JP2021157132A - Projector and image projection method - Google Patents

Abstract

To provide a projector that can simply check images actually projected to a projected body.SOLUTION: A projector 10 comprises: a storage unit 18 that stores image data; a projection unit 14 that projects an image corresponding to the image data to a projected body 51; and a control unit 17 that controls the projection unit 14 to thereby change the image to be projected from the projection unit 14; and a communication unit 16 that receives a designation signal s1 designating at least one of an image content of the image, a brightness setting value thereof and a color temperature setting value thereof. The control unit 17 is configured to provisionally change at least the one of the image content of the image to be projected from the projection unit 14, brightness setting value thereof and color temperature setting value on the basis of the designation signal s1.SELECTED DRAWING: Figure 6

Description

The present invention relates to a projector that projects an image and an image projection method.

Conventionally, a projector capable of projecting a desired image of a user is known. Patent Document 1 discloses a projector that can be installed on a ceiling or the like and can adjust the direction in which light is projected after installation. Such a projector is also used to produce the space in which the projector is installed.

Japanese Unexamined Patent Publication No. 2017-173574

When projecting an image on a projector to create a space, the user individually selects the subject of the image to be projected (for example, natural objects such as sunlight through trees and the water surface) and the projection conditions of the image using a terminal device for operation. Do the operation to do. However, the actually projected image may differ from the user's image depending on the material and color of the projected object (for example, wall, floor, screen) on which the image is projected, the brightness of the space, and the like. Therefore, a projector that can easily confirm the image actually projected on the projected object is desired.

The present invention provides a projector or the like that can easily confirm an image actually projected on a projected object.

In order to achieve the above object, one aspect of the projector according to the present invention controls a storage unit that stores image data, a projection unit that projects an image corresponding to the image data onto a projected object, and the projection unit. A control unit that changes the image projected from the projection unit, and a communication unit that receives a designated signal that specifies at least one of the image content, brightness setting value, and color temperature setting value of the image. The control unit temporarily changes at least one of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit based on the designated signal.

In order to achieve the above object, one aspect of the image projection method according to the present invention is a designation of designating at least one of a step of projecting an image and an image content, a brightness set value, and a color temperature set value of the image. It includes a step of receiving a signal and a step of temporarily changing at least one of the image content, brightness setting value and color temperature setting value of the image to be projected based on the designated signal.

According to the projector or the like of the present invention, the image projected on the projected object can be easily confirmed.

It is a schematic diagram which shows the image projection system which includes the projector which concerns on embodiment. It is a block diagram which shows the functional structure of the image projection system which includes the projector which concerns on embodiment. It is a figure which shows the terminal device which is connected to the projector of an embodiment by communication. It is a figure which shows the information included in the designated signal received by the communication part of the projector of embodiment. It is a figure which shows the scene information which is stored in the storage part of the projector of embodiment. It is a figure which shows the operation of the projector which concerns on embodiment. It is a figure which shows the operation of the projector which concerns on the modification 1 of embodiment. It is a figure which shows the operation of the projector which concerns on the modification 2 of embodiment. It is a figure which shows the operation of the projector which concerns on the modification 3 of embodiment.

Hereinafter, embodiments will be described with reference to the drawings. It should be noted that all of the embodiments described below show comprehensive or specific examples. Numerical values, shapes, materials, components, arrangement positions and connection forms of components, steps, order of steps, etc. shown in the following embodiments are examples, and are not intended to limit the present invention. Further, among the components in the following embodiments, the components not described in the independent claims will be described as arbitrary components.

It should be noted that each figure is a schematic view and is not necessarily exactly shown. Further, in each figure, substantially the same configuration is designated by the same reference numerals, and duplicate description may be omitted or simplified.

(Embodiment)
[1. Image projection system configuration]
First, the configuration of the image projection system will be described with reference to FIGS. 1 to 3.

FIG. 1 is a schematic view showing an image projection system 100 including the projector 10 according to the embodiment. FIG. 2 is a block diagram showing a functional configuration of an image projection system 100 including a projector 10.

As shown in FIGS. 1 and 2, the image projection system 100 includes a projector 10, a terminal device 20, and an image controller 40. The image projection system 100 is installed in an indoor space such as a commercial facility, a hotel, a restaurant, or a toilet.

