JP2009048022A - Projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projector configured to enable a viewer to view the image of a television receiver etc., arranged in a projection region of the image without being affected by the image. <P>SOLUTION: In a non-projection region setting mode for setting a non-projection region of an image, an image forming section 4 projects the image divided in the shape of a grid, and a controller 7 stores the non-projection region that the user designates via an operation input unit 6 while checking the image in the shape of the grid projected by the image forming section 4, thereby setting the non-projection region. The controller 7 allows the image to be projected only to the projection region other than an objection and does not allow the image to be projected in the non-projection region where the objection exists. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a projector that projects and displays an image on a screen or a wall of a room.

Conventionally, in a projector used for projecting an image transmitted from a personal computer or the like onto a screen or the like, various studies have been made so as to operate according to an obstacle existing in front of the screen. For example, Patent Document 1 discloses a projector that detects the position and movement of an obstacle using an obstacle detection device and projects a predetermined image on the obstacle. Patent Document 2 discloses a projector that projects a mask image onto an obstacle. Patent Document 3 discloses a projector that detects an obstacle and lowers the luminance of that portion. Patent Document 4 discloses a projector that detects the presence or absence of an obstacle. Patent Document 5 discloses a projector that generates depth information for setting a virtual projection plane and corrects the positions of the four corners of an image.
JP 2005-303493 A JP 2005-109540 A JP 2005-43586 A JP 2005-165122 A JP 2005-286572 A

  However, in the techniques disclosed in Patent Documents 1 to 4, since an image is projected onto an obstacle, for example, when a television receiver or the like is present in the image projection area, the screen is projected from the projector. The projected image is displayed. As a result, an image different from the display image of the television receiver cannot be projected from the projector and viewed at the same time. For example, as shown in FIG. 3, it is impossible to project an image of an outdoor landscape on the wall behind the television receiver and to feel the refreshing feeling as if the television receiver is being watched outdoors. .

  The present invention has been made to solve the above-described problems, and enables a television receiver or the like disposed in an image projection area to be viewed without being affected by an image projected from a projector. An object is to provide a projector.

In order to achieve the above object, the invention of claim 1
A lamp unit that emits light for image projection, an image forming unit that has a function of projecting light emitted from the lamp unit onto an external screen, a signal input unit that receives image data from the outside, and the image forming unit In a projector comprising: control means for controlling the means to form an image based on the image data input to the signal input means; and operation input means operated by a user to input a command to the control means ,
The image forming unit does not project an image onto an arbitrary area.

The invention of claim 2 is the projector according to claim 1,
The control means has a non-projection area setting mode for setting a non-projection area that does not project an image,
In the non-projection area setting mode,
The image forming unit projects an image partitioned in a grid pattern,
The control unit is configured to set the non-projection region by storing the non-projection region designated through the operation input unit while confirming a grid-like image projected by the image forming unit. is there.

The invention of claim 3 is the projector according to claim 2,
In the non-projection area setting mode,
The control means recognizes the non-projection area from an outer edge of an obstacle designated through the operation input means while confirming a grid-like image projected by the image forming means.

  According to the first aspect of the present invention, for example, when an obstacle exists in the projection area, the image forming unit can prevent the image from being projected onto an arbitrary area within the projection area. It is possible to prevent an image from being projected onto an obstacle or the like. Accordingly, it is possible to view a television receiver or the like arranged in the image projection area without being influenced by the image projected from the projector. In addition, since the image projected from the projector can be displayed around the television receiver or the like, for example, by projecting an image of an outdoor landscape from the projector, it is as if the television receiver is viewed outdoors. You can enjoy an exhilarating feeling.

  According to the second aspect of the present invention, the user can designate the non-projection area via the operation input means while confirming the grid-like image projected by the image forming means, so that the non-projection area can be easily set. can do.

  According to the invention of claim 3, since the control means recognizes the non-projection area from the outer edge of the obstacle designated by the user, even if the shape of the obstacle is complicated, it is faithful to the shape of the obstacle. A corresponding non-projection area can be set.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a projector 1 according to this embodiment. The projector 1 includes, for example, a lamp unit 2 having a metal halide lamp and a reflector, a drive circuit 3 that supplies power to the lamp unit 2, and an image forming unit 4 that forms an image using light emitted from the lamp unit 2. A signal input unit 5 to which image data is input from the outside, an operation input unit 6 provided so as to be operable from the outside, a control unit 7 configured by a microcomputer or a memory for controlling each unit of the projector 1, and an external A power supply unit 8 connected to a commercial power source, a blower unit 9 for allowing outside air to flow into the casing 10 of the projector 1 or exhausting the air inside the casing 10 to the outside, and a casing for housing each of the above parts 10 etc. The projector 1 is used by being connected to, for example, an external personal computer or the like, and forms an image based on image data input from the personal computer or the like via the signal input unit 5, and is installed on an external screen (see FIG. (Not shown).

