KR102302736B1 - Image projecting apparatus - Google Patents

Abstract

The image projection apparatus according to an embodiment of the present invention accommodates an image projection assembly and an image projection assembly that form and project an enlarged image, and cover the first casing with one side open and one side of the first casing open and a second casing, wherein the image projection assembly is slidably mounted into the first casing along one open side.

Description

Image projection device {IMAGE PROJECTING APPARATUS}

The present invention relates to an image projection apparatus.

An image projector is a device that projects an image on a screen, and is generally referred to as a projector. Various parts for projecting an image are embedded in such an image projection apparatus. For example, an optical mechanism composed of parts including a projection lens unit for projecting an image toward a screen and an optical engine for image formation may be built-in.

A conventional image projection apparatus is disclosed in Korean Patent No. 10-0628720. The image projection device disclosed in the publication is manufactured by mounting the parts constituting the image projection device on the bottom casing and then fixing the top casing to the top of the bottom casing, or mounting the parts to the top casing and fixing the bottom casing to the bottom of the top casing do.

In such an image projection apparatus, a parting line is formed on the outer surface of the product due to its structure. The parting line refers to a line formed along the interface between the top casing and the bottom casing. However, such a parting line has a problem of impairing the aesthetics of the image projection apparatus.

In addition, in the case of implementing the top casing and the bottom casing in the same color in the conventional image projection apparatus, it is difficult to implement the two structures in the same color due to manufacturing conditions, so there is a problem of deterioration in aesthetics due to color mismatch.

In addition, in the case of replacing or repairing internal parts of the image projection apparatus in the future in the conventional image projection apparatus, it is difficult to manage the image projection apparatus later because disassembling substantially all of the components is preceded.

Accordingly, it is an object of the present invention to provide an image projection apparatus that can improve the aesthetics of the image projection apparatus and facilitate easy follow-up management.

In order to achieve the above object, an image projection apparatus according to an embodiment of the present invention, an image projection assembly to form and project an enlarged image; a first casing accommodating the image projection assembly and having an open side; and a second casing covering an open side of the first casing, wherein the image projection assembly is slidably mounted into the first casing along the opened side. do.

The image projection assembly may include: a base plate slidably mounted into the first casing; an optical mechanism mounted on the base plate and magnifying and projecting the image; and a main substrate that controls the optical mechanism and is mounted on the base plate.

At least one guide rail for guiding the sliding of the base plate may be formed on the first casing, and at least one guide slider sliding along the at least one guide rail may be formed on the base plate.

A pair of the guide rails is provided, each of the guide rails is disposed to face each other, and may be formed to extend in a sliding direction of the base plate in the first casing.

The guide slider may be provided as a pair, and the guide slider may be formed to protrude from both sides of the base plate.

At one end of each guide rail, a stopper to which each guide slider is caught in order to limit sliding of the base plate may be formed.

When the sliding of the base plate is completed, a plate flow barrier for preventing the base plate from flowing is formed in the first casing, and the base plate has at least one plate flow caught by the at least one plate flow barrier. The prevention rib may be formed to protrude.

The image projection assembly may include a focus adjustment unit mounted on the base plate and configured to adjust the focus of the projection lens unit of the optical mechanism.

The focus adjusting unit may include a focus ring rotatable according to a user manipulation; a focus slider connected to the focus ring and linearly sliding in a direction parallel to a front-rear direction of the projection lens unit according to rotation of the focus ring; and a focus knob connecting the focus slider and the projection lens unit so that the projection lens unit slides in a straight line together when the focus slider is slid.

The focus ring is provided at a first position for preventing interference with the first casing when the image projection assembly is mounted on the first casing, and for the user operation after the image projection assembly is mounted on the first casing. It is mounted to the base plate so as to be movable between second positions exposing a portion out of the first casing, and the first casing may be formed with a focus ring exposure slot penetrating a portion of the focus ring at the second position. have.

The second casing is disposed in front of the projection lens and the focus ring, and may include an image projection window for emitting an image projected from the projection lens.

A ring flow preventing rib for preventing the focus ring from flowing may be protruded from the rear surface of the second casing.

A ring fixing rib for preventing the focus ring from moving to the first position when the user manipulates the focus ring may be formed to protrude from the rear surface of the second casing.