The projector 10 is an embedded (in other words, downlight type) video output device embedded in the ceiling of the space 50. The space 50 is, for example, a closed space such as a room. The image projected by the projector 10 is, for example, a monochrome image (in other words, a grayscale image) that imitates a subject of a natural object such as sunlight through a tree (shadow of a tree), a sandy beach, or a water surface. The subject is an object represented by a projected image of a natural object, a building, a landscape, or the like. The image here means a moving image, but may be a still image.

As shown in FIG. 2, an AC power supply 30 is connected to the projector 10. Further, the control signal sc output from the image controller 40 is input to the projector 10 via the signal line. Further, the mode switching signal s0 output from the terminal device 20 and the designated signal s1 for designating the image to be temporarily projected are input to the projector 10. The mode switching signal s0 and the designated signal s1 will be described later.

The image controller 40 is a controller for controlling an image projected from the projector 10, and is installed, for example, on a wall of space. The control signal sc output by the image controller 40 is a standardized signal for controlling the luminaire, and is, for example, a PWM (Pulse Width Modulation) signal used for dimming the luminaire. For example, in the image projection system 100, the image projected from the projector 10 can be switched by changing the duty ratio of the PWM signal.

The image projected from the projector 10 can also be switched by the remote controller of the projector 10 or the terminal device 20.

FIG. 3 is a diagram showing a terminal device 20 communicatively connected to the projector 10.

The terminal device 20 is a remote controller that serves as a user interface for accepting user operations and operating the projector 10 in response to the accepted operations. The terminal device 20 is realized by installing an application program on a general-purpose mobile terminal such as a smartphone or tablet terminal owned by the user.

The terminal device 20 includes an operation reception unit 21, a display unit 22, a terminal communication unit 23, a control unit 27, and a storage unit 28 (see FIG. 2).

The operation reception unit 21 receives various settings of the image to be projected on the projector 10 from the user. The operation reception unit 21 is realized by, for example, a touch panel, a hardware button, or the like.

The display unit 22 displays an image under the control of the control unit 27. The display unit 22 displays, for example, options related to various settings accepted by the operation reception unit 21. Specifically, the display unit 22 is realized by a display panel such as a liquid crystal panel or an organic EL panel.

The terminal communication unit 23 is a communication module (communication circuit) for the terminal device 20 to communicate with the projector 10 via a local communication network. The communication performed by the terminal communication unit 23 is, for example, wireless communication, but may be wired communication.

The control unit 27 performs various information processing related to the operation of the terminal device 20. The control unit 27 is realized by a processor, a microcomputer, or the like.

The storage unit 28 is a storage device that stores programs such as application programs executed by the control unit 27. The storage unit 28 stores a table showing various settings of the image temporarily projected from the projector 10. Specifically, the storage unit 28 is realized by a volatile storage device such as a static RAM (Random Access Memory) or a dynamic RAM, or a non-volatile storage device such as a flash memory.

In the image projection system 100 of the present embodiment, various settings of the image are made by using the terminal device 20 while the user confirms the image actually projected on the projected object 51 by the projector 10.

[2. Projector configuration]
Next, the configuration of the projector 10 will be described with reference to FIGS. 2, 4 and 5.

As shown in FIG. 2, the projector 10 includes a power supply unit 11, a light source driving unit 12, a light source 13, a projection unit 14, a communication unit 16, a control unit 17, a storage unit 18, and a signal acquisition unit. 19 and.

The power supply unit 11 is a power conversion circuit that converts AC power supplied from an AC power source 30 outside the projector 10 into DC power.

The light source driving unit 12 is a circuit for adjusting the brightness of the light source 13 by using the electric power supplied from the power supply unit 11. The light source driving unit 12 operates based on the signal output from the control unit 17.

The light source 13 is, for example, a light source that emits white light. Specifically, the light source 13 is realized by a light emitting diode (LED: Light Emitting Diode). The light source 13 may be realized by a semiconductor laser, an organic EL (Electroluminescence), an inorganic EL, or the like. The light emitted by the light source 13 is not limited to white light. Further, the light source 13 may have a plurality of LEDs having different light colors. When the light source 13 has a plurality of LEDs or the like having different light colors, even if the light emitted by the light source 13 is dimmed and toned by the control unit 17 adjusting the amount of current to each light source or the like. good.

