JP2008191417A - Rear projection device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve a problem that if a screen is displaced, a screen frame is deformed, and stress to restore the screen frame to normal shape acts on a cabinet, whereby the cabinet is deformed and the angle of a mirror is changed to cause failures that an image displayed on the screen is distorted in the conventional rear projection device which has trouble that the screen is displaced from the screen frame, because a gap considering the expansion of the screen is provided between the outer circumference of the screen and the screen frame. <P>SOLUTION: The rear projection device includes the cabinet to which a reflection mirror is attached, a projection body which projects video light toward the reflection mirror, the screen 5 to which the video light reflected by the reflection mirror is projected, and the screen frame 6 which holds the screen, and is provided with engaging grooves 53A to 53D on four sides of the screen 5, and also provided with engaging projecting parts 66A to 66D engaged in the engaging grooves 53A to 53D on the screen frame 6. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a rear projection device that reflects image light emitted from an image light projection device by a reflecting mirror and projects the image light on the back side of a screen and displays an image on the screen.

  A general rear projection apparatus has a configuration in which a transmission screen is disposed on the front surface of a cabinet, and an image (light) is reflected from a video projection apparatus by a mirror attached to the cabinet and displayed on the transmission screen. The transmissive screen used in this rear projection apparatus includes a Fresnel lens that adjusts the direction of light incident from the video projection apparatus and emits it as substantially parallel light, and a lenticular lens that diffuses the light emitted from the Fresnel lens. It is prepared for. The Fresnel lens and the lenticular lens are laminated so as to be in close contact with each other so that image quality deterioration such as focusing performance does not occur.

  An example of a screen frame that holds such a transmission screen is described in Patent Document 1. Patent Document 1 describes a screen used for a rear projection type liquid crystal projector and the like. The screen described in Patent Document 1 is “a screen in which a screen curtain is sandwiched and held by a screen fixing frame via a screen pressing member, and a first screen for attaching the screen pressing member to the screen fixing frame. 1 boss and a second boss for attaching the mirror cover are provided on one line, and the screen pressing member is formed in a U-shaped cross section ”.

According to the screen having such a configuration, “the width of the screen fixing frame can be reduced. Therefore, when the screen is viewed, the screen fixing frame becomes inconspicuous, so that the screen can be seen larger” (Details) The effect of paragraph [0030]) of the book is expected.
JP 11-64980 A

  The screen described in Patent Document 1 includes a screen curtain (hereinafter referred to as “screen” because it corresponds to the screen of the present invention) and a screen fixing frame (hereinafter referred to as “screen frame” because it corresponds to the screen frame of the present invention). And a screen pressing member that holds the screen between the screen frame and the like. The screen is configured to include a Fresnel lens and a lenticular lens (lenticular screen). In general, the Fresnel lens and the lenticular lens are made of highly transparent acrylic resin. The acrylic resin expands by absorbing moisture (absorbing moisture) in the air. Therefore, if the rear projection apparatus is in a high humidity environment, the screen will expand.

  If the outer periphery of the expanded screen interferes with the screen frame, the screen will bow. As a result, the distance until the image light emitted from the image light projection device reaches the screen changes, or the Fresnel lens and the lenticular lens are separated from each other. And distortion will occur. Therefore, the screen of the conventional rear projection apparatus as described in Patent Document 1 is provided with a gap (clearance) of a predetermined distance between the outer periphery of the screen and the screen frame. The configuration did not interfere with the frame.

  However, if a gap is provided between the outer periphery of the screen and the screen frame, the screen held by the screen frame and the screen pressing member may be displaced when vibration or impact is applied to the rear projection device. It was. When the screen is displaced, a force that is parallel to the plane of the screen and faces in the opposite direction, that is, a so-called shearing force, acts on the screen frame to which the screen is fixed. Since the screen frame is generally formed of a synthetic resin and has a relatively low rigidity, the shearing force acts to deform the planar shape into, for example, a parallelogram or a rhombus.

