JP3834818B2 - Image display projector - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image display projector that projects and displays an image on a screen, a wall surface, a ceiling, or the like.
[0002]
[Prior art]
Conventionally, based on the image signal from a personal computer, video camera, etc., an image is formed by an image forming element using light emitted from a lamp, and the image is projected on a screen or a wall surface for display. There is a projector. In this type of image display projector, a lamp that emits light for image projection and an image forming element that forms an image using light from the lamp are built in the housing, and an image formed by the image forming element is displayed. The projector projects from the image projection unit toward the outside of the housing. In addition, the image display projector having such a configuration displays an image on a screen installed perpendicular to the floor surface or a wall surface perpendicular to the floor surface, so that the image projection direction from the image projection unit is substantially horizontal. In such a configuration, the casing is stably placed on the floor or table.
[0003]
On the other hand, an apparatus is known in which a projector is mounted on a dental gargle stand, a screen is installed on the ceiling, and an image is displayed on the screen by adjusting a mounting angle of the projector (for example, Patent Document 1). reference). In addition, by using the video projector in an upright position, projecting an image toward the ceiling, and attaching a mirror that reflects the optical axis in a direction perpendicular to the image projection lens of the video projector that is laid down horizontally It is known to project an image toward the ceiling (see, for example, Patent Document 2).
[0004]
[Patent Document 1]
JP-A-9-33854
[Patent Document 2]
JP-A-6-273695
[0005]
[Problems to be solved by the invention]
By the way, the image display projector is usually used in a room in a general home or the like, and it is necessary to install a screen in the room or to secure an area on the wall surface to project an image. However, when the room is small, it is a fact that a screen cannot be installed or an area that can project an image cannot be secured on the wall surface. Therefore, it is conceivable to use the ceiling of the room as an image projection surface and project and display an image on the ceiling of the room. In addition, there is a demand for viewing an image while sleeping while displaying an image on the ceiling of the room as a problem separate from the installation of the screen and the securing of the wall surface.
[0006]
However, in the conventional image display projector described above, it is assumed that an image is displayed on a screen or a wall surface, and the casing is stably placed on the floor or table in a posture in which the image is projected in the horizontal direction. It has come to be. For this reason, in a state where the casing is normally placed on the table, the image cannot be projected toward the ceiling. In addition, it may be possible to place the housing in a posture different from normal so that the image projection direction is upward. However, in such placement, the balance cannot be maintained and the housing posture is Since it is not stable, the image cannot be projected toward the ceiling.
[0007]
Note that the apparatus disclosed in Patent Document 1 described above has a fixed projector and screen installation location, and projects an image on a screen installed on the ceiling, depending on the room layout and user preference. An image cannot be projected on any part of the ceiling. Further, there is no disclosure of a specific structure for attaching the projector to the gargle stand and a specific structure for adjusting the attachment angle.
[0008]
Further, the video projector disclosed in Patent Document 2 described above can be used by placing the video projector in an upright position, or by reflecting the image projection light of the video projector in a state of lying down sideways by a mirror at a right angle. Projecting toward That is, the image projection direction is limited to the vertically upward direction, and the image projection direction is adjusted to project the image onto the ceiling at an arbitrary angle. For this reason, in order to display an image on the ceiling, it is necessary to place a projector directly under the ceiling on which the image is to be displayed. Therefore, the place where the image can be displayed on the ceiling is limited depending on the position where the projector can be placed in the room, and the image can be placed at any place on the ceiling according to the room layout or the user's preference. Cannot be projected.
[0009]
SUMMARY An advantage of some aspects of the invention is that it provides an image display projector capable of projecting and displaying an image on a ceiling of a room.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, a first aspect of the present invention includes a lamp that emits light for image projection, an image forming element that forms an image using light from the lamp, and a housing that incorporates the lamp and the image forming element. Mounting for mounting a housing in an image display projector comprising a body and an image projection unit provided on the housing for projecting an image formed by an image forming element toward an image projection surface outside the housing A mounting case in which the housing is mounted in a state where the image projection unit is exposed from the mounting opening, and an image formed by the image forming element with the image projection direction from the image projection unit facing upward The support base that pivotally supports the orientation of the mounting case with respect to the horizontal plane so that it can be projected and displayed on the ceiling of the room, and the mounting case and support that fixes the orientation of the mounting case at an arbitrary rotation angle Connect to the base with any length And a trapezoidal image correction that corrects an image formed by the image forming element so as not to cause a trapezoidal distortion in an image projected and displayed on the ceiling, based on a rotation angle of the mounting case with respect to the support base of the mounting case Means.