At least one casing flow prevention rib for preventing the flow of the second casing after the cover of the first casing of the second casing is protruded from the rear surface of the second casing, and the first casing has the at least one At least one casing flow preventing ribs may be formed on which the casing flow prevention ribs are caught.

A height adjustment leg mounting portion is formed on the bottom surface of the second casing, the height adjustment leg for adjusting the height of the image projection device is mounted to be movable in the vertical direction, and on the bottom surface of the first casing, the height adjustment leg A height adjustment leg through-hole that passes through may be formed.

A stand mounting part on which the stand of the image projection apparatus is mounted is formed on a bottom surface of the base plate, and a stand through hole may be formed on the bottom surface of the first casing to connect the stand to the stand mounting part.

A user manipulation unit for controlling the image projection apparatus according to a user operation is provided on an outer surface of the first casing, and an inner surface of the first casing is connected to the user manipulation unit and electrically connected to the main board A control panel may be mounted on the operation unit.

The user manipulation unit may be a user touch method.

An opened side of the first casing may be a front surface, and the image projection assembly may be slidably mounted from the front to the rear of the first casing.

The second casing may be interpolated into the first casing.

According to various embodiments as described above, it is possible to provide an image projection apparatus capable of improving the aesthetics of the image projection apparatus and promoting easy subsequent management.

1 is a perspective view of an image projection apparatus according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of the image projection apparatus of FIG. 1 .
3 is a bottom perspective view of the image projection assembly of the image projection apparatus of FIG.
4 is a perspective view of a first casing of the image projection apparatus of FIG. 2 .
5 is a bottom perspective view of the first casing of FIG. 4 .
6 is a rear perspective view of a second casing of the image projection apparatus of FIG. 2 .
7 and 8 are views for explaining the assembly of the image projection assembly and the first casing of the image projection apparatus of FIG.
9 to 12 are views for explaining the movement of the focus ring when the image projection assembly and the first casing of the image projection apparatus of FIG. 2 are assembled.
13 is a view for explaining the assembly of the first casing and the second casing of the image projection apparatus of FIG.
FIG. 14 is a view for explaining focus adjustment of the image projection apparatus of FIG. 2 .

The present invention will become more apparent by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings. It should be understood that the embodiments described herein are illustratively shown to aid understanding of the invention, and the present invention may be implemented with various modifications different from the embodiments described herein. In addition, in order to help the understanding of the invention, the accompanying drawings are not drawn to scale, but dimensions of some components may be exaggerated.

1 is a perspective view of an image projection apparatus according to an embodiment of the present invention.

Referring to FIG. 1 , an image projection device 10 is a device for projecting an image onto a screen, and refers to a device such as a cradle or a device for magnifying and projecting an image by being seated on the ground. The image projection apparatus 10 may be largely divided into a cathode ray tube (CRT) projector, a liquid crystal display (LCD) projector, and a digital light processing (DLP) projector according to a method of generating an image. The image projection apparatus 10 may be any one of these projectors. Hereinafter, in the present embodiment, the description is limited to a DLP (Digital Light Processing) projector.

Figure 2 is an exploded perspective view of the image projection apparatus of Figure 1, Figure 3 is a bottom perspective view of the image projection assembly of the image projection apparatus of Figure 2, Figure 4 is a perspective view of the first casing of the image projection apparatus of Figure 2, Fig. 5 is a bottom perspective view of the first casing of FIG. 4 , and FIG. 6 is a rear perspective view of the second casing of the image projector of FIG. 2 .

2 to 6 , the image projection apparatus 10 includes an image projection assembly 100 , a first casing 500 , and a second casing 600 .

The image projection assembly 100 forms an image for magnifying and projecting the image onto the screen. To this end, various parts for driving or controlling the image projection apparatus 10 are mounted on the image projection assembly 100 . The image projection assembly 100 includes a base plate 200 , an optical mechanism 300 , a focus adjustment unit 400 , a main board 500 , and a cooling fan 550 .

Various parts for driving or controlling the image projection apparatus 10 are mounted on the base plate 200 . That is, the optical mechanism 300 , the focus adjustment unit 400 , the main board 500 , and the cooling fan 550 are mounted on the base plate 200 . Meanwhile, although not shown, components such as a speaker and a battery may be further mounted on the base plate 200 .

