JP2021124672A - Projection device, control method of projection device, and program - Google Patents

Abstract

To provide a projection device capable of preventing lighting due to incorrect operation even if a power button is pressed when carrying the projection device.SOLUTION: A projector 100 includes: a hold switch 20 that receives user operation for a predetermined operation button when the hold switch 20 is at a first slide position and disables the user operation for the predetermined operation button when the hold switch 20 is at a second slide position; and a power supply type detection section 30 that detects whether an AC power supply is connected as a lighting power supply of a light source. The predetermined operation button is an operation button for lighting the light source, and the hold switch 20 receives the user operation for the predetermined operation button even if the hold switch 20 is at the second slide position when the power supply type detection section 30 detects that the AC power supply is connected as the lighting power supply of the light source.SELECTED DRAWING: Figure 2

Description

The present invention relates to a projection device, a method for controlling the projection device, and a program.

Conventionally, a projection device has been developed (for example, Patent Document 1). In recent years, such a projection device has also been studied for a portable projection device that can be carried around.

Japanese Unexamined Patent Publication No. 2012-198439

By the way, when carrying a portable projection device in a bag, there is a possibility that the power button may be accidentally pressed by something. When projection starts inside the bag, it consumes power unnecessarily. In addition, problems occur due to heat storage by the light source and projected light.

An object of the present invention is that when the projection device is carried, the projection device does not light up due to an erroneous operation even if the power button is pressed.

The present invention has been made in view of such a background, and can prevent lighting due to an erroneous operation even if the power button is pressed when carrying the projection device, a projection device, a control method for the projection device, and a method for controlling the projection device. The challenge is to provide a program.

In order to achieve the above object, the present invention
A projection device configured to be able to connect an AC power supply and a DC power supply as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not the AC power supply is connected as a power supply for lighting the light source, and
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that the AC power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
It is a projection device characterized by this.

In order to achieve the above object, the present invention
A projection device configured to connect a commercial power source and a battery power source as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not the commercial power source is connected as a power source for lighting the light source, and
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that the commercial power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
It is a projection device characterized by this.

It is a projection device configured so that a predetermined battery power source can be connected as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source.
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button. Is accepted even when the slide switch is in the second slide position.
It is a projection device characterized by this.

Further, in order to achieve the above object, the present invention
It is a control method of a projection device configured to be able to connect a predetermined battery power source as a power source for lighting a light source.
The user operation for the operation button for turning on the light source is accepted when the slide switch is in the first slide position, and the user operation for the operation button is invalidated when the slide switch is in the second slide position. To disable steps and
A detection step for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source, and
Including
In the invalidation step, when it is detected by the detection step that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, a user operation on the operation button is performed. A reception step that accepts even when the slide switch is in the second slide position,
It is a control method of a projection apparatus characterized by including.

Further, in order to achieve the above object, the present invention
To a computer that is configured to be able to connect a predetermined battery power source as a power source for lighting the light source,
The user operation for the operation button for turning on the light source is accepted when the slide switch is in the first slide position, and the user operation for the operation button is invalidated when the slide switch is in the second slide position. The invalidation process to make
A detection step for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source.
With
In the invalidation step, when it is detected by the detection step that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, a user operation on the operation button is performed. A reception process that accepts even when the slide switch is in the second slide position.
It is a program characterized by executing.

According to the present invention, when carrying the projection device, it is possible to prevent lighting due to an erroneous operation even if the power button is pressed.

It is an external perspective view which showed the appearance of the projector which concerns on this embodiment. It is a functional block diagram which showed the internal structure of the projector which concerns on this embodiment. It is a top view of the projector which concerns on this embodiment. It is a flowchart which showed the process when the CPU of the projector which concerns on this embodiment presses a power button.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the examples. The same components are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

[Appearance configuration of projector]
The appearance of the projector (projection device) according to the present embodiment will be described with reference to FIG. FIG. 1 is an external perspective view showing the appearance of the projector 100 according to the present embodiment.

As shown in FIG. 1, the projector 100 according to the present embodiment is formed in a substantially rectangular parallelepiped shape. In the present embodiment, the left and right directions in the projector 100 indicate the left and right directions with respect to the projection direction, and the front and back indicates the front and rear directions with respect to the screen side direction of the projector 100 and the traveling direction of the light flux. ..

The projector 100 according to the present embodiment is a projection device capable of operating with either a battery power source as a DC power source or a non-battery power source (commercial power source as an AC power source). The projector 100 includes a hold switch 20, an operation unit 40, and a projection optical system 90. The operation unit 40 includes a power button 10. As for the power supply other than the battery power supply, a commercial power supply will be described as an example, but the power supply is not particularly limited to the commercial power supply.