  When the screen frame is deformed, a force (stress) for returning the screen frame to a normal shape is applied to the cabinet to which the screen frame is integrally attached. Since the cabinet is made of synthetic resin like the screen frame, the cabinet is deformed by a force for returning the screen frame to a normal shape. As a result, there is a problem that the angle of the mirror attached to the cabinet changes, and the image displayed on the screen is distorted.

  In order to prevent a shearing force from acting on the screen frame, it is conceivable to weaken the pressing of the screen by the screen pressing member. However, if the screen pressing is weakened, the force that closely attaches the Fresnel lens and the lenticular lens on the screen will be weakened, and a gap will be created between the Fresnel lens and the lenticular lens, causing deterioration in image quality such as focusing performance. There was a problem.

  The problem to be solved is that in the conventional rear projection apparatus, the screen is sandwiched and fixed by the screen frame and the screen pressing member, and a gap is provided between the outer periphery of the screen and the screen frame. The screen is displaced when vibration or impact is applied to the apparatus.

  When the screen is displaced, a shearing force is applied to the screen frame and stress is applied to the cabinet, so that the cabinet is deformed. And since the angle of a mirror changes when a cabinet deform | transforms, there exists a malfunction that a distortion arises in the image displayed on a screen.

  An object of the present invention is to provide a rear projection device in which the screen attached to the screen frame does not shift in the plane direction even when vibration or impact is applied in consideration of the above-described problems.

  A rear projection apparatus according to the present invention includes a cabinet having an opening opened on the front surface and having a reflection mirror mounted therein, and a projection main body that is housed in the cabinet and projects image light toward the reflection mirror. A substantially rectangular screen on which the image light reflected by the reflecting mirror is projected, and a screen frame that holds the screen and is attached to the front surface of the cabinet. The main feature is that engagement grooves are provided on at least two sides of the screen, and engagement protrusions that engage with the engagement grooves are provided on the screen frame.

  According to the rear projection device of the present invention, since the engagement groove provided on the screen and the engagement convex portion provided on the screen frame are engaged, the screen is displaced in the plane direction even when vibration or impact is applied to the device. Can be suppressed or prevented. As a result, it is possible to prevent the cabinet from being deformed due to the screen being displaced, and to prevent distortion or the like from occurring in the image displayed on the screen.

  Hereinafter, the best mode for carrying out the rear projection apparatus of the present invention will be described with reference to the drawings, but the present invention is not limited to the following mode.

  1 to 8 show examples of embodiments of the present invention. 1 is a perspective view seen from the front side showing a first embodiment of a rear projection apparatus according to the present invention, and FIG. 2 is an explanatory view schematically showing a cross section of the rear projection apparatus shown in FIG. 3 is an exploded perspective view of the structural component, and FIG. 4 is a schematic diagram showing the configuration of the optical unit. 5 is a perspective view of the screen frame fixed to the screen frame as viewed from the rear side, FIG. 6 is an exploded perspective view of the screen frame with the screen removed, and FIG. 7 is a plan view of the screen frame with the screen arranged. FIG. 8 is an explanatory diagram enlarging the portion X shown in FIG.

  1 to 3 are a rear projection television 1 showing a first embodiment of a rear projection apparatus of the present invention. The rear projection television 1 is a so-called television receiver. The rear projection television 1 displays video (image) by emitting video light from an optical unit having an image display device such as a CRT or LCD element, reflecting the video light by a reflecting mirror, and enlarging it onto a screen. To do.

  The rear projection television 1 includes a cabinet 2 having an opening 2a with the entire front surface opened, a reflection mirror 3 attached to the cabinet 2, a projection main body 4 housed in the cabinet 2, and a reflection mirror 3. The screen 5 on which the image light reflected by the projector is projected, and the screen frame 6 that holds the screen 5 and is attached to the front surface of the cabinet 2 are provided.