The base plate 200 is mounted in the first casing 500 with these various components mounted thereon. The base plate 200 includes a pair of guide sliders 220 , a pair of plate flow prevention ribs 230 , a focus adjustment unit mounting unit 240 , a leg mounting unit 250 , and a stand mounting unit 260 .

A pair of guide sliders 220 guide the sliding of the image projection assembly 100 when the first casing 500 of the image projection assembly 100 is mounted. A pair of guide sliders 220 guide the sliding of the image projection assembly 100 by sliding along a pair of guide rails 620 to be described later when the first casing 500 of the image projection assembly 100 is mounted. can

The pair of guide sliders 220 are respectively protruded from both side surfaces 206 of the base plate 200 . Specifically, a pair of guide sliders 220 are provided near the rear surface 204 of the base plate 200 on both sides 206 of the base plate 200 .

When the sliding of the base plate 200 is completed, the pair of plate flow preventing ribs 230 flow of the base plate 200 within the first casing 600 , specifically, the flow in the vertical direction (Z-axis direction). to prevent

A pair of plate flow prevention ribs 230 are respectively protruded from both side surfaces 206 of the base plate 230 and are disposed on opposite sides of the pair of guide sliders 220 . That is, the pair of plate flow prevention ribs 230 are provided near the front surface 202 of the base plate 200 on both side surfaces 206 of the base plate 200 .

The focus adjustment unit mounting part 240 is provided on the side 230 of the base plate 200 close to the optical mechanism 300 . The focus adjustment unit 400 is mounted on the focus adjustment unit mounting unit 240 . Hereinafter, the focus adjustment unit mounting unit 240 will be described in detail with reference to FIGS. 9 to 12 .

A plurality of leg mounting units 250 are provided, and are respectively provided at the bottom edge of the base plate 200 . That is, in this embodiment, four leg mounting parts 250 are provided. A leg 800 for supporting the image projection apparatus 10 is inserted and mounted in the leg mounting unit 250 .

The stand mounting unit 260 is for mounting a separate stand (not shown) of the image projection apparatus 10 , and is provided on the bottom surface 208 of the base plate 200 . The stand is a component that additionally enables the supporting role of the image projector 10 , for example, a tripod.

The optical mechanism 300 is mounted on the base plate 200, and forms an image and projects the enlarged image. The optical mechanism 300 includes an illumination unit (not shown), an image forming unit (not shown), and a projection lens unit 350 .

The lighting unit generates light to be used in the image shape. Accordingly, the lighting unit includes as light sources a red (R)-LED, a blue (B)-LED, and a green (G)-LED that generate red light, blue light and green light, respectively.

As such, in this embodiment, the lighting unit has three LEDs as light sources, but in alternative embodiments, the lighting unit uses other types of light sources, such as lamps (eg, arc lamps, halogen lamps, etc.) generating white light. may be provided.

The image forming unit is provided with a DMD panel. A DMD panel includes a number of micromirrors, each micromirror corresponding to a respective image pixel. An image is formed from the light generated by the lighting unit by turning the micromirrors on and off according to the image signals. The image projection unit includes at least one reflection mirror (not shown) for reflecting the white light generated by the lighting unit toward the image forming unit.

The projection lens unit 350 includes a projection lens 352 , and enlarges and projects the image formed by the image forming unit out of the image projection device 10 . Since the projection lens unit 350 is well known, a detailed description thereof will be omitted below.

The focus adjustment unit 400 is for adjusting the focus of the projection lens unit 350 , and is mounted on the focus adjustment unit mounting unit 240 of the base plate 200 . The focus adjustment unit 400 will be described in detail with reference to FIGS. 9 to 12 below.

The main board 500 controls the image projection apparatus 10 and is mounted on the upper side of the base plate 200 . Since the main board 500 is well known, a detailed description thereof will be omitted below.

The cooling fan 550 cools heat generated when the image projection apparatus 10 is driven, and is mounted on the base plate 200 . Since the cooling fan 550 is well known, a detailed description thereof will be omitted below.

As such, in this embodiment, various components for driving or controlling the above-described image projection apparatus 10 are integrated and mounted on the base plate 200 to provide the packaged image projection assembly 100 . And, the image projection assembly 100 may be independently mounted to the first casing 600 to be described later.

