JP6015046B2 - Projection apparatus and projection system - Google Patents

Description

  The present invention relates to a projection apparatus and a projection system.

  2. Description of the Related Art Conventionally, in a projection apparatus such as a projector, for example, a projection apparatus is known in which an illuminance sensor is provided on the top surface of a projector housing and the brightness of a projected image is adjusted based on the illuminance obtained by the illuminance sensor. (For example, refer to Patent Document 1).

JP 2006-304316 A

By the way, the actual situation is that the projected image on the screen is affected by ambient light in the vicinity of the screen. For this reason, even if the brightness of the projected image is adjusted based on the detection result of the illuminance sensor provided in the housing as in the above-described projection apparatus, there is a large difference in brightness between the vicinity of the projection apparatus and the vicinity of the screen. In such a case, the projected image on the screen may become difficult to see.
Therefore, an object of the present invention is to provide a projection apparatus and a projection system that can adjust the brightness of a projected image according to the environment near the screen as much as possible.

In order to solve the above problems, according to one aspect of the present invention,
A projection device that has a first illuminance sensor that detects ambient illuminance, and that can be operated by a remote control that transmits an operation instruction together with the detection result of the first illuminance sensor,
A projection unit for projecting an image;
A first receiver for receiving a signal from the remote control;
A second receiver for receiving a signal from the remote control;
A signal received by the first receiving unit or the second receiving unit, having a determination unit for determining whether the first receiving unit or the second receiving unit has received a signal received from the remote control; A control unit for controlling the projection unit based on:
A housing that houses the projection unit, the first receiving unit, the second receiving unit, and the control unit;
A second illumination sensor for detecting the illuminance around the housing,
Equipped with a,
The first receiving unit is disposed on a projection side of the casing, which is a side on which an image is projected by the projection unit, and the second receiving unit is disposed on a side opposite to the projection side of the casing. And
The controller is
When the signal from the remote control is received by the first receiver, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor,
When a signal from the remote control is received by the second receiving unit, the illuminance of the projection unit is controlled based on the detection result of the second illuminance sensor.

According to another aspect of the invention,
In a projection system comprising a remote control and a projection device operable with the remote control,
The remote control has a first illuminance sensor that detects the illuminance around the remote control, and transmits an operation instruction together with the detection result of the first illuminance sensor,
The projector is
A projection unit for projecting an image;
A first receiver for receiving a signal from the remote control;
A second receiver for receiving a signal from the remote control;
A signal received by the first receiving unit or the second receiving unit, having a determination unit for determining whether the first receiving unit or the second receiving unit has received a signal received from the remote control; A control unit for controlling the projection unit based on:
A housing that houses the projection unit, the first receiving unit, the second receiving unit, and the control unit;
A second illumination sensor for detecting the illuminance around the housing,
Equipped with a,
The first receiving unit is disposed on a projection side of the casing, which is a side on which an image is projected by the projection unit, and the second receiving unit is disposed on the opposite side of the casing from the projection side. And
The controller is
When the signal from the remote control is received by the first receiver, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor,
When a signal from the remote controller is received by the second receiver, the projection system is provided that controls the illuminance of the projector based on the detection result of the second illuminance sensor.

  According to the present invention, it is possible to adjust the brightness of the projected image according to the environment near the screen as much as possible.

It is a schematic diagram which shows schematic structure of the remote control of this embodiment. It is a schematic diagram which shows schematic structure of the projector as a projection apparatus of this embodiment. It is a block diagram which shows the main control structure of the remote control of FIG. It is explanatory drawing at the time of outputting the output signal from the operation button of the remote control of FIG. 1, and the output signal from a 1st illumination intensity sensor. It is a block diagram which shows the main control structure of the projector of FIG. It is a flowchart which shows the flow of the illumination intensity adjustment program performed with the projector which concerns on this embodiment. It is a flowchart which shows the flow of the illumination intensity adjustment program performed with the projector which concerns on this embodiment. It is explanatory drawing at the time of dividing | segmenting the transmission signal received with the 1st receiver which concerns on this embodiment within a projector. It is explanatory drawing at the time of dividing | segmenting the transmission signal received by the 2nd receiver which concerns on this implementation system within a projector.

  The best mode for carrying out the present invention will be described below with reference to the drawings. However, although various technically preferable limitations for implementing the present invention are given to the embodiments described below, the scope of the invention is not limited to the following embodiments and illustrated examples.

  FIG. 1 is a schematic diagram illustrating a schematic configuration of a remote controller according to the present embodiment, and FIG. 2 is a schematic diagram illustrating a schematic configuration of a projector as a projection apparatus according to the present embodiment. The remote control 3 and the projector 1 constitute a projection system 100.

