JP2004037896A - Projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To speedily print out a projected image with simple constitution. <P>SOLUTION: An image projected in a projection mode can be formed on an instant film (photosensitive material) 40 by switching the mode to a photographic mode and performing shutter operation and the photosensitive material 40 after the image is formed is discharged from a discharge opening. A changeover switch 26 for switching to a projection mode or the photographic mode is provided in the optical path of luminous flux projected by a halogen lamp (light source) 12 and in the photographic mode where the projected image is formed on the photosensitive material, a CPU 50 controls a light quantity control means 52 and a color reproduction characteristic control means 54 according to spectral characteristics of the photosensitive material. Consequently, a conventional input/output mechanism for image data becomes unnecessary, so the constitution is simplified. Further, the projected image halfway in the optical path is formed by exposure on the photosensitive material 40 so as to correspond to spectral characteristics of the photosensitive material, so the optimum projected image can speedily be printed out. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a projector that projects light that is emitted from a light source and carries an image indicated by image information.
[0002]
[Prior art]
As a conventional projector, a projector with a printer that prints a projected image or the like on a recording sheet with a printer has been proposed. For example, Japanese Patent Application Laid-Open No. 5-93957 discloses an overhead projector equipped with a thermal printer. The invention according to the above publication is an overhead projector that records image data read from a recording medium such as a flexible disk in an image memory, and outputs the image data recorded in the image memory to a thermal printer.
[0003]
Japanese Patent Laid-Open No. 2001-312001 discloses an external camera that captures a projected image on a whiteboard and a composite image of the projected image written on the whiteboard, and the composite image and the like on a recording sheet. A projection image storage system comprising an external printer for printing is disclosed. That is, the invention according to the above publication is a projection image storage system that causes a printer to output image data obtained by capturing the composite image with an external camera.
[0004]
[Problems to be solved by the invention]
By the way, the invention according to the above Japanese Patent Laid-Open No. 5-93957 requires an image data input / output mechanism, for example, an image memory for recording image data, a printer interface, and a printer.
[0005]
Further, in the invention according to Japanese Patent Laid-Open No. 2001-312001, an external camera that captures the composite image and an external printer that outputs image data captured by the external camera are required. That is, in the inventions according to the above-mentioned publications, an input / output mechanism for image data is required, and the configuration is complicated.
[0006]
An object of the present invention is to provide a projector that prints out a projected image with a quick and simple configuration in consideration of the above facts.
[0007]
[Means for Solving the Problems]
The projector according to claim 1, wherein the projector projects light that is emitted from a light source and carries an image indicated by image information, the light amount adjusting means for adjusting the light amount of the light source, and the light source. A photosensitive material arranged on an optical path of the emitted light, an image quality adjusting means for adjusting an image quality of an image carried by the light emitted from the light source, and a direction of travel of the optical path of the light source is switched or the photosensitive Switching means for switching the material so as to be separated from and on the optical path of the light source, and control means for controlling the light amount adjusting means and the image quality adjusting means in accordance with the switching of the switching means.
[0008]
The control means according to claim 2 controls the light amount adjusting means and the image quality adjusting means so as to correspond to the spectral characteristics of the photosensitive material. According to a third aspect of the present invention, the projector includes an exposure adjusting unit that adjusts an exposure when an image carried by the light emitted from the light source is imaged on the photosensitive material.
[0009]
The present invention has a novel configuration in which a photosensitive material is disposed on the optical path of light emitted from a light source, that is, in the optical path of a projected image that is a projected image, and the projected image is directly exposed to the photosensitive material. When configured as in the present invention, it is necessary to adjust the light quantity of the light source, the image quality of the projected image, and the like.
[0010]
That is, in the projection mode in which the projected image is projected on the screen, the normal luminance is high, while in the photographing mode in which the projected image in the middle of the optical path is directly exposed to the photosensitive material, the luminance is lower than in the projection mode. Accordingly, there is a difference in the amount of light in both modes, and if the rated light emission amount in the projection mode is maintained, the exposure of the photosensitive material in the photographing mode is too strong to form an image on the photosensitive material.
[0011]
In the photographing mode, the output level of color balance in red light, green light, and blue light (RGB) differs depending on the spectral characteristics of the photosensitive material, so it is necessary to adjust the color balance.