The power button 10 is composed of, for example, a push-type power button. The power button 10 is a power source for lighting a light source that normally turns on the projector 100 when pressed by the user. Further, the power button 10 is a power source for turning off the light source that turns off the power of the projector 100 when pressed when the power of the projector 100 is on.

The hold switch 20 (input control means) is composed of a slide type switch (simply also referred to as a slide switch). The hold switch 20 is formed on the upper surface of the projector 100 in a convex shape. The projector 100 enables the operation of the power button 10 when the hold switch 20 which is a slide switch is off (when the hold switch 20 is in the first slide position). That is, the user operation for the power button 10 (operation button for turning on the light source) is accepted. However, in the case of battery drive, when the hold switch 20 is on (when the hold switch 20 is in the second slide position), the operation of the power button 10 is invalidated. The projector 100 according to the present embodiment may be configured to invalidate the operation of the power button 10 when the hold switch 20 is off (when the hold switch 20 is in the first slide position). .. In the present specification, as an example, the projector 100 describes an embodiment in which the operation of the power button 10 is invalidated when the hold switch 20 is on (when the hold switch 20 is in the second slide position).

As an example, the hold switch 20 is designed to slide in the front-rear direction of the projector 100, and when it is slid toward the screen 200, it turns on and invalidates the operation of the power button 10. Further, when the hold switch 20 is provided so as to slide in the left-right direction of the projector 100, the hold switch 20 is turned on when, for example, is slid from the right side to the left side, and the operation of the power button 10 is invalidated.

The operation unit 40 includes various keys, indicators, and the like. The various keys are composed of menu keys, button keys, escape keys, etc. that indicate settings at the time of projection. The indicator is composed of a power indicator for notifying the on / off of the power supply, an overheating indicator for notifying when the light source device or the display element is overheated, and the like. The details will be described with reference to FIG.

The projection optical system 90 is composed of optical system components such as a lens and a lens barrel, and emits an optical image reflected by a projection unit, which will be described later, to the screen 200.

[Projector configuration]
The internal configuration of the projector 100 of the present embodiment will be described with reference to FIG. The same configurations as those in FIG. 1 are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

FIG. 2 is a functional block diagram showing the internal configuration of the projector 100 according to the present embodiment. As shown in FIG. 2, the projector 100 includes a hold switch 20, a power supply type detection unit 30, an operation unit 40, an EEPROM (Electrically Erasable and Programmable-Read Only Memory) 50, a CPU (Central Processing Unit) 60, and a light source device. It includes 70, a commercial power supply 71, a battery 72, a power supply 73, a projection unit 80, and a projection optical system 90.

The projector 100 shown in FIG. 2 includes a power supply type detection unit 30, an EP-ROM 50, a CPU 60, a light source device 70, a commercial power supply 71, a battery 72, a power supply 73, and a projection unit 80 in the projector 100 shown in FIG. It is composed of.

The power supply type detection unit 30 (detection means) detects whether or not it is battery-powered. The power supply type detection unit 30 can determine whether or not the battery is driven by the voltage value input from the power supply 73, for example. Alternatively, when it is battery-powered, it is possible to determine whether or not it is battery-powered because a pulse signal is output from the battery, unlike when it is driven by an AC power source. The CPU 60 (acquisition means) acquires the result detected by the power supply type detection unit 30 that detects whether or not the battery is driven.

The EEP-ROM 50 stores various data including programs and image data necessary for initial setting of the CPU 60.

The CPU 60 constitutes the main CPU in the projector 100. The CPU 60 performs conversion for adjusting the number of resolutions, the number of gradations, and the like on the input image data, and generates image data in a predetermined format suitable for projection. The CPU 60 sends the converted image data to the projection unit 80. The CPU 60 performs geometric transformation of the projected image, and performs distortion correction processing so that the image is projected on the screen 200 in an appropriate shape according to the projection state. Further, the CPU 60 displays and drives the projection unit 80 by a high-speed time division drive.

