WO2018179267A1 - Projection-type video display device - Google Patents

Abstract

A projection-type video display device houses, within a housing comprising a lower case (2) and an upper case, an optical system including a projection lens and designed to emit video light to be enlarged and projected, wherein a means for enlarging and projecting the video light emitted from the optical system toward a display surface is attached to part of the upper case. A pair of stand legs (5) is deployably housed in one side surface of the housing, and each stand leg (5) is provided with: a first adjustment mechanism (100) capable of adjusting the inclination angle of the projection-type video display device when the stand leg (5) has been deployed and the projection-type video display device is being used in a vertical orientation mode with the one side surface as a bottom surface; a second adjustment mechanism capable of adjusting the inclination angle of the device when the stand leg (5) is housed and the projection-type video display device is being used in a horizontal orientation mode using the bottom surface of the housing; and a third adjustment mechanism capable of adjusting the height with respect to the installation surface of the projection-type video display device when the stand leg (5) has been deployed and the projection-type video display device is being used in the vertical orientation mode with the one side surface as the bottom surface.

Description

Projection-type image display device

The present invention relates to a projection-type image display device.

The projection-type image display device is applied to a large projection television, and for example, as already known in Patent Document 1 below, an image signal from the outside is input and the image is enlarged to display a panel or wall surface. In recent years, it has been widely used as a means for projecting onto a wall or the like. Functionality is also expected. Therefore, for example, on the desk, the apparatus is installed so that the bottom surface of the casing constituting the main body is parallel to the desk surface, so-called horizontal placement, or one side surface of the casing is placed on the desk surface. It is necessary to be able to be installed in various forms such as so-called vertical installation, which is installed in parallel on the top.

Further, according to Patent Document 2 below, a projector device that facilitates adjustment of a projection angle by providing a support member for rotatably supporting a liquid crystal projector main body is already known.

In addition, according to the following Patent Document 3, a projection-type image display device is disclosed in which the installation state can be appropriately set according to the usage state, for example, the horizontal or horizontal usage mode.

JP 2003-280091 A Japanese Patent No. 3057778 JP2011-158522A

However, the projection-type image display devices disclosed in the related art including the above-described Patent Document 3 are still insufficient for solving the problem when the device is installed on a desk and projected onto the surface. It was. That is, in the projection-type image display device according to the present invention, particularly when the device is installed on a desk and projects an enlarged image light, it is easily affected by unevenness and slight inclination on the surface of the desk. It was confirmed that a non-optimal screen was displayed.

Therefore, the present invention is a projection-type image display device that requires portability, and appropriately includes the tilted state of the device according to the usage state (for example, the horizontal or horizontal usage mode). It is an object of the present invention to provide a projection-type image display apparatus that can be set in a fine installation state and that is excellent in practical use.

In order to achieve the above object, according to the present invention, the configuration described in the claims is adopted. For example, in the housing composed of the lower case and the upper case, at least, An optical system including a projection lens for emitting enlarged image light is housed, and the image light emitted from the optical system is enlarged and projected toward a display surface on a part of the upper case of the housing. A projection-type image display device to which means for attaching is attached, and the device can be installed on the bottom surface or one side surface of the housing made of the case. A stand leg is integrated with the case and detachably accommodated, and the stand leg is taken out and the projection type image display is used in a vertical usage form with the one side as a bottom surface. Projection type image display apparatus includes a first adjusting mechanism capable of adjusting the tilt angle of the location is provided.

According to the present invention, the stand leg may further include a second adjustment mechanism that is housed and capable of adjusting an inclination angle of the device in a horizontal usage mode using the bottom surface of the casing. Furthermore, the stand leg is provided with a third adjustment mechanism that can adjust the height of the projection image display device with respect to the installation surface in a vertically placed usage form with the one side surface as a bottom surface. Also good.

According to the above-described present invention, for example, a projection-type image excellent in practical use in which a fine installation state including an inclined state of the apparatus can be appropriately set according to a usage state of horizontal installation or horizontal installation. A display device is provided.

