JPH05323452A - Horizontal type projector - Google Patents

Abstract

PURPOSE:To project either one of a liquid crystal display unit or a sheet original with one horizontal type projector. CONSTITUTION:The projector is provided with a projecting lens part 42 projecting substances 60 and S to be projected, a liquid crystal display unit holding part 44 holding the liquid crystal display unit 60 which is the substance to be projected so that the center 60e of the liquid crystal display unit 60 is optically positioned on a lower position than the optical axis 42a of the projecting lens part 42, a sheet original holding part 46 holding the sheet original S which is the substance to be projected so that the center 46a of a sheet original is optically positioned on the lower position than the optical axis 42a of the projecting lens part 42, an illuminating light source part 48, and an illuminating optical system 50 illuminating the substance to be projected; and the holding parts 44 and 46 are constituted so that the liquid crystal display unit 60 and the sheet original S are freely attached to/detached from the holding parts 44 and 46.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a horizontal projection device for directly projecting a projection object onto a screen or the like, and more particularly to a horizontal projection device capable of projecting both a liquid crystal display and a sheet type original.

[0002]

2. Description of the Related Art A horizontal projection device has been proposed in which an image such as a still image or a moving image is displayed on a liquid crystal display, and the image is irradiated with light from a light source to be displayed on a screen.

[0003]

However, there has not been proposed a combination type horizontal projection apparatus which can project an image of only a liquid crystal display on a screen, and can also project the contents of a sheet original used in an overhead projector or the like. ..

An object of the present invention is to provide a horizontal projection device capable of projecting not only an image on a liquid crystal display but also the contents of a sheet original.

[0005]

According to the present invention, a projection lens section (42) for projecting a projection target (60, S) and a liquid crystal display (60) which is the projection target are provided at the center of the liquid crystal display (6).
0e) holds the liquid crystal display holding portion (44) for holding so that it is positioned optically below the optical axis (42a) of the projection lens portion (42), and a sheet original (S) as a projection target.
If the sheet document center (46a) is the projection lens unit (4
2) a sheet original document holding section (46) that holds the sheet document so as to be positioned optically below the optical axis (42a), an illumination light source section (48), and an illumination optical system (50) that illuminates the projection target.
The liquid crystal display holder (44) and the sheet document holder (46) are configured such that the liquid crystal display (60) and the sheet document (S) can be inserted and removed, respectively. The main feature is a horizontal projection device.

In the present invention, preferably, the liquid crystal display holding portion (44) and the sheet original holding portion (46) are arranged such that the liquid crystal display holding portion (44) and the sheet original are arranged from the projection lens portion (42) side. The horizontal projection apparatus is characterized in that the holders (46) are arranged in this order.

In the present invention, preferably, the above liquid crystal display (6
0) or the above-mentioned sheet original (S) is provided with a discriminating section (70, 72, 58), and the position of the projection lens section (42) is adjusted according to the discriminating result to focus the image. Focusing part (5
6, 80, 82), and is a horizontal projection device.

In the present invention, preferably, the projection lens section (42) is composed of a zoom lens system, and further, the liquid crystal display (60) or the sheet original (S).
Discriminating unit (70, 7) for discriminating whether or not
2, 58) are provided, and the liquid crystal display (60) and the sheet original (S) have different projection regions according to the determination result of the determination unit, the liquid crystal display (6)
0) and a focal length adjusting unit (56, 80, 82) for adjusting the focal length of the projection lens unit (42) so as to project the projection area of the sheet document (S) to substantially the same size. The horizontal projection apparatus is characterized by the following.

In the present invention, preferably, the liquid crystal display holding portion (44) includes a liquid crystal display (60) and a projection lens portion (4).
The horizontal projection device is characterized in that it can be held face down or face up to the side 2).

[0010]

The liquid crystal display section (60) or the sheet original (S) which is the projection target is projected by the light of the illumination light source section (48) onto, for example, the upper part of the screen. Liquid crystal display (6
Since the size of 0) is generally smaller than the sheet document (S), the liquid crystal display unit (60) can be projected on the screen in substantially the same size before the sheet document (S).

[0011]

FIG. 1 shows a preferred embodiment of the horizontal projection apparatus of the present invention.

The horizontal projection apparatus has a casing 40, a projection lens section 42, a liquid crystal display holding section 44, a sheet document holding section 46, an illumination light source section 48, and an illumination optical system 50.

The casing 40 has a body 52 and a front portion 54. In the main body 52, the liquid crystal display holder 44,
Sheet document holding unit 46, illumination light source unit 48, illumination optical system 5
0 is set. The projection lens unit 42, the focusing projection system 56, and the control calculation unit 58 shown in FIGS. 1 and 2 are set at the tip of the front portion 54.