  The image forming unit 4 is controlled by the control unit 7 based on the image data input to the signal input unit 5, and uses, for example, a digital micromirror device (hereinafter referred to as DMD) to display an image corresponding to the image data. Form. The image forming unit 4 includes a DMD, a color wheel that sequentially transmits red, green, and blue light out of the light emitted from the lamp unit 2 to form a color image, and a color wheel for rotating the color wheel. It has a motor and a drive driver for driving them under the control of the control unit 7. The color wheel sequentially transmits red, green, and blue light among the light emitted from the lamp unit 2. The DMD forms an image by appropriately reflecting red, green, and blue light sequentially transmitted by the color wheel based on image data. An image formed by the DMD is projected toward an external screen or the like via a lens 4a configured to be able to perform zooming, focusing, and the like.

  The operation input unit 6 includes, for example, an operation button disposed on the casing 10 of the projector 1 so as to be operable by a user from the outside, a switch that is switched by the operation of the operation button, and the like. When the operation input unit 6 is operated from the outside, a signal corresponding thereto is input to the control unit 7, and the control unit 7 outputs a control signal corresponding to the signal to each unit, thereby realizing various operations. . That is, the user can operate the operation of the projector 1 by operating the operation input unit 6. The operation input unit 6 may be configured by, for example, a light receiving unit provided in the housing 10 and a remote controller that can be operated by the user. In this case, the user can remotely operate the projector 1 by infrared communication between the light receiving unit and the remote controller.

  The air blower 9 includes a cooling fan and a motor driver that drives a motor incorporated in the cooling fan. The cooling fan is equipped to allow air to flow in and out of the housing of the projector 1, and locally cools the lamp unit 2 in order to prevent overheating of the lamp unit 2 and its peripheral part. A blower fan 12 (see FIG. 2) is provided. The drive voltage of each cooling fan is controlled by the control unit 7 so that the temperature inside the housing 10 of the projector 1 that is projecting the image and the temperature of the lamp unit 2 are maintained at appropriate temperatures.

  FIG. 2 shows the usage state of the projector 1. The projector 1 displays an image on a wall, a window or the like existing in the front projection area. 2A shows the projector 1 installed to project an image on the wall 100, and FIG. 2B shows the projector 1 installed to project an image on the window 101. 2A, an obstacle such as a television receiver 50 exists between the projector 1 and the wall 100. In FIG. 2B, a human 51 or the like exists between the projector 1 and the window 101. There are obstacles.

  FIG. 3 shows the wall 100 on which an image is projected in FIG. 2A and the television receiver 50 and the like existing between the projector 1 and the wall 100. In FIG. 3, all except the television receiver 50 and its stand 60 are composed of images of the sky, trees and birds projected on the wall 100 from the projector 1 and a clock image. From the projector 1, an image is projected on an area excluding the television receiver 50 and the stand 60 that are obstacles between the projector 100 and the wall 100. When a real clock is displayed on the wall 100, the clock is regarded as an obstacle and an image is projected on an area excluding the clock. The control unit 7 can prevent the image from being projected onto the area of the obstacles 50 and 60 by controlling the DMD of the image forming unit 4.

  The non-projection area where the image is not projected can be freely set by the user in the procedure described later. Therefore, even when a newer television receiver is replaced, the non-projection area can be freely changed according to the size and arrangement. Further, when the projector 1 is used for business purposes, a non-projection area is provided in a part of the whiteboard so that characters can be entered with a marker or the like when the whiteboard is used instead of the screen. It is also possible. It is also possible to project an image as an advertisement on a window or wall of a store, avoiding customers or desks.