It is a perspective view which shows the external appearance of the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view from the other angle which shows the external appearance of the projection type video display apparatus concerning one embodiment of this invention. It is a partially expanded sectional view which shows an example of the optical system in the projection type video display apparatus concerning one embodiment of this invention. It is sectional drawing which shows the usage condition of horizontal installation of the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view which shows the state which took out a pair of stand leg from the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view which shows the state which took out a pair of stand leg from the projection type video display apparatus concerning one embodiment of the present invention, and placed it vertically. It is sectional drawing explaining operation | movement in the case of using the projection type video display apparatus concerning one embodiment of this invention in the state installed vertically. It is a partial expansion expansion perspective view explaining the attachment structure of the stand leg to the main-body part of the projection type video display apparatus concerning one embodiment of the present invention. It is a partially expanded sectional view which shows the cross section after the completion of the attachment structure of the stand leg of the projection type video display apparatus concerning one embodiment of this invention. It is a partially expanded plan view for demonstrating the function / operation | movement after completion of the attachment structure of the stand leg of the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view which shows the external appearance of the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view from the other angle which shows the external appearance of the projection type video display apparatus concerning one embodiment of this invention. It is a partially expanded sectional view which shows an example of the optical system in the projection type video display apparatus concerning one embodiment of this invention. It is sectional drawing which shows the usage condition of horizontal installation of the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view which shows the state which took out a pair of stand leg from the projection type video display apparatus concerning one embodiment of this invention. It is a perspective view which shows the state which took out a pair of stand leg from the projection type video display apparatus concerning one embodiment of the present invention, and placed it vertically. It is sectional drawing explaining operation | movement in the case of using the projection type video display apparatus concerning one embodiment of this invention in the state installed vertically. It is a partial expansion expansion perspective view explaining the attachment structure of the stand leg to the main-body part of the projection type video display apparatus concerning one embodiment of the present invention.

Hereinafter, a projection type image display apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Here, as an embodiment of the present invention, the image light to be projected is enlarged and projected by a reflection mirror that constitutes a part of the projection optical system. I do.

<Overall configuration of projection-type image display device>
First, FIG.1 and FIG.2 is a perspective view which shows the external appearance from each different angle | corner of a projection type video display apparatus, In these figures, the said projection type video display apparatus has the main body 1, the bottom surface, and circumference | surroundings. The lower case 2 (which will be described later in detail) and the upper case 3 installed and fixed on the upper surface thereof are integrally formed with four sides integrally formed and having a substantially rectangular outer shape.

Further, as is clear from these drawings, the substantially central portion of the upper case 3 which is the upper surface of the projection display apparatus is formed so as to rise in a so-called hill shape (convex portion). The part, that is, the open / close type mirror cover 31, is separated from other parts and attached to the outside so as to be rotatable by a predetermined angle. In addition, a reflection mirror (free curved mirror) 32 that is a part of the optical system and is formed in a rotationally asymmetric manner is attached to the inside of the openable mirror cover 31 (see FIG. 2). A lens optical system (not shown) is mainly disposed inside the convex portion of the cover portion 3 described above, and an opening 35 for guiding the projection light to the outside is formed (see FIG. (In FIG. 1, only the last part of the lens optical system is shown through the opening 35). Further, on the surface of the upper case 3, a rotary knob 33 for focus adjustment, a touch panel type operation unit 34 including various input push buttons, and the like are respectively attached.

In particular, as is clear from FIG. 2 described above, the projection-type image display device has one side surface of the lower case 2 having a substantially rectangular outer shape (the side opposite to the side on which the openable mirror cover 31 is provided). As will be described in detail below, a pair of stand legs 5 and 5 that are integrally formed with the main body and have a structure that can be installed in accordance with the type of use of the projection display apparatus It has been. Further, on the other side surface of the lower case 2, as will be described later, the power supply inlet portion 6 into which the power cable is inserted, for example, when supplying AC power from a commercial power supply to the device, Intake / exhaust port 7 which is an opening for inhaling / exhausting air from outside, and further, although not shown here, for inputting an image projected and displayed by the projection-type image display device from the outside The terminal board is attached. Although not shown, the bottom surface of the lower case 2 can be finely adjusted including the cooling air intake / exhaust port and the installation angle of the apparatus, which will be described in detail later. An inclination adjusting leg 8 and the like are attached.