  As shown in FIG.2 and FIG.3, the cabinet 2 consists of a hollow housing | casing which has the opening part 2a in the front surface. Examples of the material of the cabinet 2 include polystyrene (PS), but other synthetic resins such as polycarbonate (PC) and acrylonitrile / butadiene / styrene (ABS) resin can also be used.

  The cabinet 2 includes a mounting surface portion 2b on which the projection main body 4 is mounted, a back surface portion 2c that is substantially perpendicular to one end of the mounting surface portion 2b opposite to the opening 2a on the long side, and a back surface portion 2c. It is composed of an upper surface portion 2d that is continuous with 2c at a predetermined inclination angle and to which the reflection mirror 3 is attached, and left and right side surface portions. A plurality of mirror engaging pieces 11 are provided on the inner surface of the upper surface portion 2 d of the cabinet 2. The lower side portion of the reflecting mirror 3 is engaged with the mirror engaging piece 11.

  The reflection mirror 3 is formed in a substantially trapezoidal plate shape whose lower side is shorter than the upper side. The size of the reflecting mirror 3 is set so as to cover most of the upper surface portion 2d of the cabinet 2. The reflecting mirror 3 is attached to the cabinet 2 by a mirror holder 12 with the lower side engaged with the mirror engaging piece 11 on the upper surface 2d.

  The mirror holder 12 includes a left side mirror holder 12a that holds the left side portion of the reflecting mirror 3, a right side mirror holder 12b that holds the right side portion, and an upper mirror holder 12c that holds the upper side portion. These three mirror holders 12a, 12b, and 12c are screwed to the upper surface portion 2d.

  A separator 7 is attached to the cabinet 2 to partition the interior into a space portion on the reflection mirror 3 side and a space portion on the projection body 4 side. The separator 7 has a role of dust-proofing the projection body 4 and a sealing function for creating air circulation between the space portion on the reflection mirror 3 side and the space portion on the projection body 4 side partitioned by the separator 7. ing. The separator 7 is composed of a plate body bent in a substantially L shape, and is formed in a substantially rectangular first surface portion 7a and a second surface portion that is continuous from one end of the long side of the first surface portion 7a with a predetermined inclination angle. 7b. The first surface portion 7 a of the separator 7 covers the upper surface of the projection main body 4, and the second surface portion 7 b covers the front surface of the projection main body 4.

  A projection opening 15 is provided substantially at the center of the first surface portion 7a. A projection lens 46 (described later) of the projection main body 4 or image light projected from the projection lens 46 is passed through the projection opening 15. In the first surface portion 7a, an intake port that receives air for cooling an optical unit 21 (to be described later) of the projection body 4 is provided at one end portion of the long side that is opposite to the long side continuous with the second surface portion 7b. 16 is provided. Further, a plurality of step portions 17 are provided in a stepped manner on the first surface portion 7a in order to increase the surface strength. Two speaker installations 18 and 18 are attached to the second surface portion 7b with a predetermined interval in the left-right direction. A wiring board 19 provided with a remote control light receiving portion is attached to the left side of the approximate center of the second surface portion 7b.

  A projection body 4 is mounted on the mounting surface portion 2 b of the cabinet 2. As shown in FIG. 4, the projection body 4 includes an optical unit 21, a light source unit 22, a chassis member that does not appear in the figure, and the like. The light source unit 22 includes a light source 23 that irradiates light to the optical unit 21 and a cooling device that cools the light source 23. An example of the light source 23 is a high-intensity discharge lamp. The chassis block includes a control device that drives and controls the optical unit 21 and the light source unit 22.

  The optical unit 21 includes a fly-eye lens group 31, a PS converter 32, two color separation mirrors 33, 34, three reflection mirrors 35, 36, 37, three condenser lenses 38R, 38G, 38B, An incident side polarizing plate 39, three sets of light valves 42 including three liquid crystal panels 40R, 40G, and 40B, which are liquid crystal devices, and an output side polarizing plate 41; a color combining cross prism 43; and a lens group 44; A reflection mirror 45, a projection lens 46, a sirocco fan that does not appear in the figure for cooling the three sets of light valves 42, and the like are provided.