First, the remote controller 3 will be described.
As shown in FIG. 2, the remote controller 3 includes a plurality of operation buttons 31, a transmission unit 32 that outputs a signal based on the operation of the operation buttons 31, and a first illuminance sensor that detects the illuminance around the remote control 3. 33 and a case portion 34 for storing them are provided. The plurality of operation buttons 31 are arranged on one surface of the case portion 34. In addition, the transmission unit 32 is disposed at one end of the case unit 34. The first illuminance sensor 33 is disposed on the one end side where the transmission unit 32 is disposed on one surface of the case unit 34 so as to be positioned between the plurality of operation buttons 31 and the transmission unit 32. Yes.

  FIG. 3 is a block diagram showing a main control configuration of the remote controller 3. As shown in FIG. 3, a plurality of operation buttons 31, a first illuminance sensor 33, and a transmission unit 32 are electrically connected to the control unit 35 of the remote controller 3. Different operation instructions are assigned to the plurality of operation buttons 31. When the operation button 31 is pressed, a signal based on the operation instruction of each operation button 31 is output to the control unit 35. Here, when the operation button 31 is pressed, the detection result at the time of the pressing is also output to the control unit 35 from the first illuminance sensor 33 in conjunction with the pressing.

FIG. 4 is an explanatory diagram for explaining an example of outputting an output signal from the operation button 31 and an output signal from the first illuminance sensor 33. As shown in FIG. 4, the signals output from the first illuminance sensor 33 include a first signal output first and a second signal output later. A 1st signal is an identification signal which shows that a 2nd signal comes after that. The second signal is a signal based on the detection result of the first illuminance sensor 33. In the present embodiment, an output signal from the operation button 31, an output signal from the first illuminance sensor 33, a first signal indicating that the second signal is received, and an output signal from the first illuminance sensor 33, The second signal based on the detection result of the one illuminance sensor 33 is sequentially transmitted.
When a signal is input from each of the operation button 31 and the first illuminance sensor 33 at the same time, the control unit 35 delays the signal on the first illuminance sensor 33 side, combines it with the signal of the operation button 31, and integrates it. The converted transmission signal is transmitted from the transmission unit 32 to the projector 1. As a result, the detection result of the first illuminance sensor 33 and the operation instruction are transmitted to the projector 1.
Note that when the first illuminance sensor 33 cannot detect the surrounding illuminance when the operation button 31 is pressed due to some inconvenience such as the first illuminance sensor 33 being covered by the operator's hand, the operation button 31 Only the output signal 31 is transmitted from the transmitter 32 to the projector 1.

Next, the projector 1 will be described in detail.
As shown in FIG. 2, the projector 1 includes a housing 11, a projection unit 12 that projects an image from one surface of the housing 11 toward the screen S, and a first reception unit 13 that receives a signal from the remote controller 3. And a second receiver 14 that receives a signal from the remote controller 3, a second illuminance sensor 15 that detects the illuminance around the casing 11, and the second illuminance sensor 15 that switches between valid / invalid based on user operations. And a switching unit 17 composed of a switch. The first receiving unit 13 is disposed on one surface of the housing 11 on the front side (projection side). The second receiving unit 14 and the switching unit 17 are arranged on one surface of the rear surface side of the housing 11. Thereby, the 1st receiving part 13 can receive the signal from the front side which is the side which projects the image of the projector 1, and the 2nd receiving part 14 is from the back side opposite to the projection side of the projector 1. Can be received.
The second illuminance sensor 15 is disposed on the upper surface of the housing 11 so that the illuminance above the housing 11 can be detected.

FIG. 5 is a block diagram showing a main control configuration of the projector 1. As shown in FIG. 5, the projector 1 includes a connection unit 16 to which an external device 200 is connected, and a projection unit 12 that generates and projects an image based on an image signal input from the external device 200 via the connection unit 16. The first receiving unit 13, the second receiving unit 14, the switching unit 17, and the control unit 18 that controls them are housed in the housing 11.
The projection unit 12 includes a display element that generates an image, a light source that irradiates light to the display element, and a lens group that projects light transmitted from the light source through the display element onto the screen S.

  The control unit 18 includes a CPU 19, a RAM 20, and a ROM 21, and the CPU 19 develops a control program and control data in the ROM 21 in the RAM 20 to control each unit. For example, the control program includes an illuminance adjustment program for adjusting the illuminance of the projection unit 12.