In addition, as an example of the external dimensions of the projection-type image display device described above, width = W, depth = D, and height = H indicated by arrows in FIG. 1 are W = 265 mm, D = 200 mm, and H, respectively. = 70 mm, which corresponds to a so-called A4 size. The weight of the entire apparatus is set to about 1.2 kg. That is, the projection-type image display device can be carried in a bag or the like together with a portable terminal, etc., and can be easily installed on a wall surface or the surface of a desk at a transport destination. It is designed to be able to project.

<Optical system>
Here, FIG. 3 is a cross-sectional view showing an example of the configuration of the optical system described above. For example, a DLP (Digital Light Processing) (registered trademark) apparatus 100, for example, emits light from a light source such as a semiconductor laser (not shown) according to an external video signal (for example, a video signal from a portable terminal). For example, modulation is performed by a reflection type light modulation device 100 including a micromirror or a reflection type liquid crystal panel (LCOS (registered trademark): Liquid crystal on silicon) or a transmission type light modulation device 100 including a liquid crystal panel. The image obtained thereby is synthesized by the TIR prism 101, projected onto the reflection mirror 32 via the projection lens system 102 composed of a plurality of lenses, reflected on the surface, and enlarged and projected. Note that the projection lens system 102 composed of a plurality of lenses described above is a free-form surface that is not rotationally symmetric and is necessary for correcting various distortions associated with enlarged projection of an image, such as distortion due to oblique incidence and trapezoidal distortion. Various types of lenses are included, including shaped lenses. The projection lens system 102 is movably mounted on the projection lens base 103, and moves a part of the projection lens or a lens group in the vertical direction in the figure by the action of the lens adjustment mechanism 104 in the figure. This makes it possible to adjust the focus performance.

Moreover, in this figure, it is enlarged by the optical system mentioned above, is projected on the reflective mirror 32 (refer the broken line in a figure), and is reflected by the surface after that, for example, a screen, a wall surface, a desk, a table etc. The upper limit light LU and the lower limit light LD of the image light projected on the projection surface are indicated by arrows in the drawing.

Then, by adopting an optical system composed of a projection lens system 102 including a free-form surface lens as the reflection mirror 32, a sufficiently enlarged image is projected and displayed even if the distance from the device to the image projection surface is short. Ensures excellent projection performance possible. For example, when the projection-type image display device is disposed with its tip in contact with the image projection surface and image projection is performed in this state, 30.5 inches × 19.1 inches (diagonal 36) An inch screen size of 16:10) could be obtained.

In addition to the above, inside the lower case 2 and the upper case 3 which are the casings of the projection display apparatus, although not shown here, for example, a power supply unit for supplying necessary power to each part of the device, Axial fans, sirocco fans, heat pipes, cooling fins, etc. for cooling each part that generates heat, so-called cooling devices, for green (G) light, red (R) light, blue (B) light emission An LED illumination unit including LEDs and the like, a control unit including a CPU for controlling the operation of each unit, a processor for performing video processing, and the like are appropriately arranged and stored.

The usage mode of the projection type video display apparatus, the outline of which is described above, will be described below. That is, the projection type image display apparatus according to an embodiment of the present invention basically has (A) a device body having a flat outer shape placed horizontally on a desk, table, or floor surface. And a horizontal usage mode in which an image is projected onto a surface (for example, an installed screen or wall surface) perpendicular thereto, and (B) the projection type video display device according to an embodiment of the present invention is set up in the vertical direction. Horizontal usage mode in which the main body of the device is installed vertically on a desk, table, or floor surface, and the image is projected onto the desk, table, or floor surface. Used in.