The projection unit 14 has a function of projecting an image on a projected object 51 such as a floor surface, a wall, or a screen. The projection unit 14 has an image element 14a and a projection lens 14b. The image element 14a emits as an image by modulating the light emitted by the light source 13. Specifically, the image element 14a is a light-transmitting image element such as a transmissive liquid crystal panel, but may be a reflective image element such as a micromirror array or a reflective liquid crystal panel. The projection lens 14b is an optical element that projects an image emitted by the image element 14a onto the projected object 51.

The communication unit 16 is a communication circuit (in other words, a communication module) for the projector 10 to communicate with the terminal device 20. The communication unit 16 performs wireless communication such as radio wave communication or optical communication, but may perform wired communication. The communication standard for communication performed by the communication unit 16 is not particularly limited.

The communication unit 16 receives the mode switching signal s0 transmitted from the terminal device 20. The mode switching signal s0 is a signal for switching between the operation mode m1 and the setting mode m2, which are the two modes of the projector 10.

Further, the communication unit 16 receives the designated signal s1 transmitted from the terminal device 20. The designated signal s1 is a signal for designating various settings of the image projected from the projection unit 14.

FIG. 4 is a diagram showing information included in the designated signal s1 received by the communication unit 16 of the projector 10.

The designated signal s1 includes information for designating at least one of the image content of the image, the brightness setting value, and the color temperature setting value as various settings of the image. The image content is a word or a representative image that concisely expresses the content of the image data, and is, for example, content such as sunbeams A and water surface A. The brightness setting value is the dimming rate of the light source 13, and is, for example, any value of 0% or more and 100% or less. The color temperature set value is the color temperature of the light source 13, and is, for example, any value of 2700 K or more and 6500 K or less. Further, the designated signal s1 includes schedule information regarding the projection of the image, that is, information regarding the date and time when the image is projected. The designated signal s1 includes image content, color temperature set value, brightness set value, schedule information, contrast ratio, focus, aspect ratio, playback speed, projection angle, projection magnification, and the like. You may.

The storage unit 18 stores a plurality of image data, the correspondence relationship between the image content corresponding to the image data and the control signal sc. The storage unit 18 also stores a program executed by the control unit 17. Further, the storage unit 18 stores scene information described later. Specifically, the storage unit 18 is a volatile storage device such as a static RAM or a dynamic RAM, or a non-volatile storage device such as a magnetic disk, an optical disk, a photomagnetic disk, a ROM (Read Only Memory), or a flash memory. It is realized by such as.

The control unit 17 is a control device that controls the light source 13 (more specifically, the light source driving unit 12) and the image element 14a. The control unit 17 controls the light source 13 and the image element 14a based on the signal received by the communication unit 16 or the signal acquisition unit 19. Specifically, the control unit 17 controls the projection unit 14 to change the image projected from the projection unit 14. The control unit 17 is operated by the electric power supplied from the power supply unit 11. The control unit 17 is realized by a microcomputer, but may be realized by a processor or a dedicated circuit.

The control unit 17 has two control modes, an operation mode m1 and a setting mode m2. The operation mode m1 is a mode of normal operation, and is applied when the projector 10 is automatically operated. The setting mode m2 is a mode for setting various images, and is applied when the user confirms the image state of the image actually projected on the projected object 51.

The control unit 17 projects a predetermined moving image from the projection unit 14 in the operation mode m1 (see (a) in FIG. 6). When the control unit 17 receives the mode switching signal s0 for switching the operation mode m1 to the setting mode m2 via the communication unit 16, the control unit 17 changes the operation mode m1 to the setting mode m2.

When the control unit 17 receives the designated signal s1 that specifies various settings of the image in the setting mode m2, the control unit 17 receives the image content, brightness setting value, and color temperature of the image projected from the projection unit 14 based on the designated signal s1. At least one of the set values is temporarily changed, and the changed confirmation image is projected from the projection unit 14 (see (b) in FIG. 6). By changing various settings of the confirmation image, the confirmation image projected on the projected object 51 becomes an image having a slightly different taste from the image data stored in the storage unit 18. When the image data stored in the storage unit 18 is moving image data, the confirmation image is a moving image.

When the control unit 17 receives the designated signal s1, the control unit 17 stores information regarding various image settings before changing to the setting mode m2, that is, various image settings of the operation mode m1 as the first scene information i1 in the storage unit 18. Remember.