The CPU 60 detects whether or not a commercial power supply as an AC power supply is connected by the power supply type detection unit 30 (detection means), and when it detects that the battery is driven by a battery power supply as a DC power supply, the hold switch is used. When 20 is on (when the hold switch 20 is in the second slide position), the operation of the power button 10 is invalidated. The CPU 60 may be configured by using a circuit by hardware for a function of disabling the operation of the power button 10, or by using a sub CPU for power management different from the CPU 60, the power button 10 may be used. You may disable the operation of. When the power supply type detection unit 30 (detection means) detects that the hold switch 20 (input control means) is connected to a commercial power source as an AC power source as a power source for lighting a light source, the hold switch 20 is used. Even when it is on (when the slide switch is in the second slide position), the user operation for the power button 10 is accepted.

The light source device 70 includes a blue laser diode that emits blue (B) laser light, a phosphor that is irradiated with the blue laser light and emits green (G) light, and a red LED that emits red (R) light. (Light Emitting Video) is provided. As a result, the light source device 70 can emit light. The light source device 70 is controlled by the CPU 60.

The commercial power source 71 is electric power supplied from an electric power company, and when a power cord is inserted into an outlet, an alternating current from the electric power company is converted into a direct current to generate electric energy.

The battery 72 is one of a secondary battery or a primary battery, and is a battery used as electric energy by converting electric energy into chemical energy and storing it, and reducing the chemical energy to electric energy as needed.

The power source 73 is a supply source of electric energy, and electric energy is supplied from a commercial power source 71 or a battery 72 to supply electric power to the projector 100. Further, the power supply 73 outputs a voltage to the power supply type detection unit 30.

The projection unit 80 is composed of a plurality of micromirrors arranged in an array. For example, each tilt angle of the micromirrors for 1280 pixels in the horizontal direction and 800 pixels in the vertical direction is individually turned on / off at high speed, and the reflected light thereof. To form an optical image. In this case, the projection unit 80 turns on / off each minute mirror according to the image data input from the CPU 60. Further, the projection unit 80 periodically emits the primary color light of R, G, and B from the light source device 70 in a time division manner, and the primary color light is irradiated. An optical image is formed by the reflected light from the projection unit 80, and the formed optical image is projected onto the screen 200 via the projection optical system 90, and the optical image is displayed.

As a result, the projector 100 projects the optical image projected from the projection optical system 90 onto the projected surface of the screen 200.

[Projector configuration]
The configuration of the upper surface of the projector 100 according to the present embodiment will be described with reference to FIG. The same configurations as those in FIGS. 1 and 2 are designated by the same reference numerals, and the description thereof will be omitted as appropriate.

FIG. 3 is a top view of the projector 100 according to the present embodiment. As shown in FIG. 3, a hold switch 20 and an operation unit 40 are provided on the upper surface of the projector 100.

The operation unit 40 includes a power button 10, an input key 41, a button key 42, a menu key 43, an escape key 44, and indicators 51 and 52, and is provided on the upper surface of the projector 100.

The input key 41 is used to switch the input source. The button key 42 includes arrow keys (left key 421, up key 422, right key 423, down key 424) indicating the direction of the cursor, and an enter key 425 indicating confirmation. The menu key 43 is used to display the setting menu. The escape key 44 is used to return to the previous screen.

The indicator 51 indicates, for example, the usage status of the power supply, and is displayed in red together with other indicators immediately after the power cord is plugged into the outlet. After that, when the projector 100 goes into the standby state, only the indicator 51 is displayed in red. On the other hand, when the indicator 51 is displayed in green, it indicates that the projector 100 can be used by the battery 72 or the commercial power supply 71.

The indicator 52 indicates, for example, a warning message, and lights up in red when the inside becomes hot or when an abnormality occurs in the system. On the other hand, if there is no trouble with the projector 100, the light is turned off. When indicating a warning message, the indicator 52 can indicate the content of the error by lighting or blinking in red.

[Projector control method]
Next, the lighting prevention process due to an erroneous operation of the projector 100 will be described with reference to the flowchart shown in FIG. FIG. 4 is a flowchart showing a process when the CPU 60 of the projector 100 according to the present embodiment presses the power button 10.

The lighting prevention process due to an erroneous operation by the CPU 60 is started in a state where electric energy (electric power) is supplied to the projector 100 by a commercial power source 71 or a battery 72. In other words, the lighting prevention process due to an erroneous operation by the CPU 60 operates when power is supplied from the power source 73. The commercial power supply 71 is not limited to this, and may be a power supply other than the battery 72.

When the power button 10 is pressed (step S001), the CPU 60 of the projector 100 causes the power supply type detection unit 30 to detect whether or not the battery is battery-powered by the battery 72 (step S003). In this case, for example, there are cases where the user intentionally presses the power button 10 and cases where the user unintentionally presses the power button 10 of the projector 100 stored in the case. ..