<A: Horizontal usage>
In this mode of use, as shown in FIG. 1 and FIG. 2, the apparatus main body 1 is placed horizontally on the surface of the table T, for example, with the bottom face down, and the openable mirror cover 31 is opened. . Then, the position of the reflection mirror 32 attached to the inside of the openable mirror cover 31 is adjusted so as to face a screen or a wall surface (not shown) on which an image is projected. At that time, by adopting an optical system comprising a projection lens system including the above-mentioned free-form surface lens, even if the distance to the screen is small (for example, the distance to the screen d = 0 to several tens of centimeters), that is, the screen Even if it is installed adjacent to, a sufficiently large projected image can be obtained. When a desired focus cannot be obtained due to a change in the projection distance d to the screen, the focus adjustment knob 33 described above may be adjusted again by appropriately rotating.

<B: Vertical usage pattern>
In this mode of use, a pair of stands attached integrally with the main body from the apparatus main body 1 in the state of FIG. 2 to one side surface of the lower case 2 (the side opposite to the side on which the openable mirror cover 31 is provided). The legs 5 and 5 are respectively taken out by rotating in predetermined directions (see the arrows in the figure), and are in a state as shown in FIG. After that, as shown in FIG. 5, the surface of the pair of stand legs 5 and 5 is installed so as to come into contact with the surface of the desk, for example, so that the apparatus main body 1 is in a vertically placed form. In addition, although FIG. 5 mentioned above, an example of the terminal board 65 attached to the side surface of the lower case 2 is shown in detail. That is, here, the terminal board 65 includes USB terminals “USB A” and “USB B”, a VGA terminal “COMPUTER IN” for inputting a video signal from the computer, an HDMI (registered trademark) terminal, and an audio input. A terminal “AUDIO IN” is provided.

That is, in the above-described projection type video display device, not only the horizontal usage mode but also the vertical usage mode is provided by the action of the pair of stand legs 5 and 5 formed in a part of the device. Allows the device to be placed on the surface of a desk.

Therefore, in the following, a more specific structure of the pair of stand legs 5 and 5 in the projection display apparatus according to an embodiment of the present invention will be described in detail with reference to FIGS. explain.

<Stand leg mounting structure>
First, FIG. 6A shows a mounting structure of the above-described pair of stand legs 5, 5, particularly one of them, on the side surface of the lower case 2. As shown in the figure, the stand leg 5 is formed by, for example, injection molding of resin or the like and has an appearance shape that fits the side surface of the lower case 2. In this example, the desired inclination described above in the thickness direction is used. A leg main body 51 having an angle (θ), and a protrusion 52 having a double cylindrical outer shape formed on a part of a contact surface with the side surface of the lower case 2 of the leg main body; And a washer-attached nut 53 attached to the outer surface of the main body, and a design sheet 54 (specifically, a sheet-like member coated with an adhesive on one surface for concealing the washer-provided nut). ing.

The stand leg 5 described above has a protrusion 52 of the leg main body 51 through the through hole 21 formed in the substantially central portion (= H / 2) in the height direction of the lower case 2. Inserted to reach the inside. At that time, for example, a sliding sheet 55 or the like is preferably interposed as a member for reducing the frictional resistance or the like of the contact surface between the stand leg 5 and the lower case 2.

On the other hand, a block-shaped sliding stopper / lock component 56 is arranged inside the lower case 2. As is apparent from the figure, the sliding stopper / locking part 56 has an opening into which the protrusion 52 on the stand leg 5 side is inserted, a ratchet mechanism described below, and the like. It is integrally formed. The sliding stopper / locking part 56 penetrates through a washer 57, a wave washer (washer spring) 58, and another washer 59 (this washer rotates following the stand leg 5). It attaches with respect to the leg main-body part 51 mentioned above with the screw | thread 60, and is specifically screwed by the nut 53 with a washer mentioned above.