6 and 7 are flowcharts showing the flow of the illuminance adjustment program.
The control unit 18 executes an illuminance adjustment program when the projector 1 is turned on.
In step S1, the control unit 18 determines whether or not the second illuminance sensor 15 is invalidated by the switching unit 17, and if invalid, the process proceeds to step S8, and if valid, the process proceeds to step S2. To do.

  In step S2, the control unit 18 determines whether or not a transmission signal from the remote controller 3 has been received. If received, the process proceeds to step S3. If not received, the process proceeds to step S6.

  In step S3, the control unit 18 determines whether or not the first reception unit 13 has received the transmission signal from the remote controller 3. If the first reception unit 13 receives the transmission signal, the control unit 18 proceeds to step S4, If it is received by the second receiver 14 instead of the one receiver 13, the process proceeds to step S6.

  In step S4, the control unit 18 determines whether or not the received transmission signal includes the output signal of the first illuminance sensor 33. If included, the control unit 18 proceeds to step S5 and does not include it. In this case, the process proceeds to step S6.

  In step S <b> 5, the control unit 18 adjusts the illuminance of the projection image by the projection unit 12 by adjusting the light amount of the light source of the projection unit 12 based on the detection result of the first illuminance sensor 33. FIG. 8 is an explanatory diagram illustrating an example when the transmission signal received by the first receiving unit 13 is divided in the projector 1. As shown in FIG. 8, the control unit 18 observes the transmission signal received by the first reception unit 13 and then detects the first signal that is an identification signal indicating that the second signal is received. The signal before the first signal is an output signal from the operation button 31, and it is determined that the signal after the first signal is a second signal based on the detection result of the first illuminance sensor 33. Is divided into a signal output from the first illuminance sensor 33 and the former is used for operation instructions, and the latter is used for illuminance adjustment. Thereby, the illuminance of the projection unit 12 is adjusted based on the illuminance around the remote controller 3. Thereafter, the control unit 18 proceeds to step S7 while maintaining the adjusted illuminance.

  In step S <b> 6, the control unit 18 adjusts the illuminance of the projection image by the projection unit 12 by adjusting the light amount of the light source of the projection unit 12 based on the detection result of the second illuminance sensor 15. FIG. 9 is an explanatory diagram when the transmission signal received by the second receiving unit 14 is divided in the projector 1. As shown in FIG. 9, the control unit 18 divides the transmission signal received by the second reception unit 14 into a signal output from the operation button 31 and a signal output from the first illuminance sensor 33. Is used for operation instructions, but the latter is not used, and the detection result of the second illuminance sensor 15 is used for illuminance adjustment. Thereby, the illuminance of the projection unit 12 is adjusted based on the illuminance around the projector 1. Thereafter, the control unit 18 proceeds to step S7 while maintaining the adjusted illuminance.

  In step S7, the control unit 18 determines whether or not the power of the projector 1 has been turned off during a predetermined time set in advance, and proceeds to step S2 if it is turned on during the predetermined time. If it is turned off during the predetermined time, the process ends.

  In step S8, the control unit 18 determines whether or not a transmission signal from the remote controller 3 has been received. If received, the process proceeds to step S9, and if not received, the process proceeds to step S11.

  In step S9, the control unit 18 determines whether or not the output signal of the first illuminance sensor 33 is included in the received transmission signal. If included, the control unit 18 proceeds to step S10 and does not include it. In this case, the process proceeds to step S11.

  In step S <b> 10, the control unit 18 adjusts the illuminance of the projection image by the projection unit 12 by adjusting the light amount of the light source of the projection unit 12 based on the detection result of the first illuminance sensor 33. That is, when the second illuminance sensor 15 is disabled by the switching unit 17, the illuminance of the projection unit 12 is adjusted based on the illuminance around the remote controller 3. Thereafter, the control unit 18 proceeds to step S11 while maintaining the adjusted illuminance.

  In step S11, the control unit 18 determines whether or not the power of the projector 1 has been turned off for a predetermined time set in advance, and proceeds to step S8 if turned on during the predetermined time. If it is turned off during the predetermined time, the process ends.

As described above, according to the present embodiment, when a signal from the remote controller 3 is received by the first receiver 13 disposed on the front side (projection side) of the housing 11, Is arranged on the screen S side with respect to the projector 1, and the illuminance of the projection unit 12 is adjusted based on the detection result of the first illuminance sensor 33 of the remote controller 3, so that the illuminance on the screen S side with respect to the projector 1 is adjusted. The illuminance around a certain remote controller 3 can be applied to the illuminance adjustment of the projection unit 12.
On the other hand, when a signal from the remote controller 3 is received by the second receiver 14 disposed on the back side of the housing 11, the projector 1 is disposed on the screen S side with respect to the remote controller 3. Since the illuminance of the projection unit 12 is adjusted based on the detection result of the second illuminance sensor 15 of the projector 1, the illuminance around the projector 1 that is closer to the screen S than the remote control 3 is set to the illuminance of the projection unit 12. Can be applied to adjustment.
Thus, when the remote control 3 is closer to the screen S than the projector 1, the illuminance around the remote control 3 can be applied to the illuminance adjustment of the projection unit 12. When it is close to S, the illuminance around the projector 1 can be applied to the illuminance adjustment of the projection unit 12, so that the brightness of the projector 1 can be adjusted according to the environment near the screen S as much as possible.