[0012]
For this reason, in the present invention, the traveling direction of the light path of the light source is switched so that the projected image is projected onto the photosensitive material by the switching means, or the photosensitive material is switched to be positioned on the optical path of the light source, thereby setting the photographing mode. In the present invention, the control unit controls the light amount adjusting unit and the image quality adjusting unit so that the light amount of the light source is adjusted to an optimum light amount, and the image quality of the image carried by the light emitted from the light source is adjusted. Adjust for optimal image quality.
[0013]
In the invention according to claim 3, the aperture, shutter, and the like constituting the exposure adjusting means are controlled so that an appropriate exposure amount can be obtained for the projected image in the photographing mode on the photosensitive material. The exposure adjusting unit exposes a projected image in the middle of the optical path in the shooting mode onto the photosensitive material, and performs an imaging process.
[0014]
In the present invention, the projected image projected in the projection mode can be imaged on the photosensitive material by switching to the photographing mode. That is, according to the present invention, the switching means for switching the projection mode or the photographing mode is provided in the middle of the optical path of the light beam projected from the light source, and the control means is the light amount adjusting means in the photographing mode for capturing the projected image on the photosensitive material. Since the image quality adjusting means is controlled so as to correspond to the spectral characteristics of the photosensitive material, for example, an input / output mechanism relating to image data as in the prior art becomes unnecessary, and the configuration is simplified.
[0015]
According to the second aspect of the present invention, since the projected image in the middle of the optical path is exposed and imaged on the photosensitive material so as to correspond to the spectral characteristics of the photosensitive material, the optimum projected image can be printed out quickly. In the present invention, if the photosensitive material is a so-called self-development processing type (instant film) photograph, the projected image in the photographing mode can be printed out as a photograph instantaneously. The image quality adjusting means according to claim 1 adjusts at least one of color balance, hue, color saturation, contrast, and gradation curve.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a projector according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4. The projector according to this embodiment is a type in which image data is input from a personal computer (hereinafter simply referred to as “PC”), and is loaded with a so-called self-development processing type (hereinafter simply referred to as “instant film”) photosensitive material. Type. 1 is a perspective view showing the appearance of the projector according to the present embodiment, FIG. 2 is a schematic diagram of the optical system of the projector shown in FIG. 1, and FIG. 3 is a block diagram relating to the projector shown in FIG.
[0017]
As shown in FIG. 2, the projector 10 includes a halogen lamp 12 as a light source, transmissive color liquid crystal panels 14, 15, 16 arranged in the irradiation direction of the halogen lamp 12, and color liquid crystal panels 14, 15, 16. Are provided with lenses 18, 19, 20 arranged opposite to each other and half mirrors 22, 23, 24 arranged opposite to lenses 18, 19, 20 respectively.
[0018]
The color liquid crystal panels 14, 15, and 16 are panels that respectively transmit red light, green light, and blue light (RGB) of the three primary colors, and the color liquid crystal panel 14 is a panel that transmits only red light (R light). The color liquid crystal panel 15 is a panel that transmits only green light (G light), and the color liquid crystal panel 16 is a panel that transmits only blue light (B light). The projector 10 is provided with a lens driver 21 (see FIG. 3) that slides the lenses 18, 19, and 20 along the optical axis, and the focal lengths of the lenses 18, 19, and 20 are changed by a zoom operation.
[0019]
In the projector 10, a switching mirror 26 that constitutes a part of the optical path switching means is rotatably disposed on the reflected light (optical path) from the half mirrors 22, 23, and 24 that bend the optical path at a right angle. . That is, the switching mirror 26 is arranged in the middle of the optical path of the light beam projected from the halogen lamp 12, and is connected to a mirror switching motor 28 (see FIG. 3) which is an optical path switching means.
[0020]
On the color liquid crystal panels 14, 15, and 16, images corresponding to the image data allocated for each of the R light, G light, and B light are displayed. The switching mirror 26 carries the R light, G light, and B light images from the color liquid crystal panels 14, 15, 16 through the half mirrors 22, 23, 24 as overlapping color images.
