JP2016012046A - projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To dispose a first operation button so as to be easily recognized by a user and to provide a projector having excellent user-friendliness.SOLUTION: A projector 1 comprises: a light source; an optical modulator; a projection lens 36; an exterior housing 2 constituting an exterior package and having a projection opening portion 2a where light projected from the projection lens 36 passes through; one first operation button 41a functioning as a mute switching button and an auto-calibration button by one time operation; and a plurality of second operation buttons 420 including a selection determination button operated multiple times for performing selection and determination of an item in a menu. The first operation button 41a is disposed closer to the projection opening portion 2a than the plurality of second operation buttons 420.

Description

  The present invention relates to a projector.

  Conventionally, a projector that modulates light emitted from a light source in accordance with image information and projects the modulated light onto a projection surface such as a screen is known. In addition, an input operation unit having a plurality of operation buttons is provided on the exterior casing of the projector, and the projector operates various operations and adjusts a projected image by operating the input operation unit. The image state is configured to be switched (see, for example, Patent Document 1).

The projector (image display device) described in Patent Literature 1 includes an input operation unit (operation switch) provided on the upper surface of the exterior housing. The input operation unit has operation buttons such as a power switch button, an input switching button, a menu button, a resize button, an AV / mute button, a tracking adjustment button, a synchronization adjustment button, a determination button, and a help button.
The resize button is a button that adjusts the size of the projected image projected on the projection surface, and the AV / mute button switches the display of the projected image to a fixed-color blank screen or a user logo mark and from the speaker. This is an operation button for temporarily shutting off the sound output. The decision button is an operation button for deciding to display a projection image by tracking and horizontal synchronization adjusted with the tracking adjustment button and the synchronization adjustment button.

JP 2012-8590 A

  However, the projector described in Patent Document 1 has a problem that it is difficult to immediately find a desired operation button because a large number of operation buttons are arranged in the input operation unit. In particular, operation buttons used when it is desired to immediately change the projection state, for example, an AV / mute button that is operated when it is desired to temporarily stop projecting an image while a presentation is being performed using a projector. There is a problem that it is difficult to immediately interrupt the projection of the image by immediately operating the operation.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 A projector according to this application example projects a light source, a light modulation device that modulates light emitted from the light source according to image information, and light modulated by the light modulation device onto a projection surface. A projection lens that comprises an exterior housing that constitutes an exterior of the projector and has a projection opening through which light projected from the projection lens passes, and the projector in one operation Including at least one first operation button operated to perform at least one of changing and adjusting the projection state and a selection / decision button operated a plurality of times for selecting and determining an item in the menu. A plurality of second operation buttons, wherein the first operation buttons are disposed closer to the projection opening than the plurality of second operation buttons. To.

  According to this configuration, the first operation button is operated for changing or adjusting the projection state, and is disposed closer to the projection opening than the second operation button. This makes it easy for the user of the projector to recognize the first operation button, so that the user can quickly change or adjust the projection state. Therefore, it is possible to provide a projector that is easy to use.

  Application Example 2 In the projector according to the application example described above, the exterior casing has an upper surface portion that is an upper side in a state where the projector is stationary, and the first operation button and the plurality of second operation buttons are The space between the first operation button and the plurality of second operation buttons is preferably wider than the space between adjacent ones of the plurality of second operation buttons.

  According to this configuration, the first operation button and the second operation button are disposed on the upper surface portion of the exterior housing, the first operation button is spaced apart from the second operation button, and is a projection opening from the second operation button. Placed near. This makes it possible for the user to recognize the first operation button more clearly. Therefore, the user can operate the first operation button more quickly, and can cause the projector to perform operations, display switching, and the like according to the operation of the first operation button.

  Application Example 3 In the projector according to the application example described above, the exterior housing includes a first side surface that sandwiches the optical axis of the projection lens, and a second side surface that is longer than the first side surface by a distance from the optical axis. It is preferable that the first operation button is disposed between the second side surface portion and the optical axis when viewed from the upper surface portion side.