  The PS converter 32 is formed by adhering strip-shaped glass coated with a dielectric with an adhesive. On the incident side of the liquid crystal panels 40R, 40G, and 40B, the polarizing plate 39 on the incident side is bonded to the condenser lenses 38R, 38G, and 38B through thin glass plates, respectively. On the emission side of the liquid crystal panels 40R, 40G, and 40B, polarizing plates 41 are attached to the cross prism 43 through thin glass plates, respectively.

  Next, the operation of image projection by the light source 23 provided in the light source unit 22 and the optical unit 21 will be described. First, light emitted from the light source 23 of the light source unit 22 is made uniform by the fly-eye lens group 31 and the polarization direction is aligned by the PS converter 32. Then, the light whose polarization directions are aligned is separated into light of three colors R (red), G (green), and B (blue) by the reflection mirrors 35, 36, and 37 and the color separation mirrors 33 and 34. .

  The light of the three colors irradiated to the liquid crystal panels 40R, 40G, and 40B through the condenser lenses 38R, 38G, and 38B and the polarizing plate 39 is modulated by the image signal, and the transmittance is controlled through the polarizing plate 41. In this way, the images formed on the liquid crystal panels 40R, 40G, and 40B are combined as one video light by the cross prism 43. The image light is transmitted through the lens group 44, reflected by the reflection mirror 45, and projected onto the screen 5 through the projection lens 46.

  As shown in FIGS. 5 to 7, the screen 5 is sandwiched and fixed between the screen frame 6 and the screen holder 8. The screen 5 is formed in a horizontally long rectangular shape. As shown in FIG. 10 and the like, the screen 5 is configured by a combination of a Fresnel lens 51 disposed on the reflection mirror 3 side and a lenticular lens 52 disposed on the opposite side of the Fresnel lens 51 from the reflection mirror 3. . The Fresnel lens 51 and the lenticular lens 52 are made of a highly transparent synthetic resin such as an acrylic resin. The Fresnel lens 51 and the lenticular lens 52 are superposed and integrated so that their planes are in close contact with each other.

  Engaging grooves 53 </ b> A to 53 </ b> D are respectively provided on the four sides of the screen 5 configured as described above. That is, the screen 5 has an upper engagement groove 53A provided in a substantially middle portion of the upper side, a lower engagement groove 53B provided in a substantially middle portion of the lower side, and a left side when viewed from the back side (cabinet 2 side). It has a left engagement groove 53C provided in a substantially middle part of the left side forming a side, and a right engagement groove 53D provided in a substantially middle part of the right side. The four engaging grooves 53A to 53D of the screen 5 extend in a direction substantially orthogonal to the provided sides, and the end portions are formed in a semicircular shape. In these four engagement grooves 53A to 53D, four engagement projections 66A to 66D, which will be described later, of the screen frame 6 are respectively engaged.

  The screen frame 6 is made of a horizontally long frame-shaped member that forms a rectangle. The screen frame 6 includes a rectangular base frame 61 and a rectangular decorative frame 62 that is continuous with the front side of the base frame 61. Examples of the material of the screen frame 6 include polystyrene (PS), but other synthetic resins such as polycarbonate (PC) and acrylonitrile / butadiene / styrene (ABS) resin can also be used.

  The base frame 61 is set to a size corresponding to the opening 2 a of the cabinet 2. A plurality of first holder fixing portions 64 are provided on the inner surface of the base frame 61. The plurality of first holder fixing portions 64 are arranged at appropriate intervals along an upper side portion that is one side of the long side and a left side portion and a right side portion that are two short sides. The first holder fixing portion 64 is formed as a cylindrical cylindrical portion that protrudes substantially vertically (on the back side) continuously from the step portion 61 a provided on the base frame 61. A screw groove (not shown) is provided on the inner surface of the first holder fixing portion 64, and a fixing screw (not shown) for fixing the screen holder 8 is screwed into the screw groove.