The first casing 600 forms the exterior of the image projection device 10 and accommodates the image projection assembly 100 therein. The first casing 600 includes a front opening 610 , a pair of guide rails 620 , a pair of stoppers 625 , a pair of plate flow barriers 630 , a focus ring exposure slot 640 , and one A pair of casing flow barriers 650 , a leg through hole 660 , a height adjustment leg through hole 670 , a stand through hole 675 , a user manipulation unit 680 , and a manipulation unit control board 690 .

The front opening 610 opens the front of the first casing 600 . The first casing 600 has a front surface opened through the front opening 610 and forms an accommodating space therein. In this accommodation space, the image projection assembly 100 is mounted and accommodated. That is, the first casing 600 according to the present embodiment has an open side, that is, a front opening 610 , and accommodates the image projection assembly 100 therein. This is only an example, and if the structure to provide an accommodation space therein, any one side of both sides of the first casing 600 or the rear surface of the first casing 600 is opened in addition to the front opening 610 having the front opened. Of course, it is also possible to form.

A pair of guide rails 620 guide the sliding of the base plate 200 . Each of the guide rails 620 is provided near both sides of the first casing 600, and is disposed to face each other. Each of these guide rails 620 is formed to extend in the sliding direction of the base plate 200 in the first casing 600 , that is, in the front-rear direction (X-axis direction) of the first casing 600 .

The pair of stoppers 625 are for limiting sliding of the base plate 200 , and are respectively provided at one end of the pair of guide rails 620 . When the base plate 200 slides on the pair of stoppers 625 , a pair of guide sliders 220 are caught respectively to the rear (-X-axis direction) of the first casing 600 of the base plate 200 . to limit the sliding of

A pair of plate flow barriers 630 prevent flow in the vertical direction (Z-axis direction) in the first casing 600 of the image projection assembly 100 after the installation of the image projection assembly 100 is completed.

A pair of plate flow barriers 630 are provided near both sides of the first casing 600, and are disposed to face each other. In addition, a pair of plate flow barriers 630 are provided near the front opening 610 . A pair of plate flow prevention ribs 230 of the base plate 200 are caught by the pair of plate flow barriers 630 , and when the installation of the first casing 600 of the image projection assembly 100 is completed, the image projection assembly Flow in the vertical direction (Z-axis direction) of (100) can be prevented.

The focus ring exposure slot 640 is provided on one side 602 of the first casing 600 and exposes a portion of the focus ring 420 of the focus adjustment unit 400 to be described later. The user may adjust the focus of the image projector 10 by manipulating the focus ring 420 exposed through the focus ring exposure slot 640 .

A pair of casing flow barrier 650 prevents flow in the up-down direction (Z-axis direction) in the first casing 600 of the second casing 700 after the installation of the second casing 700 is completed. .

A pair of casing flow barriers 650 are provided on both sides of the first casing 600 and are disposed to face each other. In addition, a pair of casing flow barrier 650 is provided near the front opening (610). A pair of casing flow prevention ribs 740 of the second casing 700 are caught by the pair of casing flow barriers 650 , and when the first casing 600 of the second casing 700 is mounted, the second Flow in the vertical direction (Z-axis direction) of the casing 700 can be prevented.

The leg through hole 660 is formed in the bottom surface 604 of the first casing 600 and passes through the plurality of legs 800 . Four leg through-holes 600 are provided to correspond to the four legs 800 . The four legs 800 are mounted on the leg mounting portion 250 of the base plate 200 after passing through the leg through-holes 660 , respectively.

As such, in this embodiment, since the four legs 800 are mounted to the leg mounting portion 250 of the base plate 200 within the first casing 600 , the legs 800 are mounted out of the first casing 600 . No protruding structures are required to

The height adjustment leg through-hole 670 is formed in the bottom surface 604 of the first casing 600 and passes through the height adjustment leg 900 for height adjustment of the image projector 10 . The height adjustment leg 900 is mounted on the height adjustment leg mounting part 750 of the second casing 700 to be described later after passing through the height adjustment leg through hole 670 .

As such, in this embodiment, the height adjustment leg 900 is mounted on the height adjustment leg mounting part 750 of the second casing 700 within the first casing 600 , so the height adjustment leg 900 out of the first casing 600 . ), no protruding structure is required to mount it.

The stand through hole 675 is formed in the bottom surface 604 of the first casing 600 and penetrates the stand of the image projector 10 . The stand is mounted on the stand mounting part 260 of the base plate 200 after passing through the stand through hole 675 .