  According to this configuration, the first operation button is provided in a central region between the first side surface portion and the second side surface portion. This makes it possible for the user to recognize the first operation button more clearly.

  Application Example 4 In the projector according to the application example described above, it is preferable that the first operation button functions as a mute switching button for switching between display stop and restart of the projected image.

  According to this configuration, since the user of the projector can easily recognize the first operation button as the mute switching button, it is possible to quickly stop and restart the display of the projected image.

  Application Example 5 In the projector according to the application example described above, an imaging unit that images the projection surface, coordinates of a calibration pattern image that the projection lens projects onto the projection surface, and the pattern that the imaging unit images. It is preferable that an auto calibration button that is operated to associate coordinates of a captured image of an image with each other based on the captured image, and the first operation button functions as the auto calibration button.

  According to this configuration, the projector user can easily recognize the first operation button as the auto-calibration button, so that the projection lens projects when the projector is newly installed or the installation location is changed. It is possible to easily associate the coordinates of the pattern image for calibration to be performed with the coordinates of the captured image of the pattern image captured by the imaging unit. This makes it possible to quickly associate the operation positions of the pointing tool on the projection surface when projecting an image using an pointing tool that emits light when operated (for example, an electronic pen). Become.

  Application Example 6 In the projector according to the application example described above, it is preferable that different operations are executed according to different user operations on the first operation button.

  According to this configuration, the user can cause the projector to execute a larger number of operations than the number of the first operation buttons by different operations of the first operation buttons. For example, a single press-type first operation button is provided, and the first operation button has a case where it functions as a mute switching button due to a difference in pressing time, and a case where it functions as an auto-calibration button. Is possible. As a result, since the first operation buttons can be configured with a smaller number, the first operation buttons can be easily recognized by the user, and the space for arranging the first operation buttons can be reduced.

FIG. 2 is an external view of the projector according to the present embodiment as viewed from the projection surface side. FIG. 2 is an external view of the projector according to the present embodiment as viewed from the side facing the projection surface. 1 is a block diagram showing a schematic configuration of a projector according to an embodiment. The schematic diagram of the optical unit of this embodiment. FIG. 3 is a cross-sectional view of a projector in the vicinity of a bulging portion according to the present embodiment.

Hereinafter, the projector according to the present embodiment will be described with reference to the drawings.
The projector according to the present embodiment modulates light emitted from a light source according to image information and enlarges and projects the light onto a projection surface such as a screen. In addition, the projector according to the present embodiment is configured to be able to project based on instructions from the electronic pen.

[Main components of the projector]
FIG. 1 is an external view of the projector 1 according to the present embodiment as viewed from the projection plane side. FIG. 2 is an external view of the projector 1 as viewed from the side facing the projection surface. FIG. 3 is a block diagram illustrating a schematic configuration of the projector 1. In the following, for convenience of explanation, the direction of the projection light projected from the projector 1 is the + Y direction (forward direction), and the upper side in the posture (stationary posture) where the projector 1 is placed on a desk or the like is the + Z direction (upward direction). ) In the stationary posture, the right side of the projector 1 viewed from the side facing the projection surface is described as the + X direction.

  As shown in FIGS. 1 to 3, the projector 1 includes an exterior housing 2 constituting an exterior, a control unit 10, an optical unit 3 having a light source device 31, an input operation unit 4, a plurality of input terminals 5, and a reception unit 6 </ b> F. , 6B, and a detector 7. Although not shown, a cooling device that cools the optical unit 3 and the like, a power supply device that supplies power to the light source device 31 and the control unit 10, and the like are further arranged inside the exterior housing 2. Yes.

  The exterior housing 2 is configured by combining a plurality of synthetic resin members. As shown in FIG. 1, the front surface portion 2F, the upper surface portion 2U, the left side surface portion 2L as the first side surface portion, and the second side surface portion. As a right side surface portion 2R, a back surface portion 2B, and a bottom surface portion 2T.