The user adjusts various settings of the confirmation image by using the terminal device 20 so that the confirmation image actually projected on the projected object 51 matches his / her own image. Then, after determining various settings of the image, the user transmits information regarding various settings of the determined image to the projector 10.

The control unit 17 stores the information related to various image settings transmitted from the terminal device 20, that is, various image settings determined in the setting mode m2, as the second scene information i2 in the storage unit 18.

FIG. 5 is a diagram showing scene information stored in the storage unit 18 of the projector 10. The first scene information i1 includes information such as an image content of an image in the operation mode m1, a brightness set value, and a color temperature set value. Further, the first scene information i1 includes the reproduction time of the image before changing to the setting mode m2, that is, the reproduction time of the image in the operation mode m1. The second scene information i2 includes information such as the image content of the image determined in the setting mode m2, the brightness setting value, and the color temperature setting value.

When the brightness setting value and the color temperature setting value are set a plurality of times for the same image content, the control unit 17 reads and reads out the second scene information i2 stored in the storage unit 18 last time. A confirmation image based on the second scene information i2 may be projected. After accepting the change of the brightness set value and the color temperature set value for the confirmation image again, the control unit 17 stores the changed second scene information i2 in the storage unit 18.

When the control unit 17 receives the mode switching signal s0 for switching the setting mode m2 to the operation mode m1 via the communication unit 16, the control unit 17 changes the setting mode m2 to the operation mode m1. That is, after finishing the process of temporarily changing the image, the control unit 17 projects the image based on the first scene information i1 stored in the storage unit 18 from the projection unit 14 ((c) of FIG. 6). reference). For example, the control unit 17 may project the image after the interruption in the operation mode m1 from the projection unit 14 based on the reproduction time of the image included in the first scene information i1.

The projector 10 of the present embodiment has a storage unit 18 that stores image data, a projection unit 14 that projects an image corresponding to the image data onto the projected object 51, and a projection unit 14 that controls the projection unit 14. It includes a control unit 17 that changes an image to be projected, and a communication unit 16 that receives a designated signal s1 that specifies at least one of an image content, a brightness set value, and a color temperature set value of the image. The control unit 17 temporarily changes at least one of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit 14 based on the designated signal s1.

In this way, by temporarily changing at least one of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit 14, the user is actually projected onto the projected object 51. You can easily check the image.

[3. Projector operation]
Next, the operation of the projector 10 will be described in chronological order.

FIG. 6 is a diagram showing the operation of the projector 10.

The projector 10 projects a predetermined image based on the control signal sc output from the image controller 40 in the state of the operation mode m1 (S11) (see (a) of FIG. 6). FIG. 6A shows an example in which an image of sunlight through the trees A is projected as the predetermined image.

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the operation mode m1 to the setting mode m2 (S12). The control unit 17 stores information related to various settings of the image of the operation mode m1 immediately before the mode is switched in the storage unit 18 as the first scene information i1 (S13). The first scene information i1 includes the reproduction time of the image in the operation mode m1.

When the projector 10 receives the designated signal s1 that specifies various settings of the image in the setting mode m2, the projector 10 temporarily changes at least one of the image content, the brightness setting value, and the color temperature setting value of the projected image. The changed confirmation image is projected from the projection unit 14 (S14) (see (a) in FIG. 6). FIG. 6B shows an example in which an image of the water surface A is projected as a confirmation image.

At this time, the user adjusts various settings of the confirmation image by using the terminal device 20 so that the confirmation image actually projected on the projected object 51 matches his / her own image. Various settings of the image being adjusted are transmitted to the projector 10.

When the projector 10 is performing a process of temporarily changing an image, a designated signal for changing at least one setting of an image content, a brightness setting value, and a color temperature setting value of an image transmitted from the terminal device 20 is performed. When s1 is received, various settings of the confirmation image are further changed based on the designated signal s1, and the changed confirmation image is projected from the projection unit 14.

When the adjustment of the various settings of the confirmation image is completed, the projector 10 receives the decision notification regarding the various settings of the image from the terminal device 20. This ends the process of temporarily changing the image. The control unit 17 stores the information related to various settings of the image after the determination in the storage unit 18 as the second scene information i2 (S15). The process of recording the above information in the storage unit 18 does not necessarily have to be performed at the same time as the end of the process of temporarily changing the image. For example, the information determined in the setting mode m2 is stored in the storage unit 28 of the terminal device 20, then the information stored in the storage unit 28 is read out by the terminal device 20, and the read information is read from the terminal device 20 by the projector. By transmitting to 10, the storage unit 18 may store the information.

