. The external remote control light receiving device according to claim 1, wherein a plurality of the output connectors are provided. 6.   6. The external remote control light receiving device according to claim 1, wherein one or a plurality of input connectors for connecting another external remote control light reception device with a remote control cable are provided. External remote control light receiving device.   7. The external remote control light receiving device according to claim 6, wherein a power connector for receiving power from an external power source, a power source supplied from a power source terminal of the output connector, and a power source supplied from the power source terminal. An external remote control light receiving device comprising: a power supply switching unit to be selected.   The external remote control light receiving device according to any one of claims 1 to 5, wherein infrared noise that enters from an output connector or a gap formed between the output connector and a housing is input to the remote control light receiving unit. An external remote-control light-receiving device, characterized in that a shield for shielding infrared noise is provided inside the housing so as not to reach it.   7. The external remote control light receiving device according to claim 6, wherein infrared noise that enters from an output connector, an input connector, or a gap formed between these connectors and the housing does not reach the remote control light receiving unit. An external remote control light receiving device, characterized in that a shielding object for shielding infrared noise is provided inside the housing.   8. The remote control light receiving device according to claim 7, wherein infrared noise entering from an output connector, an input connector, a power supply connector, or a gap formed between these connectors and a housing is generated by the remote control light receiving unit. An external remote control light receiving device, characterized in that a shield for shielding infrared noise is provided inside the housing so as not to reach.   A remote control cable connector for connecting the remote control transmission device is provided, and the same remote control cable as that used when connecting the remote control transmission device to the remote control cable connector is used. An electronic apparatus characterized in that the external remote control light-receiving device described above can be connected.   The electronic device according to claim 11, wherein the electronic device is a projector.

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