[0011]
In this configuration, the housing of the image display projector is mounted on the mounting case, the mounting case is rotated with respect to the support base, and the mounting case and the support base are coupled by a fixture, thereby The image projection direction from the image display projector can be directed upward while the posture of the image is kept stable, whereby the image can be projected and displayed on the ceiling of the room. Moreover, by adjusting the rotation angle of the mounting case, the image can be projected onto the ceiling at an arbitrary angle. As a result, it is possible to display an image at the same location on the ceiling wherever the image display projector is placed, and even if the image display projector is placed at the same location, images can be displayed at different locations on the ceiling. Display is possible, and there is no restriction on the placement position of the projector in the room and the image display location on the ceiling. Further, when the mounting case is rotated with respect to the support base and the image projection direction is inclined with respect to the ceiling, the image formed by the image forming element is placed on the ceiling based on the rotation angle of the mounting case. The displayed image is automatically corrected so as not to cause trapezoidal distortion. Thereby, even when an image is projected obliquely with respect to the ceiling, an image without the same trapezoidal distortion as when an image is projected from the front onto the ceiling is displayed.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, embodiments of the invention will be described with reference to the drawings. In FIG. 1, an image display projector 100 forms an image by an image forming element 2 using image projection light emitted from a lamp 1 based on an image signal input from a personal computer, a video camera, or the like. It is an apparatus that projects and displays an image from an image projection port (image projection unit) 3 on a screen, a wall surface of a room, a ceiling, or the like.
[0017]
The image display projector 100 includes a projector main body 10 including a lamp 1, an image forming element 2, and an image projection port 3, and a support device (attachment) 30 that rotatably supports the attitude of the projector main body 10. In addition, by rotating the posture of the projector main body 10 so that the image projection direction from the image projection port 3 is directed upward, the image can be projected and displayed on the ceiling of the room. In addition, the image display projector 100 has a trapezoidal image correction function for correcting an image so that trapezoidal distortion does not occur in the image displayed on the ceiling according to the rotation angle of the attitude of the projector body 10 (that is, the image projection direction). I have.
[0018]
First, the projector body 10 will be described with reference to FIGS. In addition to the lamp 1, the image forming element 2, and the image projection port 3 described above, the projector main body 10 includes a housing 11, a reflection mirror 12, a projection lens 13, intake ports 14a and 14b, an exhaust port 15, A key operation unit 16, a power supply terminal unit 17, an image input terminal unit 18, and an angle input terminal unit 19 are provided.
[0019]
The lamp 1 emits light for image projection, and is built in the housing 11. The image forming element 2 forms an image using light from the lamp 1 and is built in the housing 11. In this image forming element 2, an image forming surface is formed by arranging a large number of micromirrors in a matrix, and the angle of each micromirror is controlled to reflect the irradiated light to form an image. To do. The image projection port 3 is an opening for projecting an image formed by the image forming element 2 toward the outside of the housing 11, and is provided on the front surface of the housing 11.
[0020]
The reflection mirror 12 reflects the image projection light emitted from the lamp 1 and irradiates the image forming element 2, and is built in the housing 11. The projection lens 13 projects reflected light from the image forming element 2, that is, an image formed by the image forming element 2 toward the outside of the casing 11 through the image projection port 3, and is built in the casing 11. It is arranged at a position facing the image projection port 3.
[0021]
The intake ports 14 a and 14 b and the exhaust port 15 are used to circulate air inside and outside the housing 11 in order to prevent a temperature rise in the housing 11 due to heat generated by the lamp 1. The air inlet 14 a is provided on the rear surface of the housing 11, and the air inlet 14 b is provided on the side surface of the housing 11. Further, the exhaust port 15 is provided on the front surface of the housing 11. A fan (not shown) for generating an air flow is provided inside the housing 11, and air is sucked into the housing 11 from the intake ports 14 a and 14 b, and the housing 11 is exhausted from the exhaust port 15. Air is discharged to the outside.