  The decorative frame 62 is formed in a frame shape so as to surround the outer periphery of the screen 5 exposed from the front surface of the base frame 61. A plurality of second holder fixing portions 65 and four engagement convex portions 66 </ b> A to 66 </ b> D are provided on the back surface that is the surface on the cabinet 2 side of the decorative frame 62. The four engagement convex portions 66A to 66D are provided at positions corresponding to the four engagement grooves 53A to 53D of the screen 5, respectively. These four engagement convex portions 66A to 66D are formed in the same shape as shapes corresponding to the four engagement grooves 53A to 53D, respectively.

  The plurality of second holder fixing portions 65 are arranged at appropriate intervals along a lower side portion that is one side of the long side of the decorative frame 62. The second holder fixing portion 65 is formed as a cylindrical tubular portion that is continuous with the decorative frame 62 and protrudes substantially vertically (back side). Similar to the first holder fixing portion 64 provided on the base frame 61, a thread groove into which a fixing screw (not shown) for fixing the screen holder 8 is screwed is provided on the inner surface of the second holder fixing portion 65. ing.

  As shown in FIGS. 5 and 6, the screen holder 8 extends along the outer peripheral portion of the screen 5 and is divided into a plurality (five in this embodiment). The five screen holders 8 are each composed of a long member bent into a crank shape, a fixed portion 8a fixed to the screen frame 6, a pressing portion 8b that presses the outer peripheral portion of the screen 5, and a fixed portion. It has the connection part 8c which connects 8a and the press part 8b.

  The fixing portion 8 a of the screen holder 8 is fixed to the plurality of first holder fixing portions 64 and the plurality of second holder fixing portions 65 of the screen frame 6 by fixing screws (not shown). At this time, the pressing portion 8 b of the screen holder 8 presses the outer peripheral portion of the screen 5. Thereby, the screen 5 is fixed to the screen frame 6.

  Here, the engagement of the four engagement grooves 53A to 53D of the screen 5 and the four engagement protrusions 66A to 66D of the screen frame 6 will be described. FIG. 8 is an enlarged view of portion A shown in FIG. 7 and shows the engaging convex portion 66A, the upper engaging groove 53A of the screen 5, and the like. As shown in FIG. 8, the length Y1 in the longitudinal direction of the engaging protrusion 66A (the same applies to the engaging protrusions 66B to 66D) is the upper engaging groove 53A (other engaging grooves 53B to 53B) provided on the screen 5. 53D is set to be substantially the same as the length Y2 in the longitudinal direction.

  Further, the length X1 in the width direction of the engaging convex portion 66A (the same applies to the engaging protrusions 66B to 66D) is the length X2 in the width direction of the engaging groove 53A (the same applies to the other engaging grooves 53B to 53D). Is set slightly shorter. Note that the difference between the width direction length X1 of the engagement protrusion 66A and the width direction length X2 of the engagement groove 53A takes into account the dimensional error of the screen 5 and the screen frame 6, and the engagement groove 53A and engagement convex part 66A may contact | abut on both sides of the width direction.

  In a state where the screen 5 is fixed to the screen frame 6, a gap Z <b> 1 is generated between the base frame 61 of the screen frame 6 and the outer periphery of the screen 5 in consideration of the expansion of the screen 5. Therefore, a gap Z2 having substantially the same size as the gap Z1 is generated between the tip of the engagement groove 53A provided in the screen 5 and the tip of the engagement protrusion 66A provided in the screen frame 6.

  In this way, the four engagement grooves 53A to 53D of the screen 5 and the four engagement convex portions 66A to 66D of the screen frame 6 are engaged with each other. Then, the upper engaging groove 53A and the engaging convex portion 66A are engaged, and the lower engaging groove 53B and the engaging convex portion 66B are engaged to extend the upper side and the lower side of the screen 5 ( The movement to the left and right) is suppressed or prevented. At this time, since the movement of the screen 5 in the left-right direction is suppressed or prevented at two locations, a large load is not applied to a part of the screen 5, and the screen 5 is not likely to be deformed.