[0021]
As shown in FIG. 2, the switching mirror 26 rotates over a predetermined (90 degrees in this embodiment) angular range, and switches the optical path to the projection lens 30 side or the photographing lens 34 side. That is, the switching mirror 26 is disposed between the projection lens 30 and the photographic lens 34, and the projection lens 30 and the photographic lens 34 are disposed such that the optical axis is positioned on a straight line.
[0022]
The projection lens 30 slides inside the lens tube 31, and the focal length of the projection lens 30 changes according to the zoom operation. Further, an opening is formed outside the projection lens 30, and a dust-proof glass 33 as shown in FIG. 1 is disposed in the opening.
[0023]
On the other hand, on the photographic lens 34 side, a mechanical shutter and aperture (hereinafter simply referred to as “shutter / aperture”) 36 for adjusting the amount of light passing through the photographic lens 34 (exposure), and an instant film (photo) 40. And a film pack 42 that accommodates.
[0024]
A shutter / aperture 36 constituting a part of the exposure adjusting means is disposed between the photographing lens 34 and the film pack 42. The shutter / aperture 36 includes a shutter / aperture driver 38 constituting a part of the exposure adjusting means. (See FIG. 3) are connected. The shutter / aperture 36 is normally fully closed and is set to be opened when a photographing operation is performed.
[0025]
As shown in FIG. 1, the film pack 42 is loaded in a film loading unit 44 formed in the projector 10 and is disposed on the optical axis of the photographing lens 34 (see FIG. 2). Further, the projector 10 is formed with a discharge port 46 for discharging the instant film 40 to the outside above the film loading unit 44. The projector 10 is provided with a door 48 for opening and closing the film loading unit 44.
[0026]
The instant film 40 and the film pack 42 are well-known films and packs that are commercially available. That is, the film pack 42 includes a case 43 formed in a box shape and a plurality of instant films 40 (see FIG. 2) stacked in the case 43.
[0027]
An opening 43A that opens the exposure surface 40A of the instant film 40 shown in FIG. 2 is formed on the front side of the case 43 (on the photographing lens 34 side). A slit-shaped film outlet (not shown) for discharging the instant film 40 is formed on the upper surface side (discharge port 46 side) of the case 43, and the film outlet is a flexible light-shielding sheet except when the film is discharged. It is closed by (not shown).
[0028]
The instant film 40 is a transmissive mono-sheet type, and includes an exposure surface 40A on which an image is exposed, a positive image forming surface provided on the opposite side of the exposure surface 40A, and between the exposure surface 40A and the positive image forming surface. And a pod portion enclosing a developing solution, and a trap portion that flows down from the pod portion to the photosensitive layer and absorbs the remaining developing solution. When the instant film 40 is developed with a developing solution, the latent image formed on the exposure surface 40A appears on the positive image forming surface as a positive image.
[0029]
The film loading unit 44 is provided with a delivery mechanism (not shown) for delivering the photographed instant film 40 to the film outlet of the case 43. A pair of rollers connected to a motor (not shown) is disposed on the discharge port 46 side of the film loading unit 44, and the rollers convey the instant film 40 fed from the film outlet of the case 43 to the discharge port 46. .
[0030]
At the time of the conveyance, the pair of rollers press and rupture the pod portion of the instant film 40 and spread while causing the developing solution in the pod portion to flow down to the photosensitive layer. The remaining developing solution flowing down from the pod part to the photosensitive layer is sent to the trap part of the instant film 40 and is absorbed and solidified in the trap part.
[0031]
Next, the configuration related to the projector 10 will be outlined based on the block diagram shown in FIG. A central processing unit (CPU) 50 serving as a control unit that controls the overall operation of the projector 10 includes a light amount control unit (output driver) 52 that controls the light amount of the light source (halogen lamp) 12, and the color liquid crystal panels 14, 15, 16 are connected to color reproduction characteristic control means (output driver) 54 for controlling color reproduction characteristics such as color balance, hue, color saturation, contrast, and gradation curve.
[0032]
The CPU 50 detects whether or not the instant film 40 is loaded in the film loading unit 44 by the sensor 39. Further, since the spectral characteristics differ for each photosensitive material (instant film 40), the CPU 50 detects the ISO sensitivity of the instant film 40 loaded in the film loading unit 44 and stores it in the memory 62.