  FIG. 4 shows an example of a grid-shaped image projected from the projector 1 in order for the user to specify a non-projection area. The grid-like non-projection area setting image 70 is operated by, for example, operating the menu key, OK key, and setting OK key of the operation input unit, selecting a wall capture item, and setting the operation mode of the projector 1 to the non-projection area setting mode. By switching, it is projected. The user designates a non-projection area by operating the operation input unit 6 while confirming a grid-like non-projection area setting image displayed on an obstacle such as the wall 100 and the television receiver 50. The image data of the non-projection area setting image is stored in the memory of the control unit 7. The non-projection area setting image shown in FIG. 4 shows a state in which 800 × 600 pixels (equivalent to SVGA) are formed using four vertical and horizontal pixels, and one non-projection area is specified using 200 × 150 squares. ing. The number of pixels in the vertical and horizontal directions constituting one cell can be freely set by the user on the menu screen.

  Hereinafter, a procedure for setting a non-projection area will be described with reference to FIGS. Here, the case where the television receiver 50 and its stand 60 shown in FIG. 5 are set as a non-projection area will be described. When the operation mode of the projector 1 shifts to the non-projection area setting mode, a non-projection area setting image 70 shown in FIG. 6A is displayed. The non-projection area setting image 70 is projected not only on the entire projection area of the projector 1, that is, on the wall 100 but also on the television receiver 50. In the non-projection area setting mode, the basic operation executed by the user is as follows. 1. The bright spot cursor 71 described later is moved by the direction key of the operation input unit 6. 2. The position of the bright spot cursor 71 is determined by the OK key of the operation input unit 6. 3. The operation proceeds to the next stage by operating the direction key after the decision operation. 4). If the OK key is pressed with the bright spot cursor once determined overlapped with the new bright spot cursor, the process returns to the stage before the determination. By combining these basic operations, a non-projection area can be set as follows.

  First, as shown in FIG. 6A, an initial non-projection area setting image 70 is a vertical and horizontal bar indicating the positions of, for example, a green bright spot cursor 71 and a bright spot cursor 71 displayed at the center of the image. 72, 73, and the like. The bright spot cursor 71 is located at the grid where the vertical and horizontal bars 72 and 73 intersect. The user can move the bright spot cursor 71 in an arbitrary direction by operating the direction key of the operation input unit 6. The user moves the bright spot cursor 71 onto the boundary between the projected area and the non-projected area of the image (outer edge of the obstacle) and presses the OK key of the operation input unit 6 to determine the position of the bright spot cursor 71. Then, as shown in FIG. 6B, for example, a red bright spot 74 is changed. At this time, when the OK key is pressed, the determination is canceled, and the bright spot 74 returns to the green bright spot cursor 71 and the position can be moved.

  When the user operates the direction key of the operation input unit 6 after determining the position of the bright spot cursor 71, a new green bright spot cursor 71 appears in that direction, and the position of the next bright spot 74 can be determined. . By operating the direction key to the position of the next bright spot 74, the green bright spot cursor 71 is moved, and the OK key is pressed, whereby the position of the bright spot cursor 71 is determined and changed to the red bright spot 74. By repeating such a procedure, the contour of the non-projection area is formed as shown in FIGS. Since the non-projection area setting image 70 is projected not only on the entire projection area of the projector 1, that is, on the wall receiver 100 but also on the television receiver 50 or the like, the bright spot projected on the wall 100 or the television receiver 50 or the like. It can be easily positioned along the contour of the non-projection area while confirming the cursor 71.

  Thereafter, as shown in FIGS. 8A to 8C, for example, a light green line 75 appears between the start point and the end point when the third green bright spot cursor 71 is moved. This line 75 serves as a standard indicating the range enclosed when the green bright spot cursor 71 is determined. The line 75 is not displayed when it overlaps the determined line or point. Here, in FIGS. 9A to 9C, when it is desired to increase the bright spot 74 between the points A and B, the green bright spot cursor 71 is once crossed over the line between the points A and B. I can. As a result, as shown in FIG. 9B, a green bright spot cursor 71 is displayed between the points A and B. As shown in FIGS. 9C and 9D, this bright spot is displayed. The cursor 71 is moved to an appropriate position to determine the position. At this time, since the newly determined bright spot cursor is added between the points A and B, it is not treated as the end point, but the point C in FIG. Remains between the starting point and point C. Then, as shown in FIG. 10A, a new green bright spot cursor 71 appears at the point C on the light green line 75. As shown in FIG. 10B, when the green bright spot cursor 71 is finally moved and overlapped with the position of the start point, for example, it changes to a yellow bright spot cursor 76 or the like. In this way, the boundary between the projection area and the non-projection area can be closed.