A projection opening 2a through which projection light from the optical unit 3 passes, an opening 2b for the reception unit 6F, and an opening 2c for the detection unit 7 are formed on the front surface 2F.
The projection opening 2a is provided to the left (−X direction) from the center in the left-right direction (± X direction), and the openings 2b and 2c are located to the right (+ X direction) of the projection opening 2a. The opening 2b is formed above the opening 2c.

And the receiving part 6F (refer FIG. 3) is arrange | positioned in the opening part 2b, and this opening part 2b is obstruct | occluded by the filter member 21 which permeate | transmits infrared light and cuts visible light.
A detection unit 7 (see FIG. 3) is arranged in the opening 2c. The opening 2c is formed with a hole in the center, and is blocked by a filter member 22 that transmits infrared light and cuts visible light. The Note that the filter member 21 and the filter member 22 may be integrally formed.

The upper surface portion 2U is a part that forms the upper side of the exterior housing 2 in the stationary posture of the projector 1. The upper surface portion 2U is provided with a bulging portion 20 that bulges upward, a recess 2d, a plurality of openings in which a plurality of operation buttons provided in the input operation portion 4 are disposed, and a lamp lid 23.
The bulging portion 20 is positioned outside a front lens 361 (described later) of the projection lens 36, and is connected to a part of the peripheral edge of the projection opening 2a. As shown in FIG. 2, the bulging portion 20 has an inclined surface 20 </ b> S that faces the rear side, and the size in the front-rear direction is smaller on the upper end side than on the base end side.

  As shown in FIG. 2, the recess 2 d is formed behind the bulging portion 20, is formed in a rectangular shape in plan view, and the front, rear, left and right side walls are inclined so that the cross-sectional shape decreases toward the bottom. doing. The inclined surface on the bulging portion 20 side is formed along the inclined surface 20S of the bulging portion 20. The inclined surface 20S is provided with an opening, and the receiving unit 6B (see FIG. 3) is disposed inside the opening. And the opening part of the inclined surface 20S is obstruct | occluded by the filter member 24 which permeate | transmits infrared light and cuts visible light.

In addition, an opening is formed in the bottom surface of the recess 2d, and a focus adjustment lever 364L provided in a projection lens 36 (to be described later) of the optical unit 3 is exposed from the opening and disposed in the recess 2d. Is done. The tip of the lever 364L is formed so as not to jump out from the upper surface 2U.
The lamp lid 23 is provided near the right end on the back side of the upper surface portion 2U, and is opened and closed when the light source device 31 is replaced.

As shown in FIG. 2, the left side surface portion 2L is provided with an intake port 2i for taking in outside air. And the dustproof filter 25 is arrange | positioned inside the inlet port 2i.
Although the detailed illustration is omitted, the right side surface portion 2R is provided with an exhaust port for discharging warm air inside the exterior housing 2 to the outside.

  The back surface portion 2B is provided with a plurality of holes, and the tips of the plurality of input terminals 5 are exposed from the holes. Various types of information output from an external image output device (not shown) or the like is sent to the control unit 10 via the input terminal 5.

The bottom surface portion 2T is provided with a leg portion 26 that comes into contact with the installation surface when the projector 1 is placed on a desk or the like, and an attachment portion (not shown) to which a jig is attached when suspended from the ceiling or the like. Yes.
In addition, the leg portion 26 has two leg portions 26B (see FIG. 2) disposed in the vicinity of the left and right end portions on the rear side, and a leg portion 26F (see FIG. 1) disposed in the left and right center portion on the front side. doing.

  The control unit 10 includes a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), and the like, functions as a computer, and controls the operation of the projector 1.

The optical unit 3 optically processes and projects the light beam emitted from the light source device 31 under the control of the control unit 10.
FIG. 4 is a schematic diagram of the optical unit 3.
As shown in FIG. 4, the optical unit 3 includes a light source device 31, an integrator illumination optical system 32, a color separation optical system 33, a relay optical system 34, an optical device 35, a projection lens 36, and these members on a predetermined optical path. An optical component casing 37 is provided at the position.