[0033]
Since the output levels of the color balances of the three primary colors of red light, green light, and blue light (RGB) are different for each photosensitive material, the CPU 50 determines the color liquid crystal panels 14, 15, and the like according to the spectral characteristics of the photosensitive material. 16 transmittance or color balance is controlled via the color reproduction characteristic control means 54. That is, the R light, G light, and B light in the color liquid crystal panels 14, 15, and 16 are modulated by driving the electrodes of the pixels of the color liquid crystal panels 14, 15, and 16 corresponding to RGB color images.
[0034]
The CPU 50 also includes a lens driver 21 that performs zoom processing on the projection lens 30, a mirror switching motor 28 that rotates the switching mirror 26, and a shutter / aperture that controls the shutter speed or aperture value of the shutter / aperture 36. A driver 38 is connected to each other. That is, the CPU 50 drives the shutter / aperture 36 at a timing that gives an appropriate exposure amount to the exposure surface 40A (see FIG. 2) according to the ISO sensitivity and aperture value of the photosensitive material.
[0035]
Further, an operation unit 56 having various operation keys such as a power switch, a mode switch, a release button, and an interface (I / F) 58 for relaying transmission / reception of various data are connected to the CPU 50. In other words, the I / F 58 relays various data exchanges with the PC 62 and controls data transfer such as image data transferred from the PC 62.
[0036]
With reference to FIG. 4, the process regarding the projection mode or imaging | photography mode performed by the projector 10 is demonstrated. Note that the processing in the projection mode or the photographing mode is executed in a state where the PC 62 is connected to the projector 10 via the I / F 58 as shown in FIG. Here, the projection mode is a mode in which a projected image is projected onto the screen 64 (see FIG. 3), and the normal luminance is high (about 1000 lumens (lm)). On the other hand, the photographing mode is a mode in which a projected image in the middle of the optical path is directly exposed to the photosensitive material, and the luminance is lower than the projection mode (about 500 candela / m ² (Cd / m ² )).
[0037]
The mode process shown in FIG. 4 is a flowchart showing a processing routine executed by the CPU 50 when a power switch (not shown) of the projector 10 is turned on, and the program is stored in a program area (not shown) of the memory 60 in advance. It is remembered. In the mode process shown in FIG. 4, the initial setting is programmed to be in the projection mode that is the original function of the projector 10.
[0038]
That is, in step 100, the switching mirror 26 is moved by the mirror switching motor 28 so that the reflected light from the half mirrors 22, 23, 24 is directed to the projection lens 30 as shown by the solid line in FIG. Rotate to set (position).
[0039]
In step 102, the projection mode is set, and the light amount control means 52 is controlled so that the light amount of the light source 12 becomes a preset fixed rated light emission amount (a light amount having a higher luminance than in the photographing mode), and is transferred from the PC 62. The R light, G light, and B light allocated according to the image data are displayed on the color liquid crystal panels 14, 15, and 16.
[0040]
That is, the color liquid crystal panels 14, 15 and 16 display an image corresponding to the image data assigned to each of the R light, G light and B light, and in this state, the light emitted from the halogen lamp 12 which is a light source is displayed. When the light passes through the color liquid crystal panels 14, 15, and 16, it becomes light carrying an image for each color of RGB.
[0041]
The switching mirror 26 carries R, G, and B light images from the color liquid crystal panels 14, 15, and 16 through the half mirrors 22, 23, and 24 as overlapping color images. An image (video) is projected on the screen 64 via the projection lens 30.
[0042]
In step 104, it is determined whether or not the photographing mode is set based on the mode switching operation at the operation unit 56 shown in FIG. That is, switching from the projection mode to the photographing mode is an operation performed when it is desired to photograph an image projected (projected) in the projection mode as a still image on the instant film 40 that is a photosensitive material.
[0043]
If the determination in step 104 is affirmative, i.e., in the shooting mode, the switching mirror 26 is switched to the shooting side in step 106. That is, at step 106, the switching mirror 26 is switched so that the reflected light from the half mirrors 22, 23, 24 is directed to the instant film 40 through the photographing lens 34 as shown by the imaginary line in FIG.