FIG. 6B shows a cross section of the stand leg mounting structure having the above-described configuration after completion. FIG. 7 shows a function / operation after completion of the stand leg mounting structure, in particular, a protrusion 52 extending from a part of the leg main body 51 and the protrusion 52 formed at the center thereof. It is the partially expanded view mainly shown on the sliding stopper / locking part 56 inserted in the opened part.

In particular, as is apparent from FIG. 7, a convex portion 521 and a pair of semicircular concave portions 522 and 522 are formed on the outer periphery of the cylindrical projection portion 52 extending from a part of the leg main body portion 51. Has been. On the other hand, the sliding stopper / lock component 56 into which the protrusion 52 is inserted includes a disk-shaped member at the center of the rectangular main body, and the substantially center of the disk-shaped member includes: An opening 561 is formed into which the cylindrical protrusion 52 of the leg main body 51 is inserted so as to be slidable in the circumferential direction. The opening 561 allows the projection 521 of the projection 52 to rotate within a range of a predetermined angle (in this example, 0 degrees to 90 degrees). This is a fan-shaped opening that widens at an angle (90 degrees in this example). Further, the disk-shaped member is a so-called for holding the projection 52 (that is, the stand leg 5) stably at a predetermined angle (in this example, 0 degrees and 90 degrees) together with the opening. A ratchet mechanism 562 is provided.

That is, according to the mounting structure of the stand leg including the locking mechanism and the ratchet mechanism using the washer spring described above, there is no problem (for example, unusable due to forgetting to transport) as when the stand leg is separated. Even when taking out the pair of stand legs 5 and 5 formed in a part of the projection type image display device, the optimum position can be obtained without making a mistake in the direction of taking out and, for example, by clicking sound by the ratchet mechanism described above. By confirming the setting, it is possible to easily fix stably at a desired take-off angle (that is, 90 degrees).

<Stand leg tilt adjustment mechanism>
However, as described above, when a projection-type image display device is installed on a desk or table to project enlarged image light, it is easily affected by unevenness or slight inclination on the surface of the desk or table. Therefore, an unfavorable distorted screen is displayed. Therefore, in the present invention, an inclination adjusting mechanism is provided on a part of the pair of stand legs 5 and 5 in order to eliminate a bad influence caused by unevenness and slight inclination on the surface of the desk or table. Yes.

FIGS. 8A and 8B are a top view and a side view of a so-called screw-type adjusting mechanism, which is an example of the tilt adjusting mechanism described above. Specifically, the tilt adjusting mechanism 100 is made of, for example, a cylindrical member made of metal or resin, and has a thread groove 110 formed on the outer periphery thereof. A head 120 having a groove 121 into which an end of the coin can be inserted, and a contact (leg) portion 130 in contact with the surface of a desk or table.

On the other hand, as shown in FIG. 5 above, openings 140 and 140 are formed in a part of the pair of stand legs 5 and 5, and an inclination adjusting mechanism 100 is formed on the inner peripheral surface thereof. A thread groove (not shown here) is formed to be screwed with the thread groove 110 of the cylindrical member. The cylindrical adjustment mechanisms 100 and 100 are inserted into the openings 140 and 140 while screwing the screw grooves to each other. In addition, as shown in FIG. 9, the projection type image display device for the surface of the desk or table is in a state where the device is set up, that is, B: in the vertical usage mode, the end of a coin such as a ten-yen coin is displayed. By inserting and rotating in the groove 121 of the tilt adjusting mechanism 100, the contact portion 130 can adjust the protrusion from the bottom surface of the stand leg 5, and thus the tilt angle of the projection display apparatus can be adjusted. It will be apparent to those skilled in the art that this is possible. Here, the positional relationship with the surface of the projected video (image) is shown along with the change in the tilt angle of the device, but in this figure, for convenience of illustration, it is replaced with a projection type video display device. The surface on which the apparatus is set up and on which video (image) is projected is drawn by a solid line or a chain line by changing its position.