  In addition, when the signal from the remote controller 3 is received by the first receiver 13 and the detection result of the first illuminance sensor 33 does not exist in the signal, the detection result of the second illuminance sensor 15 Therefore, even if the illuminance on the remote controller 3 side is unknown due to some inconvenience, the illuminance of the projection unit 12 can be adjusted based on the illuminance on the projector 1 side.

  Further, when the second illuminance sensor 15 is disabled by the switching unit 17, the illuminance of the projection unit 12 is adjusted based on the detection result of the first illuminance sensor 33. In the case of a ceiling-mounted installation that is covered, it is possible to adjust the illuminance of the projection unit 12 based on the illuminance on the remote control 3 side by disabling the second illuminance sensor 15 in advance by the switching unit 17.

Moreover, since the 1st illumination intensity sensor 33 is arrange | positioned between the operation button 31 and the transmission part 32 on one surface of the case part 34, even if an operator hold | maintains the remote control 3 for operation, 1st illumination intensity It is possible to prevent the sensor 33 from being covered by the hand.
Note that the present invention is not limited to the above embodiment, and can be modified as appropriate.

Although several embodiments of the present invention have been described, the technical scope of the present invention includes the invention described in the claims and equivalents thereof.
Hereinafter, the invention described in the scope of claims of the present application will be appended.

[Appendix]
[Claim 1]
A projection device that has a first illuminance sensor that detects ambient illuminance, and that can be operated by a remote control that transmits an operation instruction together with the detection result of the first illuminance sensor,
A projection unit for projecting an image;
A first receiver for receiving a signal from the remote control;
A second receiver for receiving a signal from the remote control;
A control unit that controls the projection unit based on a signal received by the first reception unit or the second reception unit;
A housing that houses the projection unit, the first receiving unit, the second receiving unit, and the control unit;
A second illuminance sensor for detecting the illuminance around the housing,
The first receiving unit is disposed on a projection side of the casing, which is a side on which an image is projected by the projection unit, and the second receiving unit is disposed on the opposite side of the casing from the projection side. And
The controller is
When the signal from the remote control is received by the first receiver, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor,
When the signal from the remote controller is received by the second receiving unit, the illuminance of the projection unit is controlled based on the detection result of the second illuminance sensor.
[Claim 2]
The projection device according to claim 1,
The controller is
When the signal from the remote control is received by the first receiver and the detection result of the first illuminance sensor does not exist in the signal, based on the detection result of the second illuminance sensor And controlling the illuminance of the projection unit.
[Claim 3]
The projection apparatus according to claim 1 or 2,
A switching unit for disabling the second illuminance sensor;
The controller is
The projection apparatus, wherein when the second illuminance sensor is disabled by the switching unit, the illuminance of the projection unit is controlled based on a detection result of the first illuminance sensor.
[Claim 4]
In a projection system comprising a remote control and a projection device operable with the remote control,
The remote control has a first illuminance sensor that detects the illuminance around the remote control, and transmits an operation instruction together with the detection result of the first illuminance sensor,
The projector is
A projection unit for projecting an image;
A first receiver for receiving a signal from the remote control;
A second receiver for receiving a signal from the remote control;
A control unit that controls the projection unit based on a signal received by the first reception unit or the second reception unit;
A housing that houses the projection unit, the first receiving unit, the second receiving unit, and the control unit;
A second illuminance sensor for detecting the illuminance around the housing,
The first receiving unit is disposed on a projection side of the casing, which is a side on which an image is projected by the projection unit, and the second receiving unit is disposed on the opposite side of the casing from the projection side. And
The controller is
When the signal from the remote control is received by the first receiver, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor,
When the signal from the remote controller is received by the second receiver, the illuminance of the projector is controlled based on the detection result of the second illuminance sensor.
[Claim 5]
The projection system according to claim 4, wherein
The controller is
When the signal from the remote control is received by the first receiver and the detection result of the first illuminance sensor does not exist in the signal, based on the detection result of the second illuminance sensor And controlling the illuminance of the projection unit.
[Claim 6]
The projection system according to claim 4 or 5,
The projection apparatus includes a switching unit that switches between valid / invalid of the second illuminance sensor,
The controller is
When the second illuminance sensor is disabled by the switching unit, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor.
[Claim 7]
The projection system according to any one of claims 4 to 6, wherein
The remote control is
Operation buttons,
A transmitter for outputting a signal based on the operation of the operation button;
A case portion for storing the operation button and the transmission portion;
The operation button is disposed on one surface of the case portion,
The transmitting part is disposed at one end of the case part,
The projection system according to claim 1, wherein the first illuminance sensor is disposed on one surface of the case unit and between the operation button and the transmission unit.