When the power supply type detection unit 30 detects that the CPU 60 is driven by a commercial power supply 71 other than battery-powered (step S003: commercial power supply), the power button is irrespective of the on / off state of the hold switch 20. The operation of 10 is enabled, the light source device 70 is turned on, and the projector 100 is started (step S007).

That is, when the CPU 60 detects that the power supply type detection unit 30 is driven by something other than battery-powered, it determines that it is not an erroneous operation and enables the operation of the power button 10.

In this case, when the projector 100 is started in the same manner as in the normal state (step S007), the CPU 60 ends the lighting prevention process due to an erroneous operation.

On the other hand, when the power supply type detection unit 30 detects that the battery is driven by the battery 72 (step S003: battery), the CPU 60 determines whether the hold switch 20 is on or off (step S005).

When the hold switch 20 is on (Yes in step S005), the CPU 60 invalidates the operation of the power button 10, does not start the projector 100, and ends the lighting prevention process due to an erroneous operation.

In this case, disabling the operation of the power button 10 means that the CPU 60 does not drive at least one of the light source device 70 and the power supply 73.

That is, the CPU 60 detects that the power supply type detection unit 30 is battery-powered by the battery 72, and when the hold switch 20 is on, the power button 10 is accidentally pressed by the user unintentionally, and this pressing is erroneously operated. It is determined that there is, and the operation of the power button 10 is invalidated.

On the other hand, when the hold switch 20 is off (No in step S005), the CPU 60 drives the light source device 70 and the power supply 73 to start the projector 100 (step S007), and ends the lighting prevention process due to an erroneous operation.

As described above, the projector 100 according to the present embodiment includes a power button 10, a hold switch 20, a power type detection unit 30, and a CPU 60. The CPU 60 detects that the power supply type detection unit 30 is battery-powered by the battery 72, and when the hold switch 20 is on, the operation of the power button 10 is invalidated.

As a result, in the CPU 60 of the projector 100 according to the present embodiment, even if the power button 10 is pressed unintentionally by the user, at least the light source device 70 or the power supply 73 is not driven, so that the projector 100 prevents lighting due to an erroneous operation. be able to. In this case, the case where both the light source device 70 and the power supply 73 do not start is included.

Further, the power button 10, which is a predetermined operation button, is used not only as an operation button for turning on the light source but also as an operation button for turning off the light source. At this time, the hold switch 20 (slide switch, input control means) is different from the mobile battery power supply (predetermined battery power supply) by the power supply type detection unit 30 (detection means) (commercial power supply as AC power supply, AC). When it is detected that the battery power source as the power source is connected as the power source for turning off the light source, the user operation for the power button 10 (predetermined operation button) is performed by the hold switch 20 (slide switch,). It accepts even when the input control means) is in the second slide position.

In this way, when the power button 10 is used as an operation button for turning off the light source, the hold switch 20 (slide switch, input control means) is accepted even when it is in the second slide position, so that the light source receives it. When the user presses the power button 10 while it is lit, the power supply connected to the projection device is a commercial power supply as an AC power supply, a battery power supply as an AC power supply, or a mobile battery power supply as a DC power supply. Regardless of which one, the hold of the hold switch 20 (slide switch, input control means) is invalidated, so that the light source can be turned off by pressing the power button 10.

Each embodiment of the present invention described above is presented as an example, and is not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the spirit of the present invention.

The inventions described in the claims originally attached to the application of this application are added below. The claims in the appendix are as specified in the claims originally attached to the application for this application.