As shown in FIG. 10, the height “t” of the tilt adjustment mechanism 100 is also smaller than the thickness “T” of the stand leg 5 (T ≧ t), for example, depending on the mounting position. It is preferable to set. Such a setting would be preferable without tilting the tilt adjusting mechanism 100 popping out when the stand leg 5 is housed in the side surface of the apparatus. In this example, the upper part of the opening 140 of the stand leg 5 has a dimension in which an end of a coin such as a ten-yen coin can be inserted. Further, in this figure, a screw groove for screwing with the screw groove 110 of the cylindrical member constituting the inclination adjusting mechanism 100 described above is indicated by reference numeral 141.

Subsequently, FIGS. 11A and 11B are a side view and a top view of a projection-type image display apparatus having a so-called slide-type tilt adjustment mechanism 100 ′ different from the above on the stand leg 5. Show. In addition, this slide type inclination adjusting mechanism 100 'includes a projection type by moving its position (indicated by an arrow in the figure) including A: horizontal usage and B: vertical usage. The tilt state of the video display device is adjusted. In this example, as can be seen from these drawings, two adjustment mechanisms 100 ′ and 100 ′ are attached to each stand leg 5. More specifically, a front adjustment mechanism 100′-f and a rear adjustment mechanism 100′-b are attached to the stand leg 5 on the left side of the drawing at positions close to the left and right ends, respectively. .

Further, each of these adjustment mechanisms 100 '... is provided with a contact (leg) portion 130' for contacting the surface of a desk or table. More specifically, the front adjustment mechanism 100'-f has one contact (leg) portion 130 ', and the rear adjustment mechanism 100'-b has two contact (leg) portions 130'. 'Are attached to the surfaces that are orthogonal to each other. And each of them can move in the direction shown by the arrow in the figure, for example.

FIGS. 12 to 15 show an example of a mechanism for changing the position (projection amount) of the contact (leg) portion 130 ′ by moving the position of the adjusting mechanism 100 ′ described above.

As shown in FIGS. 12A and 12B, the adjustment mechanism 100 ′ is formed so as to be movable (slidable) along the outer peripheral surface of the stand leg 5 (in this example, the cross-section is substantially “col”). It is a slide member formed in the shape of "". On the other hand, a guide groove g is formed on a part of the outer periphery of the stand leg 5 at a predetermined inclination angle, and a part of the adjusting mechanism 100 ′ (in this example, it extends inward) in the guide groove g. Are inserted and attached. That is, according to such a configuration, the adjustment mechanism 100 ′ can move in the left-right direction in the drawing (see the arrow in FIG. 12A), and at the same time, the adjustment mechanism 100 ′ moves in the vertical direction along with the movement. Move to. As a result, as shown in FIG. 14, the height of the contact (leg) portion 130 ′ attached to a part (for example, the bottom portion) of the adjustment mechanism 100 ′ can be freely adjusted.

Similarly, as shown in FIGS. 13 (a) and 13 (b), by providing a mechanism similar to that described above also in the orthogonal direction, as shown in FIG. By moving the adjustment mechanism 100 ′ (particularly, the rear adjustment mechanism 100′b) provided in a part, the height of the contact (leg) part 130 ′ attached to a part (for example, the bottom and side surfaces) of the adjustment mechanism 100 ′. (Height in the y-axis direction and z-axis direction in the figure) can be freely adjusted.

That is, the adjustment mechanism 100 ′, which is a slide member provided on a part of the stand leg 5, is also used in the A: horizontal usage mode shown in FIG. By moving the, it is possible to finely adjust the tilt angle of the horizontal projection type image display device with respect to the desk or table surface. As a result, it is possible to eliminate the display of an unfavorable distorted screen due to unevenness or slight inclination on the surface of the desk or table, and to obtain a suitable screen. In this case, the projection type image display apparatus has two contact (leg) portions 130 ′ of the inclination adjusting leg 8 located on the bottom surface and the two rear adjusting mechanisms 100′-b of the stand leg 5. (3 points in total: see FIG. 11A) are placed in contact with the surface of the desk or table. Also here, the positional relationship with the surface of the projected image (image) is shown along with the change in the tilt angle of the device, but this figure shows the position of the projection type video display device for the convenience of illustration. Instead, the surface of a desk or table installed in a state where the apparatus is placed horizontally and the surface on which video (image) is projected are drawn by solid lines or chain lines by changing their positions.