As such, in this embodiment, since the stand is mounted on the stand mounting portion 260 of the base plate 200 within the first casing 600 , a protruding structure for mounting the stand outside the first casing 600 is not required.

The user manipulation unit 680 is for controlling the image projection apparatus 10 according to a user manipulation, and is provided on the upper surface 606 of the first casing 600 . The user manipulation unit 680 may be provided in a user touch method. The present invention is not limited thereto, and it is of course possible that the device may be provided in other ways that can be manipulated by the user.

The manipulation unit control board 690 is connected to the user manipulation unit 680 and is mounted on the inner surface 608 of the first casing 600 . This manipulation unit control board 690 is electrically connected to the main board 500 of the image projection assembly 100 when the first casing 600 of the image projection assembly 100 is mounted.

The second casing 700 covers the front opening 610 of the first casing 600 to package the image projection assembly 100 in the first casing 600 . The second casing 700 includes an image projection window 710 , a ring flow prevention rib 720 , a ring fixing rib 730 , a pair of casing flow prevention ribs 740 and a height adjustment leg mounting part 750 . do.

The image projection window 710 is for outputting the image formed from the projection lens unit 350 out of the image projection apparatus 10 , and is formed at a position corresponding to the front of the projection lens 355 of the projection lens unit 350 .

The ring flow prevention rib 720 is to prevent the flow of the focus ring 420 (refer to FIG. 12 ) of the focus adjustment unit 400 to be described later, and is formed to protrude from the rear surface 702 of the second casing 700 .

The ring flow preventing rib 720 may protrude to the rear (-X-axis direction) of the second casing 700 so as to be adjacent to or in contact with the front surface 422 (refer to FIG. 12 ) of the focus ring 420 . Accordingly, the ring flow preventing rib 720 may prevent the focus ring 420 from flowing in the front-rear direction (X-axis direction).

When the ring fixing rib 730 is mounted at a first position (the image projection assembly 100 in the first casing 600) of the focus ring 420 (refer to FIGS. 11 and 12) of the focus adjustment unit 400 to be described later. In order to prevent movement to a position that prevents interference with the first casing 600 , it is formed to protrude from the rear surface 702 of the second casing 700 .

After the first casing 600 of the second casing 700 is mounted, the ring fixing rib 730 may protrude adjacent to or in contact with the shaft protrusion 424 (refer to FIG. 12 ) of the focus ring 420 . In this case, the ring fixing rib 730 is disposed on the left side of the shaft protrusion 424 (refer to FIG. 12 ) to prevent the focus ring 420 from moving to the first position. Accordingly, the ring fixing rib 730 moves to the first position of the focus ring 420 after the installation of the first casing 600 of the second casing 700 is completed, that is, the left direction of the focus ring 420 ( -Y-axis direction) can be prevented.

A pair of casing flow preventing ribs 740 are respectively protruded from both sides of the bottom of the rear surface 740 of the second casing 700 . When the pair of casing flow prevention ribs 740 are mounted on the first casing 600, as previously seen, the pair of casing flow prevention ribs 720 of the first casing 600 are caught in the second casing 700 ) to prevent the flow in the vertical direction (Z-axis direction) of the second casing 700 after the installation of the first casing 600 is completed.

The height adjustment leg mounting part 750 is coupled to a height adjustment leg 900 to be described later, and is formed to protrude from the bottom surface 704 of the second casing 700 . The height adjustment leg mounting part 750 has a cylindrical shape, and may be screwed with the height adjustment leg 900 to enable height adjustment in the vertical direction (Z-axis direction) of the height adjustment leg 900 . To this end, a thread may be formed on the inner surface of the height adjustment leg mounting part 750 . This is only an example, if the movement in the vertical direction (Z-axis direction) of the height adjustment leg 900 is possible, it is of course also possible to be coupled by other coupling methods.

On the other hand, the image projection apparatus 10 further includes a plurality of legs 800 for supporting the image projection apparatus (10). In this embodiment, four legs 800 are provided, and after passing through the corresponding leg through-holes 660 of the first casing 600 as seen above, the corresponding leg mounting parts 250 of the base plate 200 . ) is mounted on

Hereinafter, the assembly process of the image projection apparatus 10 according to this embodiment will be described in detail.