As shown in FIG. 3, the focusing projection system 56 includes
It has lenses 17 and 20, a light emitting means 16 and a light receiving position detecting means 21. Lenses 17 and 20 are indicated by arrow V in FIG.
Seen from the direction (that is, viewed from above), they are arranged on both sides so as to sandwich the projection lens unit 42. Projection lens unit 42
Is composed of a zoom lens system having a plurality of lenses.

In the main body 52, the liquid crystal display holder 44 is located closest to the front side of the projection lens 42, and the sheet original holder 46 is arranged next, followed by the illumination optical system 50 and the illumination light source 48 in this order. It is arranged.

First, the liquid crystal display 60 can be inserted into the liquid crystal display holder 44 from above and detachably held. The liquid crystal display 60 has a symmetrical shape so that it can be held facing the projection lens portion 42 side in either the front side 60a or the back side 60b. The liquid crystal display 60 has a handle 60
c and 60d are provided on the upper side and the lower side.
The operator holds the liquid crystal display holding unit 44 while holding c and 60d.
It is designed to go in and out of.

As a result, so-called front projection in which the display image of the liquid crystal display 60 is projected on the screen or the like with the front side 60a facing the projection lens section 42 and the back side 60b is displayed.
Can be used for so-called rear projection, in which the display image of the liquid crystal display 60 is projected on the screen or the like toward the projection lens unit 42.

When the liquid crystal display 60 is held by the liquid crystal display holding portion 44, the center 60e of the liquid crystal display 60 is located optically below and parallel to the optical axis 42a of the projection lens portion 42. ing. By doing so, the center of the projected image of the display image on the liquid crystal display 60 is set to the projection lens unit 4.
It is possible to be above the second optical axis 42a.

The sheet document holding portion 46 can be inclined by a predetermined angle A by a pin 64. For example, a transparent sheet document S can be inserted into and removed from the sheet document holding portion 46 with the lid 54a opened and inclined. When the sheet document S is inserted, the sheet document holding portion 46 is pushed to bring it upright. As a result, the center 46a of the sheet document S is positioned parallel to the optical axis 42a of the projection lens unit 42, and is optically below. That is, the center 46a is close to or coincides with the center 60e of the liquid crystal display 60. By doing so, the center of the projected image of the contents of the sheet document S can be set higher than the optical axis 42a of the projection lens unit 42, as described above.

Here, an example of the size of the sheet document S is, for example, A4 size, that is, 297 mm × 210.
mm. An example of the size of the liquid crystal display 60 is 211 mm × 132 mm. Further, when the liquid crystal display 60 is inserted into the liquid crystal display holder 44,
The liquid crystal display holding unit 44 is preferably automatically connected to the built-in connector 60f and the liquid crystal display 60, and can transmit an external video signal to the liquid crystal display 60 to display an image. The liquid crystal display 60 is preferably a single plate liquid crystal display.

The illumination light source section 48 has a lamp 48a and a focusing mirror 48b. Light projection optical axis 48c of the lamp 48a
Is oriented toward the center of the projection lens unit 42 and is set upward by a predetermined angle B with respect to the horizontal.

The illumination optical system 50 is a condenser lens 50.
a, a heat insulating filter 50b, and a Fresnel lens 50c.

The illumination optical system 50 includes a center 60e of a liquid crystal display 60 as a projection target held and a sheet document S.
Illumination is performed so that the projection optical axis 48c, which is also called the illumination optical axis, is below the center 46a of the. This reduces uneven lighting. The Fresnel lens 50c can illuminate the liquid crystal display 60 or the sheet document S as converged light that converges the light from the illumination light source unit 48 to the center of the pupil of the projection lens unit 42.

Below the liquid crystal display holder 44, a detector 7 is provided.
0 is placed. A detection unit 72 is also arranged below the sheet document holding unit 46. The detection unit 70 is a switch that detects that the liquid crystal display is inserted. Instead of the detection unit 70, for example, a conduction terminal of the connector 60f of FIG. 1 to which the liquid crystal display 60 is connected is provided,
The insertion of the liquid crystal display 60 may be electrically detected because the terminals are conductive when the liquid crystal display 60 is inserted and not conductive when the liquid crystal display 60 is not inserted.

However, in the example of FIG. 1, the detection unit 70 preferably uses a contact detection type microswitch. When the sheet document S is inserted into the sheet document holding portion 46,
The detection unit 72 is preferably a micro switch, which is turned on, and is otherwise turned off.