[Additional Notes]
<Claim 1>
A projection device configured to be able to connect an AC power supply and a DC power supply as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not the AC power supply is connected as a power supply for lighting the light source, and
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that the AC power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
A projection device characterized by that.
<Claim 2>
The predetermined operation button is an operation button for turning off the light source.
When the detection means detects that the AC power source is connected as a power source for turning off the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
The projection device according to claim 1.
<Claim 3>
A projection device configured to connect a commercial power source and a battery power source as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not the commercial power source is connected as a power source for lighting the light source, and
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that the commercial power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
A projection device characterized by that.
<Claim 4>
The predetermined operation button is an operation button for turning off the light source.
When the detection means detects that the commercial power source is connected as a power source for turning off the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
The projection device according to claim 3, wherein the projection device is characterized by the above.
<Claim 5>
It is a projection device configured so that a predetermined battery power source can be connected as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source.
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button. Is accepted even when the slide switch is in the second slide position.
A projection device characterized by that.
<Claim 6>
The predetermined operation button is an operation button for turning off the light source.
When the detection means detects that a power source different from the predetermined battery power source is connected as a power source for turning off the light source, the input control means performs a user operation on the predetermined operation button. Is accepted even when the slide switch is in the second slide position.
The projection device according to claim 5.
<Claim 7>
It is a control method of a projection device configured to be able to connect a predetermined battery power source as a power source for lighting a light source.
The user operation for the operation button for turning on the light source is accepted when the slide switch is in the first slide position, and the user operation for the operation button is invalidated when the slide switch is in the second slide position. To disable steps and
A detection step for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source, and
Including
In the invalidation step, when it is detected by the detection step that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, a user operation on the operation button is performed. A reception step that accepts even when the slide switch is in the second slide position,
A method of controlling a projection device, which comprises.
<Claim 8>
To a computer that is configured to be able to connect a predetermined battery power source as a power source for lighting the light source,
The user operation for the operation button for turning on the light source is accepted when the slide switch is in the first slide position, and the user operation for the operation button is invalidated when the slide switch is in the second slide position. The invalidation process to make
A detection step for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source.
With
In the invalidation step, when it is detected by the detection step that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, a user operation on the operation button is performed. A reception process that accepts even when the slide switch is in the second slide position.
A program characterized by executing.

100 Projector 10 Power button 20 Hold switch (slide switch, input control means)
30 Power supply type detector (detection means)
40 Operation unit 50 EEPROM-ROM
60 CPU
70 Light source device 71 Commercial power supply 72 Battery 73 Power supply 75 Drive circuit 80 Projection unit 90 Projection optical system 200 Screen 41 Input key 42 Button key 43 Menu key 44 Escape key 51 Indicator 52 Indicator 421 Left key 422 Up key 423 Right key 424 Down key 425 enter key

Claims (8)

A projection device configured to be able to connect an AC power supply and a DC power supply as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not the AC power supply is connected as a power supply for lighting the light source, and
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that the AC power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
A projection device characterized by that. The predetermined operation button is an operation button for turning off the light source.
When the detection means detects that the AC power source is connected as a power source for turning off the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
The projection device according to claim 1. A projection device configured to connect a commercial power source and a battery power source as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not the commercial power source is connected as a power source for lighting the light source, and
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that the commercial power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
A projection device characterized by that. The predetermined operation button is an operation button for turning off the light source.
When the detection means detects that the commercial power source is connected as a power source for turning off the light source, the input control means performs a user operation on the predetermined operation button by the slide switch. Accepts even when in the second slide position,
The projection device according to claim 3, wherein the projection device is characterized by the above. It is a projection device configured so that a predetermined battery power source can be connected as a power source for lighting a light source.
Input control that accepts a user operation for a predetermined operation button when the slide switch is in the first slide position and invalidates the user operation for the predetermined operation button when the slide switch is in the second slide position. Means and
A detection means for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source.
With
The predetermined operation button is an operation button for turning on the light source.
When the detection means detects that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, the input control means performs a user operation on the predetermined operation button. Is accepted even when the slide switch is in the second slide position.
A projection device characterized by that. The predetermined operation button is an operation button for turning off the light source.
When the detection means detects that a power source different from the predetermined battery power source is connected as a power source for turning off the light source, the input control means performs a user operation on the predetermined operation button. Is accepted even when the slide switch is in the second slide position.
The projection device according to claim 5. It is a control method of a projection device configured to be able to connect a predetermined battery power source as a power source for lighting a light source.
The user operation for the operation button for turning on the light source is accepted when the slide switch is in the first slide position, and the user operation for the operation button is invalidated when the slide switch is in the second slide position. To disable steps and
A detection step for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source, and
Including
In the invalidation step, when it is detected by the detection step that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, a user operation on the operation button is performed. A reception step that accepts even when the slide switch is in the second slide position,
A method of controlling a projection device, which comprises. To a computer that is configured to be able to connect a predetermined battery power source as a power source for lighting the light source,
The user operation for the operation button for turning on the light source is accepted when the slide switch is in the first slide position, and the user operation for the operation button is invalidated when the slide switch is in the second slide position. The invalidation process to make
A detection step for detecting whether or not a power source different from the predetermined battery power source is connected as a power source for lighting the light source.
With
In the invalidation step, when it is detected by the detection step that a power source different from the predetermined battery power source is connected as a power source for lighting the light source, a user operation on the operation button is performed. A reception process that accepts even when the slide switch is in the second slide position.
A program characterized by executing.

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