The assembly process of the image projection device 10 starts with mounting the image projection assembly 100 in the first casing 600 . The user slides the image projection assembly 100 to the rear (-X-axis direction) of the first casing 600 through the front opening 610 of the first casing 600 to push the first casing 600 inside. .

7 and 8 are views for explaining the assembly of the image projection assembly and the first casing of the image projection apparatus of FIG.

Referring to FIG. 7 , the guide slider 220 of the base plate 200 slides along the guide rail 620 until it is caught by the stopper 625 of the first casing 600 . When the guide slider 220 is caught by the stopper 625 , the base plate 200 is no longer slid to the rear (-X-axis direction) of the first casing 600 . Referring to FIG. 8 , thereafter, the user engages the pair of plate flow prevention ribs 230 of the base plate 200 on the pair of plate flow prevention ribs 630 of the first casing 600 to engage the base plate 200 . ) is put down.

Accordingly, the image projection assembly 100 is fixed to the first casing 600 in the front (X-axis direction) and rear (-X-axis direction) of the base plate 200, in the front and rear in the first casing 600 It may be stably mounted in the first casing 600 without flowing in the direction (X-axis direction).

9 to 12 are views for explaining the movement of the focus ring when the image projection assembly and the first casing of the image projection apparatus of FIG. 2 are assembled.

9 and 10 , the focus adjusting unit 400 includes a focus ring 420 , a focus slider 440 , and a focus knob 460 .

The focus ring 420 is mounted on the focus adjustment unit mounting unit 240 to be rotatable according to a user manipulation. At this time, the focus ring 420 is a first position for preventing interference with the first casing 600 when the image projection assembly 100 is mounted on the first casing 600 and the image projection assembly 100 to the first After being mounted on the casing 600 , it is mounted on the focus adjustment unit mounting unit 240 so as to be movable between the second positions exposing a portion of the first casing 600 for user manipulation.

The focus ring 420 is attached to the focus adjustment unit mounting unit 240 at a first position (a position that prevents interference with the first casing 600 when the image projection assembly 100 is mounted on the first casing 600 ). It is fitted into the formed first ring groove portion 242 .

On the other hand, the focus adjustment unit mounting unit 240 has a focus ring at a second position (a position in which the image projection assembly 100 is mounted on the first casing 600 and a portion is exposed outside the first casing 600 for user manipulation) A second ring groove portion 244 into which the 420 is fitted is formed. The second ring groove portion 244 extends from the first ring groove portion 242 and is disposed on the right side of the first ring groove portion 242 .

The focus slider 440 is connected to the focus ring 420 and linearly slides in a direction parallel to the front-rear direction (X-axis direction) of the projection lens unit 350 according to the rotation of the focus ring 420 . To this end, the focus slider 440 is movably mounted in the front-rear direction (X-axis direction) from the focus ring 420 , and is connected to the focus ring 420 in a screw-coupled manner in this embodiment. In addition, when the focus slider 440 moves between the first position and the second position of the focus ring 420 , it moves together with the focus ring 420 in the Y-axis direction.

When the focus knob 460 slides in the X-axis direction of the focus slider 440 , the projection lens 352 of the projection lens unit 350 and the projection lens unit 350 linearly slide in the front-rear direction (X-axis direction). It is connected to the projection lens 352 of the projection lens unit 350 to be possible.

Hereinafter, when the image projection assembly 100 and the first casing 600 are assembled, the movement of the focus ring 420 of the focus adjustment unit 400 will be described.

When the image projection assembly 100 is mounted on the first casing 600 , no interference between the focus ring 420 and the first casing 600 occurs so that the image projection assembly 100 slides. That is, the focus ring 420 should be disposed at the first position. To this end, the focus ring 420 is fitted into the first ring groove portion 242 formed in the focus adjustment unit mounting portion 240 as shown in FIG. 9 at the first position.

Accordingly, since the focus adjustment unit 400 is disposed in the first casing 600 without protruding out of the first casing 600 , the linear sliding of the image projection assembly 100 may not be disturbed.

After the image projection assembly 100 is mounted on the first casing 600, the focus ring 420 of the focus adjustment unit 400 is exposed out of the first casing 600 for user manipulation according to the focus adjustment later. is required That is, it is necessary to arrange the focus ring 420 in the second position (a position in which the image projection assembly 100 is mounted on the first casing 600 and a portion is exposed outside the first casing 600 for user manipulation). do.