As shown in FIG. 4, the light source device 31 includes a discharge-type light source 311, such as an ultra-high pressure mercury lamp or a metal halide lamp, a reflector 312, a collimating lens 313 as a light transmitting member, and a light source housing that houses these members. A body 314 and the like are provided.
The light source device 31 reflects the light beam emitted from the light source 311 by the reflector 312, aligns the emission direction by the collimating lens 313, and emits the light toward the integrator illumination optical system 32.

As shown in FIG. 4, the integrator illumination optical system 32 includes a first lens array 321, a second lens array 322, a polarization conversion element 323, and a superimposing lens 324.
The first lens array 321 includes a plurality of small lenses and divides the light from the light source device 31 into a plurality of partial lights. The second lens array 322 and the superimposing lens 324 collect a plurality of partial lights from the first lens array 321 and superimpose them on a light modulation device 351 described later of the optical device 35. The polarization conversion element 323 includes a polarization separation film and a phase difference plate, and aligns light having a random polarization direction emitted from the light source device 31 with polarized light having a predetermined direction.

  The color separation optical system 33 includes two dichroic mirrors 331 and 332 and a reflection mirror 333, and the light emitted from the integrator illumination optical system 32 is converted into red light (hereinafter referred to as “R light”) and green light (hereinafter referred to as “R”). G light ”) and blue light (hereinafter referred to as“ B light ”).

  The relay optical system 34 includes an incident side lens 341, a relay lens 343, and reflection mirrors 342 and 344, and has a function of guiding the R light separated by the color separation optical system 33 to an R light light modulation device 351. The optical unit 3 has a configuration in which the relay optical system 34 guides the R light. However, the configuration is not limited thereto, and may be configured to guide the B light, for example.

The optical device 35 is a light modulation device 351 provided for each color light (the light modulation device for R light is 351R, the light modulation device for G light is 351G, and the light modulation device for B light is 351B), And a cross dichroic prism 352 as a color synthesizing optical device.
Each light modulation device 351 includes a transmissive liquid crystal panel, an incident-side polarizing plate disposed on the light incident side of the liquid crystal panel, and an emission-side polarizing plate disposed on the light emitting side of the liquid crystal panel, and each color light is imaged. Modulate according to information.

  The cross dichroic prism 352 has a substantially square shape in plan view in which four right angle prisms are bonded together, and two dielectric multilayer films are formed on the interface where the right angle prisms are bonded together. In the cross dichroic prism 352, the dielectric multilayer film reflects R light and B light modulated by the light modulation devices 351R and 351B, and transmits G light modulated by the light modulation device 351G. Synthesize modulated light.

The projection lens 36 includes a plurality of lenses arranged along the optical axis 36Ax, and enlarges and projects the light emitted from the cross dichroic prism 352 on the screen.
As described above, the light emitted from the projection lens 36 passes through the projection opening 2a provided to the left (−X direction) from the center in the left-right direction (± X direction) of the exterior housing 2. To do. That is, the exterior housing 2 has a left side surface portion 2L (first side surface portion) and a right side surface portion 2R (second side surface portion) that sandwich the optical axis 36Ax of the projection lens 36, and the distance from the optical axis 36Ax is the left side surface portion 2L. The right side surface portion 2R (second side surface portion) is formed longer than the (first side surface portion).

FIG. 5 is a cross-sectional view of the projector 1 in the vicinity of the bulging portion 20.
As shown in FIG. 5, the projection lens 36 includes a front lens 361, a guide tube 362, a lens frame 363, a focus ring 364, and the like that are located at the most rear stage (frontmost side) of the plurality of lenses.

  The front lens 361 is a lens that contributes to a short focus and a wide angle, and has the largest outer diameter among the plurality of lenses. Further, the front lens 361 has a shape such that the lower end is cut, and light incident on the projection lens 36 is emitted upward from the front lens 361. The projector 1 is configured as a proximity projection type capable of projecting close to a projection surface by a configuration in which the projection lens 36 includes a front lens 361 that contributes to a short focus and a wide angle.