[0022]
The key operation unit 16 is operated by a user to perform various operations of the projector main body 10, and is provided on the upper surface of the housing 11. The power supply terminal unit 17, the image input terminal unit 18, and the angle input terminal unit 19 are respectively a power supply cable 71 for supplying power, and an image signal cable 72 for inputting an image signal from a personal computer or a video camera. , And a sensor cable 73 (see FIG. 1) for inputting an output signal of an angle sensor 34 to be described later, and is provided on the rear surface of the housing 11.
[0023]
The casing 11 has a substantially rectangular parallelepiped shape, and projects an image from the image projection port 3 when the casing 11 is placed on a horizontal floor or table with the upper surface on which the key operation unit 16 is provided facing upward. The optical axis P is configured to be in the horizontal direction.
[0024]
Next, the support device 30 will be described with reference to FIGS. The support device 30 includes a mounting case 31, a support base 32, a fixture 33, and an angle sensor 34.
[0025]
The mounting case 31 detachably holds the projector main body 10 (that is, the housing 11 of the projector main body 10) and is rotatably supported by the support base 32. The mounting case 41 and the rotation shaft A portion 42, a fixture connecting portion 43, vent openings 44 a and 44 b, and an operation opening 45 are provided.
[0026]
The mounting opening 41 is an opening for mounting the projector body 10 to the mounting case 31 and is provided on the front surface of the mounting case 31. The pivot shaft 42 is pivotally supported by the support base 32 and is fixed to the side surface of the mounting case 31 near the mounting opening 41, from the side surface of the mounting case 31. It extends in the horizontal direction. In the mounting case 31, the rotating shaft portion 42 extending in the horizontal direction is pivotally supported by the support base 32, so that the extending direction of the rotating shaft portion 42 becomes the rotation center axis Q and becomes a horizontal plane. On the other hand, it is freely rotatable at an arbitrary angle.
[0027]
The fixing tool connecting portion 43 is for connecting the fixing tool 33 that fixes the posture of the mounting case 31, and is provided at the bottom of the rear surface of the mounting case 31, and is engaged for connecting the fixing tool 33. It has a hole 43a.
[0028]
The ventilation openings 44a and 44b are openings for allowing air to be sucked into the housing 11 through the air inlets 14a and 14b of the projector main body 10 when the projector main body 10 is mounted on the mounting case 31. The ventilation opening 44 a is provided on the rear surface of the mounting case 31, and the ventilation opening 44 b is provided on the side surface of the mounting case 31. The ventilation opening 44a can connect the power supply cable 71, the image signal cable 72, and the sensor cable 73 of the projector body 10 to the power supply terminal unit 17, the image input terminal unit 18, and the angle input terminal unit 19, respectively. It also serves as an opening.
[0029]
The operation opening 45 is an opening for enabling the key operation unit 16 of the projector main body 10 to be operated in a state where the projector main body 10 is mounted on the mounting case 31. The operation opening 45 is provided on the upper surface of the mounting case 31 and is connected to the mounting opening 41 so that the key operation unit 16 does not come into contact with the mounting case 31 when the projector body 10 is mounted on the mounting case 31. Has been.
[0030]
The support base 32 pivotally supports the rotation shaft portion 42 of the mounting case 31, thereby supporting the posture of the mounting case 31 so as to be rotatable with respect to the horizontal plane. The support base 32 includes a fixture connecting portion 51 for connecting a fixture 33 that fixes the posture of the mounting case 31. The fixing tool connecting portion 51 has a plurality of engaging holes 51 a for connecting the fixing tool 33. The plurality of engagement holes 51 a are arranged in a direction orthogonal to the rotation center axis Q of the mounting case 31.
[0031]
The fixture 33 is for fixing the posture of the mounting case 31 at an arbitrary rotation angle, and has engaging portions 62 that are bent at substantially right angles at both ends of the rod-shaped member 61. The engaging part 62 of the fixing tool 33 is detachably engaged with the engaging hole 43a of the mounting case 31 and the engaging hole 51a of the support base 32. When the part 62 is engaged with the engagement hole 43a and the engagement hole 51a, the mounting case 31 and the support base 32 are connected to fix the posture of the mounting case 31. In addition, a plurality of fixtures 33 (not shown) having different lengths are prepared, and the fixture 33 having an arbitrary length is used, and the fixture 33 is arbitrarily connected to the engagement holes 51a. By engaging with the engagement hole 51a, the posture of the mounting case 31 can be fixed at an arbitrary rotation angle.