1 Projector (projection device)
DESCRIPTION OF SYMBOLS 3 Remote control 11 Case 12 Projection part 13 1st receiving part 14 2nd receiving part 15 2nd illumination intensity sensor 16 Connection part 17 Switching part 18 Control part 31 Operation button 32 Transmission part 33 1st illumination intensity sensor 34 Case part 35 Control part 100 Projection system 200 External equipment S Screen

Claims (7)

A projection device that has a first illuminance sensor that detects ambient illuminance, and that can be operated by a remote control that transmits an operation instruction together with the detection result of the first illuminance sensor,
A projection unit for projecting an image;
A first receiver for receiving a signal from the remote control;
A second receiver for receiving a signal from the remote control;
A signal received by the first receiving unit or the second receiving unit, having a determination unit for determining whether the first receiving unit or the second receiving unit has received a signal received from the remote control; A control unit for controlling the projection unit based on:
A housing that houses the projection unit, the first receiving unit, the second receiving unit, and the control unit;
A second illumination sensor for detecting the illuminance around the housing,
Equipped with a,
The first receiving unit is disposed on a projection side of the casing, which is a side on which an image is projected by the projection unit, and the second receiving unit is disposed on a side opposite to the projection side of the casing. And
The controller is
When the signal from the remote control is received by the first receiver, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor,
When the signal from the remote controller is received by the second receiving unit, the illuminance of the projection unit is controlled based on the detection result of the second illuminance sensor. The projection device according to claim 1,
The controller is
When the signal from the remote control is received by the first receiver and the detection result of the first illuminance sensor does not exist in the signal, based on the detection result of the second illuminance sensor And controlling the illuminance of the projection unit. The projection apparatus according to claim 1 or 2,
A switching unit for disabling the second illuminance sensor;
The controller is
The projection apparatus, wherein when the second illuminance sensor is disabled by the switching unit, the illuminance of the projection unit is controlled based on a detection result of the first illuminance sensor. In a projection system comprising a remote control and a projection device operable with the remote control,
The remote control has a first illuminance sensor that detects the illuminance around the remote control, and transmits an operation instruction together with the detection result of the first illuminance sensor,
The projector is
A projection unit for projecting an image;
A first receiver for receiving a signal from the remote control;
A second receiver for receiving a signal from the remote control;
A signal received by the first receiving unit or the second receiving unit, having a determination unit for determining whether the first receiving unit or the second receiving unit has received a signal received from the remote control; A control unit for controlling the projection unit based on:
A housing that houses the projection unit, the first receiving unit, the second receiving unit, and the control unit;
A second illumination sensor for detecting the illuminance around the housing,
Equipped with a,
The first receiving unit is disposed on a projection side of the casing, which is a side on which an image is projected by the projection unit, and the second receiving unit is disposed on the opposite side of the casing from the projection side. And
The controller is
When the signal from the remote control is received by the first receiver, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor,
When the signal from the remote controller is received by the second receiver, the illuminance of the projector is controlled based on the detection result of the second illuminance sensor. The projection system according to claim 4, wherein
The controller is
When the signal from the remote control is received by the first receiver and the detection result of the first illuminance sensor does not exist in the signal, based on the detection result of the second illuminance sensor And controlling the illuminance of the projection unit. The projection system according to claim 4 or 5,
The projection apparatus includes a switching unit that switches between valid / invalid of the second illuminance sensor,
The controller is
When the second illuminance sensor is disabled by the switching unit, the illuminance of the projection unit is controlled based on the detection result of the first illuminance sensor. The projection system according to any one of claims 4 to 6, wherein
The remote control is
Operation buttons,
A transmitter for outputting a signal based on the operation of the operation button;
A case portion for storing the operation button and the transmission portion;
The operation button is disposed on one surface of the case portion,
The transmitting part is disposed at one end of the case part,
The projection system according to claim 1, wherein the first illuminance sensor is disposed on one surface of the case unit and between the operation button and the transmission unit.

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