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the setting mode m2 to the operation mode m1 (S16). The projector 10 that has returned to the operation mode m1 projects an image based on the first scene information i1 (S17). In this example, the image based on the reproduction time of the operation mode m1, that is, the image of the sunbeams A interrupted in the operation mode m1 is continuously projected from the projection unit 14 (see (c) of FIG. 6).

The image projection method according to the present embodiment includes a step of projecting an image, a step of receiving a designated signal s1 for designating at least one of an image content, a brightness set value, and a color temperature set value of the image, and a designated signal. A step of temporarily changing at least one of the image content, brightness setting value, and color temperature setting value of the image to be projected based on s1 is included.

In this way, by temporarily changing at least one of the image content, the brightness setting value, and the color temperature setting value of the projected image, the user can easily confirm the actually projected image. Can be done.

[4. Modification 1 of the embodiment]
Next, the operation of the projector 10 according to the first modification of the embodiment will be described with reference to FIG. 7. In the first modification, an example in which an image is projected based on the schedule information instead of the playback time when the setting mode m2 is returned to the operation mode m1 will be described.

The projector 10 projects a predetermined image based on the control signal sc output from the image controller 40 in the operation mode m1 (S11, see (a) in FIG. 7).

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the operation mode m1 to the setting mode m2 (S12). The control unit 17 stores information related to various settings of the image of the operation mode m1 immediately before the mode is switched in the storage unit 18 as the first scene information i1 (S13). In the first modification, the first scene information i1 does not include the image reproduction time in the operation mode m1.

When the projector 10 receives the designated signal s1 that specifies various settings of the image in the setting mode m2, the projector 10 temporarily changes the various settings of the image to be projected, and projects the changed confirmation image from the projection unit 14 ( S14. See (b) in FIG. 7).

When the adjustment of the various settings of the confirmation image is completed, the projector 10 receives the decision notification regarding the various settings of the image from the terminal device 20. This ends the process of temporarily changing the image. The control unit 17 stores information related to various image settings determined in the setting mode m2 in the storage unit 18 as the second scene information i2 (S15).

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the setting mode m2 to the operation mode m1 (S16). The projector 10 that has returned to the operation mode m1 projects an image based on the schedule information in the operation mode m1 (S17A, see (c) in FIG. 7). In the first modification, the time spent in the setting mode m2 is omitted, and the image corresponding to the time of the schedule information is projected. The projected image may be an image of the first scene information i1 or an image different from the first scene information i1 depending on the time.

[5. Modification 2 of the embodiment]
Next, the operation of the projector 10 according to the second modification of the embodiment will be described with reference to FIG. In the second modification, when the setting mode m2 is returned to the operation mode m1, an example of projecting an image based on the second scene information i2 instead of the first scene information i1 will be described.

The projector 10 projects a predetermined image based on the control signal sc output from the image controller 40 in the operation mode m1 (S11, see (a) in FIG. 8).

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the operation mode m1 to the setting mode m2 (S12). In the second modification, since the first scene information i1 shown in the embodiment is not used, it is not necessary to store the first scene information i1 in the storage unit 18.

When the projector 10 receives the designated signal s1 that specifies various settings of the image in the setting mode m2, the projector 10 temporarily changes the various settings of the image to be projected, and projects the changed confirmation image from the projection unit 14 ( S14. See (b) in FIG. 8). In the second modification, the image determined in the setting mode m2 is projected in the operation mode m1 immediately after the end of the setting mode m2. Therefore, the designated signal s1 of the modification 2 includes schedule information for projecting the determined image after the end of the setting mode m2.

When the adjustment of the various settings of the confirmation image is completed, the projector 10 receives the decision notification regarding the various settings of the image from the terminal device 20. This ends the process of temporarily changing the image. The control unit 17 stores information related to various image settings determined in the setting mode m2 in the storage unit 18 as the second scene information i2 (S15).

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the setting mode m2 to the operation mode m1 (S16). The projector 10 that has returned to the operation mode m1 projects an image based on the second scene information i2 (S17B, see (c) in FIG. 8).

[6. Modification 3 of the embodiment]
Next, the operation of the projector 10 according to the third modification of the embodiment will be described with reference to FIG. In the third modification, when another control signal is received from the outside in the setting mode m2, an example of projecting an image based on the other control signal after the setting mode m2 ends will be described.