[0032]
The angle sensor 34 detects a rotation angle of the mounting case 31 with respect to the support base 32, that is, a rotation angle of the mounting case 31 with respect to the horizontal plane. As the angle sensor 34, for example, a rotary encoder that detects the rotation of the rotation shaft portion 42 and outputs a signal corresponding to the rotation amount is used.
[0033]
With such a configuration, as shown in FIG. 1, in the image display projector 100, the projector body 10 is mounted on the mounting case 31 of the support device 30, and the posture of the mounting case 31 is tilted to a desired angle and the fixture 33. It is fixed by. At this time, in the projector main body 10, the image projection port 3 is exposed from the mounting opening 41 of the mounting case 31, and the projection optical axis P of the image from the image projection port 3 is the rotation center axis Q of the mounting case 31. Is mounted and held in the mounting case 31 in a state perpendicular thereto. Therefore, by adjusting the inclination angle of the posture of the mounting case 31, the image projection optical axis P, that is, the image projection direction from the image projection port 3 can be adjusted.
[0034]
The inclination of the posture of the mounting case 31 can be adjusted to an arbitrary angle over a range of approximately −90 ° to + 90 °, with the projection optical axis P of the image as 0 ° with respect to the vertical upward direction. The support base 32 can be placed anywhere as long as it is a substantially horizontal place such as a floor or a table. Thereby, the image display projector 100 can project and display an image from an arbitrary position in the room onto a ceiling parallel to the horizontal plane or a screen or wall surface perpendicular to the horizontal plane.
[0035]
Further, in the projector main body 10, the air inlet 14 a, the power supply terminal portion 17, the image input terminal portion 18, and the angle input terminal portion 19 are aligned with the vent opening 44 a of the mounting case 31, and the air inlet 14 b is vented of the mounting case 31. The mounting case 31 is mounted and held in a state of being fitted to the opening 44b. Thereby, in the state where the projector body 10 is mounted on the mounting case 31, air can be circulated inside and outside the casing 11 of the projector body 10.
[0036]
The power supply cable 71, the image signal cable 72, and the sensor cable 73 are connected to the power supply terminal unit 17, the image input terminal unit 18, and the angle input terminal through the ventilation opening 44 a after the projector body 10 is mounted on the mounting case 31. Connected to the unit 19. The adjustment of the posture of the mounting case 31 and the fixing of the posture of the mounting case 31 by the fixture 33 may be performed before the projector main body 10 is mounted on the mounting case 31, or the projector main body 10 is mounted on the mounting case 31. It may be done later.
[0037]
Next, an electrical block configuration of the projector main body 10 is shown in FIG. In addition to the lamp 1, the image forming element 2, the key operation unit 16, the image input terminal unit 18, and the angle input terminal unit 19, the projector main body 10 includes an image signal input unit 21, an angle signal input unit 22, and an image processing unit. 23, a buffer memory 24, a color wheel 25, a display signal processing unit 26, an image correction memory 27, and a control unit 29 for controlling the above-described units. The image processing unit 23, the image correction memory 27, and the control unit 29 constitute a trapezoidal image correction unit that corrects an image so that trapezoidal distortion does not occur in the projected and displayed image.
[0038]
The lamp 1 is turned on and projects light under the control of the control unit 29. The color wheel 25 is used to color the light from the lamp 1, and is configured in a disc shape by arranging red, blue, and green color filters along the circumferential direction. The color wheel 25 is rotationally driven in the circumferential direction about the center of the disk as a rotation axis under the control of the control unit 29. The light projected from the lamp 1 passes through the color wheel 25 that is driven to rotate, and is arranged in time series in red, blue, and green, and is irradiated onto the image forming surface of the image forming element 2.
[0039]
The key operation unit 16 outputs a signal corresponding to the key operation to the control unit 29. The image signal input unit 21 converts an analog image signal from a personal computer or a video camera input via the image input terminal unit 17 into a digital image signal and outputs the digital image signal to the image processing unit 23. The angle signal input unit 22 converts an output signal of the angle sensor 34 (see FIG. 1) input via the angle input terminal unit 19 into a digital signal and outputs the digital signal to the control unit 29.