11 and 12 , the user moves the focus ring 420 in the Y-axis direction to fit into the second ring groove portion 244 . When the focus ring 420 is fitted into the second ring groove portion 244 , a portion of the focus ring 420 passes through the focus ring exposure slot 640 and is exposed outside the first casing 600 . Meanwhile, as the focus ring 420 moves, the focus slider 440 is also moved a predetermined distance in the Y-axis direction within the first casing 600 .

When the user wants to adjust the focus of the projection lens unit 350 , the user may adjust the focus of the projection lens unit 350 by manipulating the focus ring 420 exposed outside the first casing 600 .

13 is a view for explaining the assembly of the first casing and the second casing of the image projection apparatus of FIG.

Referring to FIG. 13 , after the image projection assembly 100 is mounted on the first casing 600 , the second casing 700 is mounted on the first casing 600 . In this case, the focus ring 420 is disposed at a second position (a position in which the image projection assembly 100 is mounted on the first casing 600 and a portion is exposed outside the first casing 600 for user manipulation).

The second casing 700 is interpolated into the first casing 600 through the front opening 610 of the first casing 600 . In the present embodiment, since the second casing 700 is interpolated into the first casing 600 , a parting line is not formed according to the mounting of the first casing 600 and the second casing 700 .

And, when the second casing 700 and the first casing 600 are mounted, a pair of casing flow prevention ribs 740 of the second casing 700 are a pair of casing flow barriers of the first casing 600 . It is fixed at 720. At this time, the bottom surface 704 of the second casing 700 is mounted on the bottom surface 604 of the first casing 600 so that the height adjustment leg mounting part 750 can be disposed above the height adjustment leg mounting hole 670 .

The height adjustment leg 900 is for adjusting the tilt of the image projector 10 , and is mounted on the height adjustment leg mounting part 750 through the height adjustment leg mounting hole 670 . Tilt means moving the image projector 10 in the vertical direction (Z-axis direction), that is, in the up-down direction (Z-axis direction), in a state in which the image projection device 10 is fixed on the horizontal (XY-axis direction) axis. say When the user wants to adjust the tilt of the image projection apparatus 10, the height adjustment leg 900 can be moved in the vertical direction (Z-axis direction) according to a desired height.

Hereinafter, focus adjustment of the image projection apparatus 10 according to the present embodiment will be described in detail.

FIG. 14 is a view for explaining focus adjustment of the image projection apparatus of FIG. 2 .

Referring to FIG. 14 , when adjusting the focus of the image projector 10 , the user rotates the focus ring 420 exposed through the focus ring exposure slot 640 of the first casing 600 clockwise or counterclockwise. rotate

According to the rotation of the focus ring 420, the focus slider 440 slides in the front-rear direction (X-axis direction) of the image projection device 10, and accordingly, the projection lens 352 of the projection lens unit 350 is also It slides in the front-back direction (X-axis direction). Accordingly, the user may adjust the desired focus through manipulation of the focus ring 420 .

As such, since the image projection apparatus 10 according to this embodiment slides and mounts the image projection assembly 100 in which various parts are integrated in the first casing 600, the assembly of the image projection apparatus 10 can be simplified. .

In addition, the image projection apparatus 10 according to the present embodiment can implement a product appearance that does not form a parting line, so it is possible to improve the appearance of the product and to easily provide the same color implementation for the appearance.

In addition, the image projection apparatus 10 according to this embodiment separates only the image projection assembly 100 from the first casing 600 and replaces the parts provided in the image projection assembly 100 even when replacing or repairing parts later. It can be repaired, so that easy follow-up management can be achieved.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

10: image projection device 100: image projection assembly
200: base plate 300: optical mechanism
400: focus adjustment unit 500: main board
600: first casing 700: second casing

Claims (20)