[0044]
In step 108, it is determined based on the sensor 39 whether or not the instant film 40 stored in the film pack 42 is loaded in the film loading unit 44. If the determination in step 108 is negative, that is, if the instant film 40 is not loaded in the film loading unit 44, a warning process such as “no film” is output through a warning process in step 110, or A message such as “no film” is displayed on a display (display means) (not shown).
[0045]
Then, after the processing of step 110 is completed, the process returns to step 108 again to detect whether or not the instant film 40 is loaded in the film loading unit 44. In the present embodiment, even if the processing of step 108 and step 110 is performed a plurality of times, the setting may be made such that the instant mode 40 is forcibly returned to the projection mode when the film loading unit 44 is not loaded.
[0046]
If the determination in step 108 is affirmative, that is, if the instant film 40 is loaded in the film loading unit 44, in step 112, the ISO sensitivity of the instant film 40 (for example, “ISO-7810” or the like) is detected, and the memory 62 is stored.
[0047]
Here, the ISO sensitivity of the instant film 40 is detected based on the following reason. That is, since the output levels of the color balances of the three primary colors of red light, green light, and blue light (RGB) are different for each photosensitive material, the CPU 50 transmits the transmittance or color balance of the color liquid crystal panels 14, 15, 16 and the like. Therefore, it is necessary to control the shutter / aperture driver 38, the light amount control means 52, the color reproduction characteristic control means 54, and the like so as to correspond to the spectral characteristics of the photosensitive material, and ISO sensitivity is used as reference data for that purpose. That is, the amount of light corresponding to the ISO sensitivity stored in the memory 62 is set by a table stored in advance in the memory 62.
[0048]
In step 114, the light amount is controlled via the light amount control means 52 shown in FIG. 3 so that the luminance is lower than that in the projection mode and corresponds to the spectral characteristics of the instant film 40. In step 116, the color balance, hue, color saturation, and cost of the color liquid crystal panels 14, 15, and 16 are adjusted to correspond to the spectral characteristics of the instant film 40 via the color reproduction characteristic control means 54 shown in FIG. Controls color reproduction characteristics such as last and gradation curves.
[0049]
In step 118, an image is taken according to the shutter speed and aperture value set by the light amount control by the shutter operation arranged in the operation unit 56 shown in FIG. That is, the shutter / aperture 36 is driven at a timing corresponding to the ISO sensitivity and the aperture value of the instant film 40 via the shutter / aperture driver 38.
[0050]
Therefore, on the positive image forming surface of the instant film 40, the latent image formed on the exposure surface 40A appears as a positive image. That is, in the present embodiment, the projected image projected in the projection mode can be imaged on the instant film 40 by switching to the photographing mode and performing a shutter operation, and the instant film 40 that has been imaged as shown in FIG. Is discharged (printed out) from the discharge port 46.
[0051]
According to the present embodiment, the switching mirror 26 for switching the projection mode or the photographing mode is provided in the middle of the optical path of the light beam projected from the halogen lamp 12, and the CPU 50 controls the light amount in the photographing mode for picking up the projected image on the photosensitive material. Since the means 52 and the color reproduction characteristic control means 54 are controlled so as to correspond to the spectral characteristics of the photosensitive material, an input / output mechanism relating to image data as in the prior art becomes unnecessary, and the configuration is simplified.
[0052]
Further, according to the present embodiment, since the projected image in the middle of the optical path is exposed and imaged on the photosensitive material so as to correspond to the spectral characteristics of the photosensitive material, the optimal projected image can be printed out quickly. In the present embodiment, since the photosensitive material is a self-development processing type (instant film) photograph, the projected image in the photographing mode can be printed out instantly as a photograph.
[0053]
By the way, in the present embodiment, when the image projected in the projection mode is captured as a still image on the instant film 40, the projection direction is switched to the instant film 40 side by the switching mirror 26, so that the image is projected onto the screen 64. The projected image disappears for a moment (not displayed). In the present embodiment, a plurality of optical paths of the light beam projected from the halogen lamp 12 may be provided so that the instant film 40 can be imaged in a state where the projected image is projected onto the screen 64.