[0040]
The image processing unit 23 processes the image signal input from the image signal input unit 21 under the control of the control unit 29. The buffer memory 24 temporarily stores the image data processed by the image processing unit 23. The display signal processing unit 26 processes the image data output from the image processing unit 23 into a display signal. The image forming element 2 forms an image by reflecting the light from the lamp 1 by controlling the angle of each micromirror by this display signal.
[0041]
The image correction memory 27 stores correction data for correcting an image formed by the image forming element 2 so as not to cause trapezoidal distortion in a display image on a screen, a wall surface of a room, a ceiling, or the like. The trapezoidal distortion of the image is corrected by compressing the image formed by the image forming element 2 by thinning out the image signal processed by the image processing unit 23, and the image correction memory 27 stores the thinned portion and thinned image signal. The correction data such as the rate is stored in association with the angle of the projection optical axis P (see FIG. 1) of the image with respect to the horizontal plane.
[0042]
Based on the output signal of the angle sensor 34 input from the angle signal input unit 22, the control unit 29 determines the angle of the projection optical axis P of the image with respect to the horizontal plane (the rotation angle of the mounting case 31 with respect to the support base 32). To do. Then, the control unit 29 uses the correction data stored in the image correction memory 27 based on the angle of the projection optical axis P to the image processing unit 23 so as not to cause trapezoidal distortion in the display image. Control to correct the data. The image processing unit 23 corrects the image data by thinning out the image signal by the correction control from the control unit 29, and the display signal processing unit 26 processes the corrected image data into a display signal. As a result, the image forming element 2 forms an image based on the corrected data, and an image having no trapezoidal distortion is projected and displayed on the screen, the wall surface of the room, the ceiling, or the like.
[0043]
The operation of projecting and displaying the image is performed by the key operation unit 16, and the operation of the key operation unit 16 selects whether to perform projection display on the ceiling or to perform projection display on a screen or wall surface perpendicular to the horizontal plane. Is done. When the projection display on the ceiling is selected, the control unit 29 causes no trapezoidal distortion when an image is projected on a plane parallel to the horizontal plane based on the angle signal input from the angle signal input unit 22. Thus, the correction of the image data is controlled. On the other hand, when projection display on a screen or wall surface perpendicular to the horizontal plane is selected, the control unit 29 corrects the image data so that trapezoidal distortion does not occur when an image is projected onto a plane perpendicular to the horizontal plane. To control.
[0044]
With such a configuration, as shown in FIG. 5, when the posture of the mounting case 31 is inclined with respect to the horizontal plane and the image 92 is projected diagonally with respect to the ceiling 91 of the room, the mounting is performed by the output signal of the angle sensor 34. The inclination angle of the posture of the case 31 is detected. Then, image correction is automatically performed based on the detected angle, and the image 92 is displayed on the ceiling 91 without any trapezoidal distortion. In addition, when the image 92 is projected from the front onto the ceiling 91 of the room with the posture of the mounting case 31 vertically upward (the projection optical axis P of the image is vertically upward), the image can be corrected without performing image correction. 92 is displayed on the ceiling 91 with no trapezoidal distortion. Similarly, when the image 92 is projected obliquely in the vertical direction from the front with respect to the wall 93 or screen (not shown) of the room perpendicular to the horizontal plane, the image 92 is similarly free from trapezoidal distortion. Displayed on the screen. Note that when the image 92 is projected obliquely in the horizontal plane with respect to the wall 93 or the screen, the trapezoidal distortion due to the inclination in the horizontal plane is corrected according to the operation of the key operation unit 16.
[0045]
According to the image display projector 100 having such a configuration, the projector main body 10 is mounted on the mounting case 31 of the support device 30, and the mounting case 31 and the support base 32 are mounted in a state where the posture of the mounting case 31 is inclined to a desired angle. Are connected by the fixture 33, the projection direction of the image 92 can be made upward while the posture of the projector body 10 is kept stable. Thus, the image 92 can be projected and displayed on the ceiling 91 of the room with the projection direction of the image 92 facing upward.