Steps S11 to S14 are the same as those in the embodiment, and the description thereof will be omitted.

When the projector 10 receives the designated signal s1 that specifies various settings of the image in the setting mode m2, the projector 10 temporarily changes various settings of the image projected from the projection unit 14, and displays the changed confirmation image on the projection unit 14. (S14; see (b) in FIG. 9).

In the third modification, the control signal sc, which is a signal for switching the image, is received from the image controller 40 or the like during the process of temporarily changing the image in the setting mode m2 (S14C), but the control unit 17 Temporarily ignores this control signal sc and continues various settings of the confirmation image in the setting mode m2.

When the adjustment of the various settings of the confirmation image is completed, the projector 10 receives the decision notification regarding the various settings of the image from the terminal device 20. This ends the process of temporarily changing the image. The control unit 17 stores information related to various image settings determined in the setting mode m2 in the storage unit 18 as the second scene information i2 (S15).

Upon receiving the mode switching signal s0 transmitted from the terminal device 20, the projector 10 switches the setting mode m2 to the operation mode m1 (S16). The projector 10 that has returned to the operation mode m1 projects an image based on the control signal sc of the image controller 40 or the like received in the setting mode m2 (S17C, see (c) in FIG. 9).

In the third modification, when the process of temporarily changing the image is being performed, the scene information different from the first scene information i1 is received. The control unit 17 does not immediately project an image based on the above-mentioned different scene information. After the process of temporarily changing the image is completed, an image based on the different scene information is projected from the projection unit 14.

[7. Effect, etc.]
As described above, the projector 10 according to the present embodiment controls a storage unit 18 that stores image data, a projection unit 14 that projects an image corresponding to the image data onto the projected object 51, and a projection unit 14. A control unit 17 that changes the image projected from the projection unit 14 by doing so, and a communication unit 16 that receives a designated signal s1 that specifies at least one of the image content of the image, the brightness setting value, and the color temperature setting value. To be equipped. The control unit 17 temporarily changes at least one of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit 14 based on the designated signal s1.

In this way, by temporarily changing at least one of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit 14, the user is actually projected onto the projected object 51. You can easily check the image.

Further, the storage unit 18 stores the image content, the brightness set value, and the color temperature set value of the image before the image is temporarily changed as the first scene information i1, and the control unit 17 temporarily stores the image. After finishing the process of changing to, the image based on the first scene information i1 may be projected from the projection unit 14.

According to this, after the process of temporarily changing the image is completed, the image based on the first scene information i1, that is, the image before the change can be projected. Therefore, the work of recording various settings of the image before the change and the work of returning to the original settings while observing the recorded contents, which are conventionally performed, are reduced. As a result, the user can easily confirm the image actually projected on the projected object 51.

Further, the first scene information i1 includes the reproduction time of the image before the image is temporarily changed, and the control unit 17 projects the image based on the first scene information i1 based on the reproduction time. It may be projected from the unit 14.

According to this, after the process of temporarily changing the image is completed, the image based on the first scene information i1 can be projected based on the reproduction time. Therefore, the work of recording various settings of the image before the change and the work of returning to the original settings while observing the recorded contents, which are conventionally performed, are reduced. As a result, the user can easily confirm the image actually projected on the projected object 51.

Further, the designated signal s1 further includes schedule information regarding the image, and the control unit 17 may project an image based on the schedule information from the projection unit 14 after completing the process of temporarily changing the image. good.

According to this, the image based on the schedule information can be projected after the process of temporarily changing the image is completed. Therefore, the work of recording various settings of the image before the change and the work of returning to the original settings while observing the recorded contents, which are conventionally performed, are reduced. As a result, the user can easily confirm the image actually projected on the projected object 51.

Further, when the control unit 17 is performing the process of temporarily changing the image, the control unit 17 obtains scene information different from the image content, the brightness set value, and the color temperature set value of the image before the image is temporarily changed. When accepted, an image based on the different scene information may be projected from the projection unit 14 after the process of temporarily changing the image is completed.

According to this, it is possible to project an image based on the above-mentioned different scene information after performing a process of temporarily changing the image. Therefore, the work of recording various settings of the image before the change and the work of returning to the original settings while observing the recorded contents, which are conventionally performed, are reduced. As a result, the user can easily confirm the image actually projected on the projected object 51.