  Further, by engaging the left engaging groove 53C and the engaging convex portion 66C and engaging the right engaging groove 53D and the engaging convex portion 66D, the left side and the right side of the screen 5 are extended ( The movement in the vertical direction is suppressed or prevented. At this time, since the movement of the screen 5 in the vertical direction is suppressed or prevented at two places, a large load is not applied to a part of the screen 5 and there is no fear of the screen 5 being deformed.

  Thereby, even if a vibration, an impact, etc. are added to the rear projection apparatus 1, it can prevent that the screen 5 shifts | deviates to a plane direction. As a result, it is possible to prevent the cabinet 2 from being deformed due to the screen 5 being displaced, and to prevent the image displayed on the screen 5 from being distorted.

  Now, it is assumed that the screen 5 absorbs moisture in the air (absorbs moisture) and expands. At this time, a gap Z1 is provided between the base frame 61 of the screen frame 6 and the outer periphery of the screen 5, and a gap Z2 is provided between the four engagement grooves 53A to 53D and the four engagement protrusions 66A to 66D. Therefore, there is no worry that the expansion of the screen 5 is hindered.

  Further, in a state where the screen 5 is fixed to the screen frame 6, both sides in the width direction of the engagement grooves 53 </ b> A to 53 </ b> D provided in the screen 5 and both sides in the width direction of the engagement protrusions 66 </ b> A to 66 </ b> D provided in the screen 6. Are respectively approaching or abutting. However, since the respective engagement grooves 53A to 53D are provided at substantially intermediate portions of the four sides of the screen 5, the screen 5 is expanded so as to narrow the length X1 of the engagement grooves 53A to 53D in the width direction. And there is no worry of hindering the expansion of the screen 5. As a result, it is possible to prevent the screen 5 from being deformed such as warpage.

  In the present embodiment, the engagement grooves 53A to 53D are provided on the four sides of the screen 5, respectively. However, the screen according to the present invention is not limited to this. The screen according to the present invention can be configured to have engagement grooves on at least two sides. In this case, the processing applied to the screen and the screen frame can be reduced, and the cost can be reduced.

  For example, when engaging grooves are provided on two adjacent sides of the screen, the engaging groove provided on one side and the engaging convex portion that engages with the engaging groove provide a direction in which one side extends. The movement of the screen is suppressed or prevented. The movement of the screen in the direction in which the other side extends is suppressed or prevented by the engagement groove provided on the other side of the screen and the engagement convex portion engaged with the engagement groove.

  Further, when the engaging grooves are provided on the two opposing sides of the screen, the two opposing sides are extended by the two engaging grooves and the two engaging convex portions respectively engaged with the engaging grooves. Suppress or prevent screen movement in the direction. In this case, the movement of the screen in the direction orthogonal to the two opposing sides is not suppressed or prevented, but the screen is controlled by suppressing or preventing the movement in the direction in which the two opposing sides extend in two places. It can prevent moving so that it may rotate. Thereby, the deformation | transformation of the screen frame by a screen slip | deviating can be suppressed, and it can prevent that a distortion etc. arise in the image displayed on the screen 5. FIG.

  In particular, when engaging grooves are provided on the upper and lower sides of the screen to prevent or prevent movement of the screen in the direction in which the upper and lower sides extend (lateral direction), the screen is moved in the vertical direction by its own weight. Suppress movement. Therefore, an effect equivalent to the case where the engagement grooves are provided on the four sides of the screen can be obtained.

  Furthermore, in the present embodiment, the screen is provided with an engagement groove, and the screen frame is provided with an engagement convex portion that engages with the engagement groove. However, the rear projection device of the present invention has this configuration. It is not limited. The rear projection device of the present invention may have a configuration in which an engaging convex portion is provided on the screen and an engaging concave portion that engages with the engaging convex portion is provided on the screen frame.