[0046]
Moreover, since the posture of the mounting case 31 can be adjusted to an arbitrary inclination with respect to the horizontal plane, the image 92 can be displayed at the same location on the ceiling 91 wherever the image display projector 100 is placed. Even if the image display projector 100 is placed at the same position, the image 92 can be displayed at different locations on the ceiling 91. Thus, the placement of the image display projector 100 and the image display location on the ceiling 91 are not limited. For example, the image display projector 100 is mounted on the bed foot or bedside in the room, or in an empty space in the room. The image 92 can be projected and displayed on the ceiling 91 desired by the user.
[0047]
When the image 92 is projected obliquely on the ceiling 91, the projection direction of the image 92 is detected by the output signal of the angle sensor 34, and the image formed by the image forming element 2 is automatically generated based on the projection direction of the image 92. The corrected image 92 without trapezoidal distortion is displayed on the ceiling 91. That is, even if the image 92 is projected obliquely on the ceiling 91, the image 92 without trapezoidal distortion is displayed in the same manner as when the image 92 is projected from the front onto the ceiling 91.
[0048]
In addition, this invention is not restricted to the structure of the said embodiment, A various deformation | transformation is possible. For example, in the above embodiment, the detection of the projection angle of the image may be performed by other means and methods without using the angle sensor 34. Further, it is not always necessary to detect the projection angle of the image, and the trapezoidal distortion of the image may be corrected in accordance with the user operation by the key operation unit 16. The mounting case 31 can be fixed in any structure and method as long as the mounting case 31 and the support base 32 can be connected and fixed. It may be fixed.
[0049]
【The invention's effect】
As described above, according to the first aspect of the present invention, the mounting case on which the housing of the image display projector is mounted is pivotally supported with respect to the horizontal plane by the support base, so that the image is placed on the ceiling of the room. It is possible to project and display the image, so that the image can be viewed even when the room is small, and the image can be viewed while sleeping. In addition, there is no restriction on the placement position of the projector in the room or the image display location on the ceiling, and the image display projector is placed at any position in the room according to the room layout or user preference. An image can be displayed at any location on the ceiling. Also, since the image displayed on the ceiling is automatically corrected based on the rotation angle of the mounting case so as not to cause trapezoidal distortion, the projector is placed anywhere in the room and the image is displayed anywhere on the ceiling. Even when displayed, an image without trapezoidal distortion is displayed on the ceiling, and a beautiful image without trapezoidal distortion can be viewed.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a schematic configuration of an image display projector according to an embodiment of the present invention in a state in which a projector body is supported by a support device.
2A and 2B are perspective views showing a configuration of a projector main body of the image display projector. FIG.
FIGS. 3A and 3B are perspective views showing the configuration of a support device for the image display projector. FIGS.
FIG. 4 is an electrical block configuration diagram of a projector main body of the image display projector.
FIG. 5 is a diagram showing a state in which an image of the image display projector is projected and displayed on the ceiling of the room.
[Explanation of symbols]
1 lamp
2 Image forming elements
3 Image projection port (image projection unit)
10 Projector body
11 Case
23 Image processing unit (trapezoidal image correction means)
27 Image correction memory (trapezoidal image correction means)
29 Control unit (trapezoidal image correction means)
30 Supporting device
31 Installation case
32 Support base
33 Fixing tool
34 Angle sensor
41 Opening for wearing
91 Ceiling
92 images
100 image display projector

Claims (1)

A lamp that emits light for image projection, an image forming element that forms an image using light from the lamp, a housing that contains the lamp and the image forming element, and an image formed by the image forming element In an image display projector comprising: an image projection unit provided on the housing for projecting toward an image projection surface outside the housing;
A mounting case having a mounting opening for mounting the casing, and the casing is mounted in a state where the image projection unit is exposed from the mounting opening;
The orientation of the mounting case is pivotally supported with respect to a horizontal plane so that an image formed by the image forming element can be projected onto the ceiling of a room and displayed with the image projection direction from the image projection unit facing upward. A supporting base to
A fixture for connecting the mounting case and a support base at an arbitrary length to fix the posture of the mounting case at an arbitrary rotation angle;
Based on a rotation angle of the mounting case with respect to the support base, a trapezoidal image correcting unit corrects an image formed by the image forming element so that a trapezoidal distortion does not occur in an image projected and displayed on the ceiling. An image display projector comprising:

Images