[0054]
After step 118 or when the determination at step 104 is negative, that is, when the shooting mode is not set, at step 120, it is determined whether or not the operation is finished, for example, it is time to turn off the power switch. If the determination in step 120 is negative, that is, if it is not the timing for ending the operation, the process returns to step 100 to perform projection mode processing. On the other hand, if the determination in step 120 is affirmative, that is, if it is the timing for ending the operation, the processing of this flowchart is ended.
[0055]
FIG. 5 shows an example different from the optical system mechanism of the projector shown in FIG. In FIG. 5, parts corresponding to those in FIG. 2 are denoted by the same reference numerals, and detailed description thereof is omitted.
[0056]
In this example, the instant film 40 is moved between the lens 72 and the projection lens 30 only at the time of shooting, and the lens 72 is slid along the optical axis so as to have a focal length corresponding to the instant film 40 at the time of shooting. . That is, as shown by the solid line in FIG. 5 or the imaginary line in FIG. 5, the lens 72 slides along the optical axis according to the projection mode or the photographing mode.
[0057]
Therefore, the focus of the light projected from the light emitting element 70 matches according to the projection lens 30 or the instant film 40. After imaging, the lens 72 is slid (returned) to the position indicated by the solid line in FIG. Also in this example, the light projection from the light emitting element 70 is temporarily blocked by the instant film 40. Other configurations and operational effects are the same as in the example shown in FIG.
[0058]
In this embodiment, the projector 10 and another device (PC 62) are connected by the I / F 58 or the like. However, the present invention is not limited to this, and wired communication (for example, IEEE 1394 or the like). It is also possible to adopt a configuration in which the connection is established by wireless communication or a configuration in which connection is established by wireless communication (for example, Bluetooth, IrDA, etc.).
[0059]
Further, the photosensitive material according to the present invention is not limited to an instant film. Furthermore, it is needless to say that the processing flow of each program described in the present embodiment (see FIG. 4) is an example, and can be appropriately changed without departing from the gist of the present invention.
[0060]
【The invention's effect】
As described above, according to the present invention, a projected image projected in the projection mode can be imaged on the photosensitive material by switching to the photographing mode. That is, according to the present invention, there is provided switching means for switching the projection mode or the photographing mode in the middle of the optical path of the light beam projected from the light source, and the control means is the light amount adjusting means in the photographing mode for picking up the projected image on the photosensitive material. Since the image quality adjusting means is controlled so as to correspond to the spectral characteristics of the photosensitive material, for example, a conventional input / output mechanism for image data is not required, and the configuration is simplified.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an external appearance of a projector according to an embodiment of the invention.
2 is a schematic diagram of an optical system of the projector shown in FIG.
FIG. 3 is a block diagram relating to the projector shown in FIG.
4 is a flowchart showing a flow of processing relating to a projection mode or a photographing mode executed by the projector shown in FIG. 3;
5 is a diagram showing an example different from the optical system mechanism of the projector shown in FIG.
[Explanation of symbols]
10 Projector
12 Halogen lamp (light source)
26. Switching mirror (switching means)
36 Shutter / Aperture (Exposure adjustment means)
38 Shutter / aperture driver (exposure adjustment means)
40 Instant film (photosensitive material)
40A Exposure surface of instant film
50 Central processing unit (control means)
52 Light quantity control means (light quantity adjustment means)
54 Color reproduction characteristic control means (image quality adjustment means)

Claims (3)

A projector that projects light emitted from a light source and carrying an image indicated by image information,
A light amount adjusting means for adjusting the light amount of the light source;
A photosensitive material disposed on an optical path of light emitted from the light source;
Image quality adjusting means for adjusting the image quality of the image carried by the light emitted from the light source;
Switching means for switching the traveling direction of the optical path of the light source, or switching the photosensitive material so as to be separated from the optical path of the light source and the optical path;
Control means for controlling the light amount adjusting means and the image quality adjusting means in response to switching of the switching means;
Projector. The projector according to claim 1, wherein the control unit controls the light amount adjusting unit and the image quality adjusting unit so as to correspond to spectral characteristics of the photosensitive material. The projector according to claim 1, further comprising an exposure adjusting unit that adjusts an exposure when an image carried by the light emitted from the light source is captured on the photosensitive material.

Images