<Stand leg height adjustment mechanism>
Subsequently, when a projection type video display device is installed on a desk or table to project an enlarged image light, the height of a pair of stand legs that can be used to adjust the size of the projected image (image) The adjustment mechanism will be described in detail below.

In the projection type image display apparatus described above, the openable mirror cover 31 having a reflection mirror (free-form mirror) 32 attached therein is usually provided on the upper surface side of the apparatus. Therefore, in particular, when used in the usage mode of B: vertical installation, the distance to the surface of the desk or table on which the projected video (image) is displayed is determined by the position of the reflection mirror 32 in the main body 1. .

Therefore, as shown in FIG. 17, it is proposed to adjust the position of the stand leg 5 with respect to the apparatus body 1, that is, the height (length) of the stand leg. In this example, in order to adjust the height of the stand leg, the protrusion 52 (see FIGS. 6A and 7) extending from a part of the leg main body 51 of the stand leg 5 is extended. (Indicated by reference numeral 52 ′ in FIG. 17), a screw groove 523 is formed on the inner peripheral surface thereof, and a screw is inserted into the screw groove 523 inside the lower case 2 (see FIG. 6A). A screw 600 having a screw groove 601 to be mated is fixedly attached. According to this configuration, when the pair of stand legs 5 are taken out from the lower case 2, the heights can be independently adjusted to a desired height (length) by rotating them. Is possible.

Subsequently, in FIGS. 18A and 18B, effects of the above-described stand leg height adjusting mechanism will be described. As is clear from these figures, first, in particular, when used in a vertical usage mode, B: by rotating the pair of stand legs 5 and adjusting their heights (see arrows in the figure). It is possible to adjust the size of the image light placed on a desk or table and enlarged and projected to a desired size (see FIG. 18B). Also, at that time, it is easily affected by unevenness and slight inclination on the surface of the desk or table, and an unfavorably distorted screen is displayed, but even in such a case, the pair of stand legs 5 are A suitable screen can be obtained by appropriately adjusting the heights (see “d1” and “d2” in FIG. 18A) independently of each other.

<Others>
In the projection type video display apparatus whose details have been described above, in addition to the above-mentioned stand legs, etc., in particular, the USB terminal, the VGA terminal, the HDMI terminal, etc., the outside of the apparatus (for example, PC, smartphone, tablet, etc.) A terminal board 65 having a terminal for inputting a video signal from a portable terminal) and a power inlet portion 6 into which a power cable is inserted are attached to the side surface of the lower case 2 forming the main body 1. Yes.

Therefore, in actual use, a plurality of cables are connected to the side surface of the projection display apparatus. In particular, in the “vertical usage mode” in which the pair of stand legs 5 and 5 are taken out and the apparatus main body 1 is placed on a desk, the operator's finger is caught on these cables. Is a force applied to the power inlet 6 and the terminal board 65, and therefore the projection type video display device moves (projection image is disturbed) or falls (projection image disappears). Conceivable.

Therefore, in the present embodiment, as shown in FIG. 5 and FIG. 9 described above, the terminal board 65 and the power inlet portion 6 are located below the device, particularly in the “vertical usage mode”. Is attached in position. That is, when the terminal board 65 and the power inlet 6 are used in a state where the pair of stand legs 5 and 5 are taken out and the apparatus main body 1 is stood up, the terminal board 65 and the power inlet section 6 come to positions close to the taken out stand legs 5 and 5. It is installed as follows.