As shown in FIG. 5, the guide tube 362 has a holding portion 3621 that holds the peripheral edge portion of the front lens 361 and houses a plurality of lenses (not shown) arranged on the light incident side of the front lens 361.
The lens frame 363 is formed so as to cover the peripheral edge of the holding portion 3621 and is fixed to the holding portion 3621. In addition, the lens frame 363 covers the peripheral edge of the front lens 361. Part of the front side of the lens frame 363 is exposed from the exterior housing 2, and the receiving unit 6 </ b> B is attached to the rear side.

  The focus ring 364 is formed in a cylindrical shape, and a lever 364L protruding upward is provided on the outer peripheral surface as shown in FIG. As described above, the lever 364L is disposed in the concave portion 2d of the exterior housing 2, that is, behind the bulging portion 20. When the lever 364L is gripped and the focus ring 364 is rotated, the lens that contributes to the focus adjustment moves and the focus is adjusted. Note that the zoom adjustment of the projector 1 according to the present embodiment is an electronic zoom that enlarges or reduces an image by image processing, and is performed by operating the input operation unit 4 or a remote controller (remote controller) for remotely operating the projector 1. Is called.

  Returning to FIG. 1, the input operation unit 4 includes a plurality of operation buttons operated by a user for changing and adjusting various settings of the projector 1 and a projection state. It arrange | positions so that it may expose from the part 2U. The input operation unit 4 outputs an operation signal corresponding to the operation button operated by the user to the control unit 10, and the control unit 10 performs control according to the operated operation button. The input operation unit 4 will be described in detail later.

  As the input terminal 5, an input terminal (for example, a terminal conforming to the HDMI (registered trademark) standard, a video terminal, an audio terminal, etc.) that can input an image signal, an audio signal, and the like from an external device (computer, video player, etc.) ) Etc.

The receiving units 6F and 6B receive an optical signal (operation signal by infrared light) emitted from the remote controller, and output an electric signal corresponding to the received optical signal to the control unit 10.
As described above, the receiving unit 6F is disposed in the opening 2b (see FIG. 1), and receives the optical signal incident from the projection side of the projection lens 36, that is, the optical signal incident from the front of the projector 1. Receive.
The receiving unit 6B is attached to the projection lens 36, and is disposed in the bulging unit 20 (see FIG. 1) in such a direction as to receive an optical signal incident from the side opposite to the side on which the projection lens 36 projects light. That is, the receiving unit 6B receives an optical signal incident from behind the projector 1.

Although the detailed illustration is omitted, the detection unit 7 includes an imaging unit 71 and a transmission unit 72 as shown in FIG.
The imaging unit 71 includes an imaging element (not shown) such as a CCD (Charge Coupled Device) or a CMOS (Complementary Metal Oxide Semiconductor), and images a projection plane as a subject. Then, as shown in FIG. 3, the imaging unit 71 detects infrared light emitted from the pointing tool (for example, the electronic pen 80 or the like) operated on the projection surface SC, and the detected information is sent to the control unit 10. Output. Based on the detection result of the imaging unit 71, the control unit 10 projects a superimposed image in which the locus of the electronic pen 80 is superimposed on the image information on the projection surface.

  The transmitter 72 periodically generates an optical signal (a signal based on infrared light) in order to control the electronic pen 80 operated on the projection screen SC. The electronic pen 80 emits infrared light in synchronization with the optical signal emitted from the transmission unit 72.

[Configuration of input operation unit]
Here, the input operation unit 4 will be described in detail.
As shown in FIG. 1, the input operation unit 4 includes a first operation unit 41, a second operation unit 42, and a third operation unit 43.

  The first operation unit 41 includes one first operation button 41 a, a circuit board (not shown), a cable, and the like, and is connected to the control unit 10. In the present embodiment, the first operation button 41a is configured by pressing, and a mute switching button for switching between stopping and restarting the display of the projected image, and the operation position on the projection surface SC of the electronic pen 80. It has a function as an auto calibration button for performing the association. Specifically, the first operation button 41a functions as a mute switching button when pressed for less than a predetermined time, and functions as an auto calibration button when pressed for a predetermined time or more.