  As described above, according to the rear projection apparatus of the present invention, the movement of the screen in the plane direction can be prevented or suppressed. As a result, it is possible to prevent the cabinet from being deformed due to the screen being displaced, and to prevent the image displayed on the screen from being distorted or the like. Moreover, even if the screen absorbs moisture in the air (absorbs moisture) and expands, the expansion is not hindered, and deformation such as warpage can be prevented from occurring.

  The present invention is not limited to the embodiment described above and shown in the drawings, and various modifications can be made without departing from the scope of the invention. For example, in the above-described embodiment, an example in which a rear projection television is applied as a rear projection device has been described. However, the present invention can also be applied to a display device of a personal computer, a gaming machine, and other rear projection devices.

It is the perspective view which looked at the rear projection television which concerns on 1st Embodiment of the rear projection apparatus of this invention from the front side. It is explanatory drawing which shows typically the longitudinal cross-section of the rear projection television which concerns on 1st Embodiment of the rear projection apparatus of this invention. It is a disassembled perspective view of the structural component which concerns on 1st Embodiment of the rear projection apparatus of this invention. It is a schematic diagram which shows the structure of the optical unit and light source unit which concern on 1st Embodiment of the rear projection apparatus of this invention. It is the perspective view which looked at the state which fixed the screen to the screen frame which concerns on 1st Embodiment of the rear projection apparatus of this invention from the back side. It is the perspective view which looked at the state which removed the screen from the screen frame which concerns on 1st Embodiment of the rear projection apparatus of this invention from the back side. It is a top view of the state which has arrange | positioned the screen to the screen frame which concerns on 1st Embodiment of the rear projection apparatus of this invention. FIG. 8 is an enlarged view of portion A shown in FIG. 7, and is an explanatory diagram for explaining an engagement groove of the screen and an engagement protrusion of the screen frame.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Rear projection television (rear projection apparatus), 2 ... Cabinet, 2a ... Opening part, 2c ... Back part, 3 ... Reflection mirror, 4 ... Projection main body, 5 ... Screen, 6 ... Screen frame, 7 ... Separator, 7a ... 1st surface part, 7b ... 2nd surface part, 8 ... Screen holder, 21 ... Optical unit, 22 ... Light source unit, 46 ... Projection lens, 51 ... Fresnel lens, 52 ... Lenticular lens, 53A ... Upper engagement groove, 53B ... Bottom Engaging groove, 53C ... Left engaging groove, 53D ... Right engaging groove, 61 ... Base frame, 62 ... Decorative frame, 64 ... First holder fixing part, 65 ... Second holder fixing part, 66A to 66D ... Engaging projection

Claims (6)

A cabinet having an opening opened in the front and having a reflection mirror mounted inside;
A projection main body that is housed inside the cabinet and projects image light toward the reflection mirror;
A substantially rectangular screen on which the image light reflected by the reflecting mirror is projected;
A screen frame that holds the screen and is attached to the front surface of the cabinet;
An engagement projection is provided on at least two sides of the screen, and an engagement projection for engaging with the engagement groove is provided on the screen frame. 2. The engagement groove and the engagement protrusion are engaged so as to suppress or prevent movement of the screen in a direction in which a side provided with the engagement groove extends. The rear projection apparatus as described. The rear projection apparatus according to claim 1, wherein the engagement groove is disposed in a substantially intermediate portion on each of two or more sides of the screen. The rear projection device according to claim 1, wherein the engagement grooves are provided on an upper side and a lower side of the screen. The rear projection device according to claim 1, wherein the engagement grooves are provided on four sides of the screen. A cabinet having an opening opened in the front and having a reflection mirror mounted inside;
A projection main body that is housed inside the cabinet and projects image light toward the reflection mirror;
A substantially rectangular screen on which the image light reflected by the reflecting mirror is projected;
A screen frame that holds the screen and is attached to the front surface of the cabinet;
An engagement projection is provided on at least two sides of the screen, and an engagement recess that is engaged with the engagement projection is provided on the screen frame.

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