In the image projection device,
an image projection assembly for magnifying and projecting an image;
a first casing which forms an internal space for accommodating the image projection assembly and has an open front; and
and a second casing coupled to the first casing and covering the open front surface of the first casing;
The image projection assembly is characterized in that it is slidingly mounted from the front to the rear of the first casing along the inner surface of the first casing,
The image projection assembly,
Including a base plate slidingly mounted into the first casing,
In the first casing,
A pair of guide rails for guiding the sliding of the base plate are formed, each of the guide rails is disposed to face each other and disposed on both sides of the first casing, respectively,
video projection device. According to claim 1,
The image projection assembly,
an optical mechanism mounted on the base plate and magnifying and projecting the image; and
and a main board for controlling the optical mechanism and mounted on the base plate. 3. The method of claim 2,
The base plate,
and at least one guide slider sliding along the guide rail is formed. 4. The method of claim 3,
The guide rail is an image projection apparatus, characterized in that formed extending along the sliding direction of the base plate in the first casing. 5. The method of claim 4,
The guide slider is provided with a pair,
The guide slider is an image projection apparatus, characterized in that formed to protrude from both sides of the base plate. 6. The method of claim 5,
At one end of each guide rail,
The image projection apparatus according to claim 1, wherein a stopper to which each guide slider is caught is formed in order to limit the sliding of the base plate. 7. The method of claim 6,
In the first casing,
When the sliding of the base plate is completed, a plate flow barrier is formed to prevent the flow of the base plate,
The base plate,
At least one plate flow preventing rib caught by the at least one plate flow preventing rib is formed to protrude. In the image projection device,
an image projection assembly for magnifying and projecting an image;
a first casing which forms an internal space for accommodating the image projection assembly and has an open front; and
and a second casing coupled to the first casing and covering the open front surface of the first casing;
The image projection assembly is characterized in that it is slidingly mounted from the front to the rear of the first casing along the inner surface of the first casing,
The image projection assembly,
a base plate slidably mounted into the first casing;
an optical mechanism mounted on the base plate and magnifying and projecting the image; and
a main board for controlling the optical mechanism and mounted on the base plate;
and a focus adjusting unit mounted on the base plate, separately provided outside the optical mechanism, and adjusting the focus of the projection lens unit of the optical mechanism. 9. The method of claim 8,
The focus adjustment unit,
Focus ring rotatable according to user operation;
a focus slider connected to the focus ring and linearly sliding in a direction parallel to a front-rear direction of the projection lens unit according to rotation of the focus ring; and
and a focus knob connecting the focus slider and the projection lens unit so that the projection lens unit slides together in a straight line when the focus slider is slid. 10. The method of claim 9,
The focus ring is
A first position to prevent interference with the first casing when the image projection assembly is mounted to the first casing, and a portion out of the first casing for user manipulation after mounting the image projection assembly to the first casing It is mounted on the base plate so as to be movable between the second positions exposing the
In the first casing,
and a focus ring exposure slot penetrating a portion of the focus ring at the second position is formed. 11. The method of claim 10,
The second casing,
It is disposed in front of the projection lens and the focus ring,
and an image projection window for outputting the image projected from the projection lens. 12. The method of claim 11,
On the rear surface of the second casing,
An image projection apparatus according to claim 1, wherein a ring flow preventing rib for preventing the focus ring from moving is formed to protrude. 12. The method of claim 11,
On the rear surface of the second casing,
and a ring fixing rib for preventing the focus ring from moving to the first position when the focus ring is manipulated by a user. 3. The method of claim 2,
On the rear surface of the second casing,
At least one casing flow prevention rib for preventing the flow of the second casing after the cover of the first casing of the second casing is formed to protrude,
In the first casing,
and at least one casing flow preventing rib on which the at least one casing flow preventing rib is engaged. 3. The method of claim 2,
On the bottom surface of the second casing,
A height adjustment leg mounting portion is formed in which the height adjustment leg for adjusting the height of the image projection device is mounted to be movable in the vertical direction,
On the bottom surface of the first casing,
An image projection apparatus, characterized in that a height adjustment leg through hole through the height adjustment leg is formed. 3. The method of claim 2,
On the lower surface of the base plate,
A stand mounting unit on which the stand of the image projection device is mounted is formed,
On the bottom surface of the first casing,
The image projection apparatus, characterized in that the stand through-hole is formed so as to connect the stand to the stand mounting unit. 3. The method of claim 2,
On the outer surface of the first casing,
A user operation unit for controlling the image projection apparatus according to a user operation is provided,
On the inner surface of the first casing,
The image projection apparatus according to claim 1, wherein the control board of the operation unit connected to the user operation unit and electrically connected to the main board is mounted. 18. The method of claim 17,
The user manipulation unit is an image projection device, characterized in that the user touch method. delete According to claim 1,
and the second casing is interpolated into the first casing.

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