  Thereafter, when the direction key is operated, as shown in FIG. 11A, for example, a white bright spot cursor 77 for selecting a non-projection area is displayed. By moving the white bright spot cursor 77 from the boundary between the projection area and the non-projection area to the non-projection area side and pressing the OK key, the non-projection area is selected. The selected non-projection area is displayed in gray as shown in FIG. If the OK key is pressed again, the state shown in FIG. 11A is restored, and if the menu key is pressed, the setting of the non-projection area is completed. Thereafter, when an image is projected from the projector 1, the control unit 7 controls the DMD of the image forming unit 4 so that the image is not projected on the inner area of the red bright spot cursor. The non-projection area pattern set as described above is stored in the memory of the control unit 7. The user can quickly and easily select a projection pattern according to the room layout by selecting a desired pattern from among a plurality of non-projection area patterns stored in the memory.

  As described above, according to the projector 1 of the present embodiment, for example, when there is an obstacle in the projection area, the image forming unit 4 does not project an image on an arbitrary area in the projection area. Therefore, it is possible to prevent an image from being projected onto an obstacle or the like. Accordingly, the television receiver 50 or the like arranged in the image projection area can be viewed without being influenced by the image projected from the projector 1. Further, since the image projected from the projector 1 can be displayed around the television receiver 50 or the like, for example, by projecting an image of an outdoor landscape from the projector 1 as shown in FIG. It is possible to enjoy an exhilarating feeling as if the user is watching the television receiver 50.

  In addition, since the user can designate the non-projection area via the operation input unit 6 while confirming the grid-like image projected by the image forming unit 4, the non-projection area can be easily set. In addition, since the control unit 7 recognizes the non-projection area from the outer edge of the obstacle specified by the user, the non-projection area corresponding to the obstacle shape faithfully even when the obstacle shape is complicated Can be set.

  Note that the present invention is not limited to the configuration of the above-described embodiment, and the image forming unit 4 is configured to project an image only on a projection area other than the obstacle when there is an obstacle at least in the projection area. Just do it. The present invention can be modified in various ways. For example, the projector 1 further includes an imaging unit that images an obstacle in the front direction of the projector 1, and the control unit 7 processes image data captured by the imaging unit. The obstacle region may be calculated and set as a non-projection region. In this case, as the obstacle moves, it is possible to move the non-projection area following the obstacle, and it is possible to flexibly cope with various usage situations. As shown in FIG. 2, such a configuration is particularly effective in a usage situation where an image as an advertisement is projected onto a window glass or the like of a store while avoiding a customer or a store clerk.

1 is a block diagram illustrating a configuration of a projector according to an embodiment of the invention. The side view which shows the use condition of a projector. The front view which shows the television receiver which exists between the wall where the image was projected by the projector, and a projector and a wall. The figure which shows the non-projection area | region setting image projected from a projector, when a user designates a non-projection area | region. The figure which shows the television receiver used as the non-projection area | region of a projector, and its stand. The figure which shows the setting procedure of a non-projection area | region. The figure which shows the setting procedure of a non-projection area following FIG. The figure which shows the setting procedure of a non-projection area following FIG. The figure which shows the setting procedure of a non-projection area following FIG. The figure which shows the setting procedure of a non-projection area following FIG. The figure which shows the setting procedure of a non-projection area following FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Projector 2 Lamp unit 4 Image formation part (image formation means)
6 Operation input section (operation input means)
7 Control unit (control means)

Claims (3)

A lamp unit that emits light for image projection, an image forming unit that has a function of projecting light emitted from the lamp unit onto an external screen, a signal input unit that receives image data from the outside, and the image forming unit In a projector comprising: control means for controlling the means to form an image based on the image data input to the signal input means; and operation input means operated by a user to input a command to the control means ,
The projector according to claim 1, wherein the image forming unit does not project an image onto an arbitrary region. The control means has a non-projection area setting mode for setting a non-projection area that does not project an image,
In the non-projection area setting mode,
The image forming unit projects an image partitioned in a grid pattern,
The control means sets the non-projection area by storing the non-projection area designated through the operation input means while the user confirms the grid-like image projected by the image forming means. The projector according to claim 1. In the non-projection area setting mode,
The control unit recognizes the non-projection region from an outer edge of an obstacle designated through the operation input unit while confirming a grid-like image projected by the image forming unit. Item 3. The projector according to Item 2.