The control system shown in FIG. 2 has a control calculation unit 58 as a center, and a focus detection unit 80, a focus control unit 82, a detection unit 70 for inserting the liquid crystal display shown in FIG. The detection unit 72, the illumination light source unit 48, and the operation unit 84 are connected.

The focus detection unit 80 optically detects the distance L to the screen 14, as shown in FIG.

The focus detecting section 80 includes a light projecting section 12 and a light receiving section 13.
have. The light projecting section 12 has a light emitting means 16 for emitting light and a lens 17. The light emitting means 16 is preferably a light emitting diode or a laser diode.

The light receiving section 13 has a lens 20 and a light receiving position detecting means 21.

The lens 20 receives the light reflected from the light from the lens 17 at the point P2 on the screen surface 14 by the light receiving position detecting means 2
It is focused on 1. The light receiving position in the light receiving position detecting means 21 is the distance L between the screen surface 14 and the lens 20.
It corresponds to.

The projection lens 10 can be moved by a motor 39 for focusing.

The light receiving position detecting means 21 is preferably a semiconductor position detector. When the light from the screen surface 14 enters at a position from the electrical center of the light receiving position detecting means 21 as shown by the arrow, this light is photoelectrically converted into a photocurrent.

The photocurrent is divided and output as current values I ₁ and I ₂ from the electrodes 21d and 21e, and the distance L to the screen surface 14 can be obtained by calculating the ratio of the current values I ₁ and I _2. .. This calculation is performed by the next focusing control unit 82.

Current values I ₁ , I ₂ from the electrodes 21d, 21e
Is input to the amplifiers 32 and 33. The current values I ₁ and I ₂ are amplified by current-voltage conversion by the amplifiers 32 and 33. Then, by the analog switch 35, two voltage values corresponding to the current values I ₁ and I ₂ are switched to A
The A / D converter 36 sequentially performs A / D conversion. The signal which has become a digital value is sent to the microprocessor 37 as position data of the incident light in the light receiving position detecting means 21.

Based on this data, the microprocessor 37 calculates by a predetermined formula to determine the defocused distance, and gives a command to the motor 39 to rotate it by a predetermined number of steps. As a result, the projection lens 10 moves along the optical axis by a predetermined amount, completes the autofocus operation, and can display a clear projection image on the screen surface 14. The switch 105 is an autofocus start switch. The switch 5 is a power-on button.

In this way, the focus control section 82 is operated by the focus detection section 8
Based on the detection distance of 0 to the screen 14, the motor 39 of FIG. 4 is operated to move the lens 10 to control focusing. In principle, for example, in this embodiment, the detection unit 70
The focusing control in the liquid crystal display 60 based on the signal of is used as a reference. However, since the insertion position of the liquid crystal display 60 and the insertion position of the sheet document S are different by the distance X (see FIG. 5),
When the detection unit 72 detects that the sheet document S is inserted, the focus control unit 82 performs not only the focus control but also the correction control of the distance X. That is, the focusing projection system 56 and the focus detection unit 8
0, the focusing control unit 82 is both a focusing unit and a focal length adjusting unit. The control calculator 58 and the detectors 70 and 72 form a discriminator.

Next, the principle of correcting the difference between the insertion position of the liquid crystal display 60 of FIG. 1 and the insertion position of the sheet original S in the focus control section 82 will be described.

As shown in FIG. 5, it is assumed that the liquid crystal display 60 and the sheet original S have the same height D of the projected image formed on the screen 14.

In the case of the liquid crystal display 60, the projection lens section 42
When the focal length is f1, the object distance b1, and the image plane distance a1 are projected, it is assumed that the height of the projected image is D and the image is focused at a magnification m1 (= D / d1).

Here, when projecting the sheet original S which is arranged at a distance x from the liquid crystal display 60 toward the light source section 48, in order to project the height of the projected image at D, the magnification m2
(= D / d2) is projected.

If the focal length of the projection lens at that time is f2, then f2 can be expressed by Equation 1.

[0042]

[Equation 1] Further, the object distance b2 from the sheet document S to the position of the projection lens unit 42 is given by Formula 2.

[0043]

[Equation 2] Next, the operation will be described with reference to FIG.

First, the detection units 70 and 72 and the control calculation unit 58, which are the determination units in FIG. 1, determine whether the liquid crystal display 60, which is the projection target, or the sheet document S is set.
That is, when neither is inserted or when both are inserted, the process proceeds from step 110 to 100. Otherwise, if any one is set, the process proceeds from step 110 to step 120.