As shown in FIG. 1, the second operation unit 42 includes a plurality of second operation buttons 420 arranged on the left side (−X direction) of the lamp lid 23 and a circuit board on which the plurality of second operation buttons 420 are mounted. , And cables (both not shown) and the like, and are connected to the control unit 10.
Each of the second operation buttons 420 is configured by pressing, and the second operation buttons 420 include a power button 42a, an input switching button 42b, a menu button 42c, a cursor button 42d, a determination button 42e, a return button 42f, and a help button 42g. There is.

The power button 42a switches on / off the power. The input switching button 42 b switches to any one of the plurality of input terminals 5.
The menu button 42 c switches display / non-display of a menu image for performing various settings of the projector 1. Four cursor buttons 42d are provided around the decision button 42e, and are used to select various items displayed as menu images. The decision button 42e decides the item selected by the cursor button 42d.
Although the illustration of the menu image is omitted, for example, a top menu display area and an information display area are provided. In the top menu display area, “image quality adjustment”, “video”, and the like are displayed as a top menu. When one of the top menus is selected, a submenu below the selected item hierarchy is displayed in the information display area. For example, items such as “color mode”, “brightness”, and “contrast” are displayed as a submenu of “image quality adjustment”. These items are selected by the cursor button 42d and determined by the determination button 42e. As described above, the cursor button 42d and the determination button 42e are operated a plurality of times in order to select and determine an item in the menu, and correspond to the selection determination button.
The return button 42f is used to return to the previous operation screen. The help button 42g is used to indicate a troubleshooting method and the like.

As shown in FIG. 1, the third operation unit 43 includes a slide-type trapezoidal distortion correction button 43 a disposed behind the recess 2 d, a circuit board (not shown), a cable, and the like, and is connected to the control unit 10.
The trapezoidal distortion correction button 43a is operated when correcting an image distorted in a trapezoidal shape so that the projected image has a different length on the left side and the right side. The trapezoidal distortion correction button 43a is configured to be slidable in the left-right direction, and the correction amount changes according to the slide amount. When correcting the image distorted in a trapezoidal shape so that the projected image has a different length on the upper side and the lower side, two of the four cursor buttons 42d are operated to correct the trapezoidal distortion. Is done.

The first operation button 41a will be further described.
As shown in FIG. 1, the first operation button 41a is disposed closer to the projection opening 2a than the plurality of second operation buttons 420 and the trapezoidal distortion correction button 43a. The first operation buttons 41 a are arranged such that the intervals between the plurality of second operation buttons 420 and the intervals between the trapezoidal distortion correction buttons 43 a are wider than the intervals between adjacent ones of the plurality of second operation buttons 420.

Specifically, the first operation button 41a is arranged on the right side (+ X direction) of the bulging portion 20, as shown in FIG. That is, the first operation button 41a is disposed in the vicinity of the front surface portion 2F between the right side surface portion 2R (second side surface portion) and the optical axis 36Ax when viewed from the upper surface portion 2U side. Since the outer casing 2 is formed such that the distance from the optical axis 36Ax is longer on the right side 2R (second side) than the left side 2L (first side), the first operation button 41a It will be provided in a central region between the left side surface portion 2L (first side surface portion) near the portion 2F and the right side surface portion 2R (second side surface portion).
The first operation button 41a is positioned substantially above the leg portion 26F, and is disposed at a position where the projector 1 does not rattle even when pressed when operated.

  The projector 1 performs a mute operation when the first operation button 41a is pressed for a predetermined time. That is, when projecting an image, the projector 1 stops displaying the projected image, specifically projects a black image or the like, when the first operation button 41a is pressed for a predetermined time. Then, when the first operation button 41a is pressed again for less than a predetermined time from the state where the image display is stopped, the projector 1 resumes the image display.