According to the projection type image display device of the present invention described in detail above, the installation state can be appropriately changed according to the use situation by a simple operation, and the projection type image display device is excellent in practical use. Is provided.

It should be noted that the present invention is not limited to the above-described embodiment, and it is obvious that various modifications are included. For example, the above-described embodiments have been described in detail for easy understanding of the present invention. Therefore, the present invention is not necessarily limited to those having all the configurations described. Further, a part of the configuration of a certain embodiment can be replaced with another configuration, and another configuration can be added to the configuration of a certain embodiment. Further, it is possible to add, delete, and replace other configurations for a part of the configuration of the embodiment.

DESCRIPTION OF SYMBOLS 1 ... Main body (casing), 2 ... Lower case, 3 ... Upper case, 31 ... Open / close-type mirror cover, 32 ... Reflection mirror (free-form surface mirror), 35 ... Opening part 5, 5 ... Stand leg, 100 ... Screw Type tilt adjustment mechanism, 100 '... slide type tilt adjustment mechanism, 130' ... contact (leg) part, g ... guide groove, 52 ... projection part, 523 ... screw groove, screw ... 600.

Claims (11)

1. An optical system for emitting image light to be enlarged and projected, including at least a projection lens, is housed inside the housing, and the image light emitted from the optical system is enlarged toward the display surface in the housing. A projection-type image display device to which means for projecting is attached,
   The projection-type image display device can be installed in a horizontal direction or a vertical direction by a bottom surface of the casing or one side surface thereof,
   A projection-type image display apparatus comprising an inclination angle adjustment mechanism capable of adjusting an inclination angle of the projection-type image display apparatus in the horizontal direction or the vertical direction.
2. In the projection type video display device according to claim 1,
   On the one side surface of the housing, a pair of stand legs is housed integrally with the housing as a tilt angle adjusting mechanism, and is detachable.
   The projection type video display device, wherein the stand leg is provided with a first adjustment mechanism capable of adjusting an inclination angle of the projection type video display device in a vertically placed usage form with the one side surface as a bottom surface.
3. In the projection type video display device according to claim 2,
   The first adjustment mechanism is a second leg portion that contacts the first installation surface on which the stand leg is installed with the first leg and is movable in a direction perpendicular to the first installation surface. A projection-type image display device comprising:
4. In the projection type video display device according to claim 2 or 3,
   The stand-type leg display further includes a second adjustment mechanism that can be housed and can adjust a tilt angle of the device in a horizontal usage mode using the bottom surface of the casing.
5. In the projection type video display device according to claim 4,
   The second adjustment mechanism is a first leg that contacts the second installation surface installed on the bottom surface of the housing with a second leg and is movable in a direction perpendicular to the second installation surface. A projection-type image display device provided with legs.
6. In the projection type video display device according to claim 5,
   The projection-type image display device, wherein the first adjustment mechanism and the second adjustment mechanism included in the stand leg are integrally configured.
7. In the projection type video display device according to claim 6,
   The first adjustment mechanism and the second adjustment mechanism may be configured as a slide member that is slidably attached to a part of the stand leg.
8. In the projection type video display device according to claim 7,
   The first leg part constituting the first adjustment mechanism and the second leg part constituting the second adjustment mechanism are attached to a part of the slide member in directions orthogonal to each other. Projection-type image display device.
9. In the projection type video display device according to claim 5,
   The stand leg further includes a third adjustment mechanism capable of adjusting a height relative to the installation surface of the projection type video display device in a vertically placed usage form with the one side surface as a bottom surface. Projection-type image display device.
10. In the projection type video display device according to claim 9,
    The third adjustment mechanism of the stand leg can adjust the position of the stand leg with respect to the projection type image display device in a direction in which the first leg portion constituting the first adjustment mechanism can move. A projection-type image display device.
11. In the projection type video display device according to claim 10,
    The projection type image display device, wherein the third adjusting mechanism of the stand leg can be housed in the housing.

Images