As a result, the projection lens unit 42 starts automatic focusing. When only the liquid crystal display 60 is inserted, the image is projected as it is (steps 130 and 150). Otherwise, when only the sheet document S is inserted,
The above-described focusing correction and projection magnification correction are performed, and then projection is performed (steps 130, 140, 150). When the focus switch of the operation unit 84 of FIG. 2 is turned on when the projection is desired, the automatic focus operation is started (steps 160 and 120). Otherwise, if the user does not want to project any more, the focusing switch is turned off, and the process ends (steps 160 and 170).

The present invention is not limited to the above embodiment.

[0047]

According to the first aspect of the invention, in the horizontal projection apparatus, the image of the liquid crystal display and the contents of the sheet original can be selectively inserted and removed for projection, and the range of application is expanded.

According to the second aspect of the present invention, since the projection magnification of the sheet original having a size larger than that of the liquid crystal display is generally small, the sheet original can be arranged away from the projection lens unit.

According to the third aspect of the present invention, since the position on the optical axis for holding the liquid crystal display or the sheet original is different, focus adjustment is required. Therefore, it is automatically determined which is the projection target. It detects and automatically adjusts the focus accordingly.

According to the fourth aspect of the invention, even when the liquid crystal display and the sheet original are different in the projection area, the full screen is used without the need for adjusting the focal length (zooming) of the projection lens unit each time. Projection is possible.

According to the invention of claim 5, even when switching between the front projection and the rear projection, it is sufficient to change the orientation of the liquid crystal display.

[Brief description of drawings]

FIG. 1 is a diagram showing a preferred embodiment of a horizontal projection apparatus of the present invention.

FIG. 2 is a block diagram showing a control system of a preferred embodiment of the horizontal projection apparatus of the present invention.

FIG. 3 is a diagram showing a focusing portion of a preferred embodiment of the horizontal projection apparatus according to the present invention.

FIG. 4 is a view showing a control circuit system for focusing of a preferred embodiment of the horizontal projection apparatus of the present invention.

FIG. 5 is a diagram for explaining focus correction and projection magnification correction on a liquid crystal display and a sheet original according to the present invention.

FIG. 6 is a diagram showing an example of operation in the present invention.

[Explanation of symbols]

 42 Projection Lens Unit 44 Liquid Crystal Display Holding Unit S Sheet Document 46 Sheet Document Holding Unit 60 Liquid Crystal Display 48 Illumination Light Source Unit 50 Illumination Optical System ◆

Claims (5)

[Claims] 1. A projection lens part (42) for projecting a projection object (60, S), and a liquid crystal display (60) which is the projection object, wherein the liquid crystal display center (60e) is the projection lens part (42). ) Optical axis (42
The liquid crystal display holder (44) for holding the sheet document (S) so as to be positioned optically lower than a), and the sheet document center (46a) for the sheet document (S) to be projected is the projection lens unit (42). Optical axis of (42
a) a sheet document holding section (46) that holds the sheet so as to be positioned optically lower than a), an illumination light source section (48), and an illumination optical system (50) that illuminates the projection target. The liquid crystal display holding unit (44) and the sheet document holding unit (46) are configured such that the liquid crystal display (60) and the sheet document (S) can be inserted and removed, respectively. apparatus. 2. The horizontal projection apparatus according to claim 1, wherein the liquid crystal display holder (44) and the sheet document holder (46) are arranged on the liquid crystal display holder from the side of the projection lens (42). (44) and the sheet document holder (46)
A horizontal projection apparatus, which is arranged in the order of. 3. The horizontal projection apparatus according to claim 1, wherein the liquid crystal display (60) or the sheet original (S).
The discriminating unit (70,
72, 58) and a focusing section (56, 80, 82) for adjusting the position of the projection lens section (42) according to the determination result and forming a focused projection image. A horizontal projection device. 4. The horizontal projection apparatus according to claim 1, wherein the projection lens unit (42) is composed of a zoom lens system, and the liquid crystal display (60) or the sheet original (S). Discriminating unit (7) for discriminating whether or not
0, 72, 58) are provided, and the liquid crystal display (6
0) and the sheet original (S) have different projection areas, the liquid crystal display (60) and the sheet original (S) are projected so that the projection areas have substantially the same size. A horizontal projection apparatus, comprising: a focal length adjusting unit (56, 80, 82) for adjusting the focal length of the projection lens unit (42). 5. The horizontal projection apparatus according to claim 1, wherein the liquid crystal display holder (44) is a liquid crystal display (6).
0) can be held with respect to the side of the projection lens section (42) in the face-down or face-down direction.