  When the first operation button 41a is pressed for a predetermined time or longer, the projector 1 performs a calibration process for associating the operation position on the projection surface SC of the electronic pen 80 (executes an auto calibration operation). That is, when the first operation button 41a is pressed for a predetermined time or longer, the projector 1 projects a calibration pattern image on the projection surface SC, and the imaging unit 71 captures the pattern image projected on the projection surface SC. Then, the projector 1 performs processing for associating the coordinates of the image projected on the projection plane SC with the coordinates of the captured image captured by the imaging unit 71 based on the captured image captured by the imaging unit 71. As a result, the operation position on the projection surface SC of the electronic pen 80 can be associated with the image projected on the projection surface SC, and the projector 1 operates the electronic pen 80 at a desired position with respect to the image projected. A superimposed image in which the positions are superimposed can be projected onto the projection surface SC.

  As described above, the first operation button 41a is separated from the plurality of second operation buttons 420 and the trapezoidal distortion correction button 43a and is disposed in the vicinity of the projection opening 2a. Then, the projector 1 changes the projection state (mute operation) or adjusts the projection state (auto calibration operation) by one operation of the first operation button 41a. In addition, the projector 1 performs different operations (mute operation, auto-calibration operation) in response to different user operations (operations with different pressing times) on the first operation button 41a.

As described above, according to the projector 1 of the present embodiment, the following effects can be obtained.
(1) Since the first operation button 41a is disposed closer to the projection opening 2a than the second operation button 420 and the trapezoidal distortion correction button 43a, the first operation button 41a is easily recognized by the user of the projector 1. It becomes possible. Therefore, the user can quickly change and adjust the projection state, and thus it is possible to provide the projector 1 that is easy to use.

  (2) The first operation button 41a, the plurality of second operation buttons 420, and the trapezoidal distortion correction button 43a are disposed on the upper surface 2U of the exterior housing 2. The first operation button 41a is arranged at a position where the interval between the plurality of second operation buttons 420 and the interval between the trapezoidal distortion correction buttons 43a are wider than the interval between adjacent ones of the plurality of second operation buttons 420. Yes. This makes it possible for the user to recognize the first operation button 41a more clearly. Therefore, the user can operate the first operation button 41a more quickly, and cause the projector 1 to perform operations, display switching, and the like according to the operation of the first operation button 41a.

  (3) The first operation button 41a is provided in a central region between the left side surface portion 2L and the right side surface portion 2R in the vicinity of the front surface portion 2F. This makes it possible for the user to recognize the first operation button 41a more clearly.

  (4) Since the first operation button 41a functions as a mute switching button, the user can quickly stop and restart the display of the projected image.

(5) Since the first operation button 41a functions as an auto-calibration button, when the user newly installs the projector 1 or changes the installation location, the user operates the projection screen SC of the electronic pen 80 on the screen SC. It becomes possible to quickly associate the operation positions.
In addition, the operation is easier to understand than the configuration in which the operation button is operated many times while confirming the menu image, so that even a user unfamiliar with the operation of the projector 1 can easily perform the auto calibration. Can be executed.

  (6) The user can cause the projector to execute the mute operation and the auto calibration operation by different operations of the first operation button 41a. As a result, the first operation buttons 41a can be configured with a smaller number, so that the first operation buttons 41a can be easily recognized by the user, and the first operation buttons 41a, that is, the first operation unit 41 can be arranged in a smaller space. It becomes.

(Modification)
In addition, you may change the said embodiment as follows.
The first operation button 41a of the embodiment has a function as a mute switching button and a function as an auto calibration button. However, the first operation button 41a is an operation button dedicated to the mute switching button or an operation button dedicated to the auto calibration button. The first operation button 41a may be configured.

  The first operation unit 41 of the embodiment is configured to include one first operation button 41a. However, the first operation unit 41 may be configured to include two operation buttons. For example, the first operation unit 41 may be configured to include a first operation button dedicated to the mute switching button and a first operation button dedicated to the auto calibration button.

  The adjustment of the projection state performed by the projector 1 may be correction of trapezoidal distortion of the projected image. In other words, the first operation button 41a may be configured to have a function of a keystone distortion correction button for correcting the keystone distortion of the projected image. For example, when the first operation button 41a is operated, the projector 1 projects an image obtained by correcting the trapezoidal distortion based on the image captured by the imaging unit 71 or the detection result of the attitude of the projector 1 using an acceleration sensor or the like. You may comprise.