Further, the storage unit 18 may further store the image content, the brightness setting value, and the color temperature setting value of the image included in the designated signal s1 as the second scene information i2.

By storing the second scene information i2 in the storage unit 18 in this way, for example, it is possible to project an image based on the second scene information i2 after the process of temporarily changing the image is completed. Become. Therefore, the work of recording various settings of the image before the change, which is a conventional work, is reduced. As a result, the user can easily confirm the image actually projected on the projected object 51.

Further, the control unit 17 may project an image based on the first scene information i1 or an image based on the second scene information i2 from the projection unit 14 after the process of temporarily changing the image is completed.

According to this, after performing the process of temporarily changing the image, the image based on the first scene information i1 or the second scene information i2 can be projected. Therefore, the work of recording various settings of the image before the change and the work of returning to the original settings while observing the recorded contents, which are conventionally performed, are reduced. As a result, the user can easily confirm the image actually projected on the projected object 51.

Further, when the control unit 17 is performing a process of temporarily changing the image, the communication unit 16 changes at least one of the image content, the brightness set value, and the color temperature set value of the image. Is further received, at least one of the image content, brightness setting value, and color temperature setting value of the image projected from the projection unit 14 may be changed based on the designated signal s1.

According to this, the user can adjust the image actually projected on the projected object 51 so as to match his / her own image.

Further, the communication unit 16 may receive the designated signal s1 from the external terminal device 20.

According to this, the image actually projected on the projected object 51 can be easily confirmed by using the terminal device 20.

Further, the control unit 17 has an operation mode m1 for projecting an image corresponding to the image data from the projection unit 14, and a setting mode m2 for setting an image to be projected from the projection unit 14, and in the setting mode m2, the image At least one of the above image content, brightness setting value, and color temperature setting value may be temporarily changed.

According to this, the image actually projected on the projected object 51 can be easily confirmed by the setting mode m2 of the operation mode m1 and the setting mode m2.

Further, the projector 10 further includes a signal acquisition unit 19 that acquires a control signal sc for switching an image projected from the projection unit 14 from an external image controller 40, and the control unit 17 is based on the control signal sc in the operation mode m1. The image projected from the projection unit 14 may be switched.

According to this, an image can be projected based on the control signal sc from the image controller 40.

Further, the communication unit 16 receives the designated signal s1 that specifies at least two of the image content of the image, the brightness set value, and the color temperature set value, and the control unit 17 receives the designated signal s1 based on the designated signal s1 and the projection unit 14 At least two of the image content, brightness setting value, and color temperature setting value of the image projected from may be temporarily changed.

In this way, by temporarily changing at least two of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit 14, the user is actually projected onto the projected object 51. You can easily check the image.

Further, the communication unit 16 receives the designated signal s1 that specifies three settings of the image content setting, the brightness setting, and the color temperature setting of the image, and the control unit 17 receives the designated signal s1 based on the designated signal s1 and the projection unit 14 The above three of the image content, the brightness set value, and the color temperature set value of the image projected from may be temporarily changed.

In this way, by temporarily changing the above three of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit 14, the user is actually projected onto the projected object 51. You can easily check the image you have.

Further, the image projection method according to the present embodiment includes a step of projecting an image, a step of receiving a designated signal s1 for designating at least one of an image content of the image, a brightness set value, and a color temperature set value. A step of temporarily changing at least one of the image content, brightness setting value, and color temperature setting value of the image to be projected based on the designated signal s1 is included.

In this way, by temporarily changing at least one of the image content, the brightness setting value, and the color temperature setting value of the projected image, the user can easily confirm the actually projected image. Can be done.

(Other embodiments)
Although the embodiments have been described above, the present invention is not limited to the above embodiments.

For example, in the above embodiment, the projector 10 projects an image for effect, but a general image that is not for effect may be projected.

Further, for example, in the above embodiment, the projector 10 is described as projecting a monochrome image (in other words, a grayscale image), but a color image may be projected.

Further, for example, in the above embodiment, the projector 10 is a ceiling-embedded projector, but it may be a general projector installed on a desk. As described above, the present invention can also be applied to a general projector. Further, the space in which the projector 10 is installed may be an outdoor space. That is, an image may be projected by installing a projector outdoors.

Further, in the above embodiment, another processing unit may execute the processing executed by the specific processing unit. Further, the order of the plurality of processes may be changed, or the plurality of processes may be executed in parallel.