  The projector 1 of the embodiment includes the detection unit 7, but may be a projector that does not include the detection unit 7. In the case of this configuration, the auto calibration button is not necessary.

  Although the 1st operation button 41a of the said embodiment is comprised by the press type, it may be a slide type other than a press type, for example, and may utilize the touch panel.

  The projector 1 according to the embodiment is configured as a proximity projection type, but may be a projector 1 other than the proximity projection type.

  The projector 1 according to the embodiment is configured to perform zoom adjustment by electronic zoom, but may be configured to include a zoom adjustment mechanism capable of zoom adjustment in the projection lens 36.

  The projector 1 of the embodiment uses a transmissive liquid crystal panel as a light modulation device, but may use a reflective liquid crystal panel. Further, a micromirror type light modulation device such as a DMD (Digital Micromirror Device) may be used as the light modulation device.

  The light modulation device of the embodiment employs a so-called three-plate method using three light modulation devices corresponding to R light, G light, and B light, but is not limited to this, and adopts a single plate method. Alternatively, the present invention can be applied to a projector including two or four or more light modulation devices.

  The light source device 31 is not limited to the one using the discharge-type light source 311, and may be configured by other types of light sources, solid-state light sources such as light emitting diodes and lasers.

  DESCRIPTION OF SYMBOLS 1 ... Projector, 2 ... Exterior housing, 2a ... Projection opening, 2L ... Left side part (1st side part), 2R ... Right side part (2nd side part), 2U ... Upper surface part, 3 ... Optical unit, 4 DESCRIPTION OF SYMBOLS ... Input operation part, 10 ... Control part, 31 ... Light source device, 36 ... Projection lens, 36Ax ... Optical axis, 41 ... 1st operation part, 41a ... 1st operation button, 42 ... 2nd operation part, 42a ... Power button , 71 ... Imaging unit, 80 ... Electronic pen, 311 ... Light source, 351, 351B, 351G, 351R ... Light modulator, 420 ... Second operation button.

Claims (6)

A projector comprising: a light source; a light modulation device that modulates light emitted from the light source according to image information; and a projection lens that projects light modulated by the light modulation device onto a projection surface,
An exterior housing that constitutes an exterior of the projector and has a projection opening through which light projected from the projection lens passes;
At least one first operation button operated to perform at least one of changing and adjusting the projection state of the projector in one operation;
A plurality of second operation buttons including a selection determination button operated a plurality of times in order to select and determine an item in the menu;
With
The projector is characterized in that the first operation button is arranged closer to the projection opening than the plurality of second operation buttons. The projector according to claim 1,
The exterior casing has an upper surface portion that is an upper side in a state where the projector is stationary,
The first operation button and the plurality of second operation buttons are arranged on the upper surface portion,
The projector is characterized in that an interval between the first operation button and the plurality of second operation buttons is wider than an interval between adjacent ones of the plurality of second operation buttons. The projector according to claim 2,
The exterior housing has a first side surface portion sandwiching the optical axis of the projection lens, and a second side surface portion whose distance from the optical axis is longer than the first side surface portion,
The projector is characterized in that the first operation button is disposed between the second side surface portion and the optical axis when viewed from the upper surface portion side. It is a projector as described in any one of Claims 1-3, Comprising:
The projector is characterized in that the first operation button functions as a mute switching button for switching between stop and restart of display of a projected image. It is a projector as described in any one of Claims 1-4, Comprising:
An imaging unit for imaging the projection plane;
Auto-calibration operated to associate the coordinates of the pattern image for calibration projected by the projection lens onto the projection plane and the coordinates of the captured image of the pattern image captured by the imaging unit based on the captured image Button,
Further comprising
The projector, wherein the first operation button functions as the auto calibration button. It is a projector as described in any one of Claims 1-5, Comprising:
A projector that performs different operations according to different user operations on the first operation buttons.

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