For example, the present invention may be realized as an image projection system of the above embodiment. The present invention may be realized as a control method for a projector. The present invention may be realized as a processing method of a terminal device. The present invention may be realized as a program for causing a computer to execute a control method of a projector, or may be realized as a computer-readable non-temporary recording medium in which such a program is recorded.

In addition, it is realized by applying various modifications to each embodiment that can be conceived by those skilled in the art, or by arbitrarily combining the components and functions of each embodiment within the range not deviating from the gist of the present invention. Also included in the present invention.

10 Projector 14 Projection unit 16 Communication unit 17 Control unit 18 Storage unit 19 Signal acquisition unit 20 Terminal device 40 Image controller 51 Projected object i1 First scene information i2 Second scene information m1 Operation mode m2 Setting mode s0 Mode switching signal s1 Designated signal sc Control signal

Claims (14)

A storage unit that stores image data and
A projection unit that projects an image corresponding to the image data onto the projected object, and
A control unit that changes the image projected from the projection unit by controlling the projection unit, and
A communication unit that receives a designated signal that specifies at least one of the image content, brightness set value, and color temperature set value of the image, and a communication unit.
With
The control unit is a projector that temporarily changes at least one of the image content, brightness setting value, and color temperature setting value of the image projected from the projection unit based on the designated signal. The storage unit stores the image content, the brightness set value, and the color temperature set value of the image before the image is temporarily changed as the first scene information.
The projector according to claim 1, wherein the control unit projects the image based on the first scene information from the projection unit after the process of temporarily changing the image is completed. The first scene information includes the playback time of the image before the image is temporarily changed.
The projector according to claim 2, wherein the control unit projects the image based on the first scene information from the projection unit based on the reproduction time. The designated signal further includes schedule information about the image.
The projector according to claim 1, wherein the control unit projects an image based on the schedule information from the projection unit after the process of temporarily changing the image is completed. When the control unit is performing a process of temporarily changing the image, scene information different from the image content, brightness set value, and color temperature set value of the image before the image is temporarily changed. The projector according to claim 1, wherein an image based on the different scene information is projected from the projection unit after the process of temporarily changing the image is completed. The storage unit further stores the image content, brightness setting value, and color temperature setting value of the image included in the designated signal as second scene information according to any one of claims 2 to 5. projector. 6. The control unit projects the image based on the first scene information or the image based on the second scene information from the projection unit after finishing the process of temporarily changing the image. The projector described in. When the control unit is performing a process of temporarily changing the image, the communication unit sends a designated signal for changing at least one of the image content, the brightness set value, and the color temperature set value of the image. Further, when received, any one of claims 1 to 7 for changing at least one of the image content, brightness setting value, and color temperature setting value of the image projected from the projection unit based on the designated signal. The projector according to item 1. The projector according to any one of claims 1 to 8, wherein the communication unit receives the designated signal from an external terminal device. The control unit has an operation mode for projecting an image corresponding to the image data from the projection unit and a setting mode for setting the image to be projected from the projection unit. The projector according to any one of claims 1 to 7, wherein at least one of the image content, the brightness set value, and the color temperature set value is temporarily changed. Further, it includes a signal acquisition unit that acquires a control signal for switching an image projected from the projection unit from an external image controller.
The projector according to claim 10, wherein the control unit switches the image projected from the projection unit based on the control signal in the operation mode. The communication unit receives a designated signal that specifies at least two of the image content, the brightness set value, and the color temperature set value of the image, and receives the designated signal.
The control unit temporarily changes at least two of the image content, the brightness setting value, and the color temperature setting value of the image projected from the projection unit based on the designated signal according to claims 1 to 11. The projector according to any one of the items. The communication unit receives a designated signal that specifies three settings of the image content setting, the brightness setting, and the color temperature setting of the image, and receives the designated signal.
Any of claims 1 to 11, wherein the control unit temporarily changes the three of the image content, the brightness set value, and the color temperature set value of the image projected from the projection unit based on the designated signal. The projector according to item 1. Steps to project an image and
A step of receiving a designated signal that specifies at least one of the image content, brightness setting value, and color temperature setting value of the image, and
A step of temporarily changing at least one of the image content, brightness setting value, and color temperature setting value of the image to be projected based on the designated signal.
Image projection method including.

Images