JP2017173572A - projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a projector for achieving reduction in size as well as projecting an image with high resolution.SOLUTION: A projector 1 includes: an optical unit 3 having an optical modulation device 351 and a projection optical device 36; a first circuit board 51 having a control unit; a second circuit board 52 having a drive unit for driving the optical modulation device 351 and connected to the first circuit board 51; and an exterior housing 2. The exterior housing 2 includes: a first housing 21; a second housing 22 disposed opposing to the first housing 21 to interpose an optical axis Ax, and together with the first housing 21, housing the optical unit 3 and the second circuit board 52; and a cover 25 attached to the first housing 21. The first circuit board 51 is disposed outside the first housing 21, on an opposite side to the inside where the optical unit 3 is housed; the second circuit board 52 is disposed opposing to the first circuit board 51 to interpose the optical unit 3; and the cover 25 is disposed to cover the first circuit board 51.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a projector.

2. Description of the Related Art Conventionally, there is known a projector including a light source, a light modulation device that modulates light emitted from the light source according to image information, and a projection optical device that projects light modulated by the light modulation device (for example, , See Patent Document 1).
In recent years, a projector is desired to project a high-resolution image and to be equipped with various connection terminals in order to diversify connections with external devices.

  The projector described in Patent Document 1 includes an optical unit, a board on which electronic components are mounted, and an exterior housing that houses the board and the optical unit. The exterior housing is provided with a top surface portion on one side in the thickness direction and a bottom surface portion on the other side, and an inclined surface that is inclined in the thickness direction of the exterior housing is formed on the top surface portion. The board is configured to include a main board and a driver board that mainly drives and controls the light modulation device. The main board is mounted with connection terminals for external connection, and the main board and the driver board are arranged to be inclined in substantially the same direction as the inclined surface.

JP 2013-41133 A

  However, in the technique described in Patent Document 1, if the driver board is enlarged to project a high-resolution image, or the main board is enlarged to increase the number of connection terminals mounted on the main board. Since the main board and the driver board are inclined, there is a problem that the product thickness increases.

  SUMMARY An advantage of some aspects of the invention is to solve at least a part of the problems described above, and the invention can be implemented as the following forms or application examples.

  Application Example 1 A projector according to this application example is a projector that projects an image, a light modulation device that modulates light emitted from a light source, and projection optics that projects light modulated by the light modulation device. An optical unit having a device, a first circuit board having a control unit for controlling the projector, a second circuit board having a driving unit for driving the light modulation device and connected to the first circuit board, An exterior housing that constitutes an exterior of the projector, the exterior housing being disposed opposite the first housing across the optical axis of the projection optical device, A first casing that houses the optical unit and the second circuit board; and a cover that is attached to the first casing. The first circuit board includes the first casing. The optical unit of the body The second circuit board is disposed with the optical unit in between the first circuit board and the cover is disposed on the first circuit board. It is characterized by being disposed over the substrate.

According to this configuration, the projector includes the first circuit board having the control unit and the second circuit board having the driving unit that drives the light modulation device, and the first circuit board and the second circuit board include the optical unit. It is arranged on the other side. Accordingly, it is possible to configure a drive unit that drives the light modulation device with high resolution, and it is possible to arrange the first circuit board and the second circuit board by effectively using the space in the exterior casing. Therefore, it is possible to provide a projector that projects a high-resolution image while reducing the size.
In addition, since the first housing is interposed between the optical unit and the first circuit board, the heat of the optical unit is hardly transmitted to the first circuit board. As a result, the performance of the first circuit board can be maintained over a long period of time, and the configuration for cooling the first circuit board can be simplified.

  Application Example 2 In the projector according to the application example, the projector includes a connection portion that electrically connects the first circuit board and the second circuit board, and the connection portion is inserted into the first housing. Preferably, the insertion hole is provided, and the cover covers the connection portion inserted through the insertion hole.

  According to this configuration, since the first housing is provided with the insertion hole through which the connection portion is inserted, the first circuit board and the second circuit board can be efficiently set while setting the length of the connection portion. As a result, it is possible to easily assemble them so that they are electrically connected. Further, since the cover covers the connection portion inserted through the insertion hole, the connection portion can be prevented from being exposed to the outside of the projector.

  Application Example 3 In the projector according to the application example described above, the projector further includes a support portion that supports the first circuit board, and the support portion includes an inner support portion that is disposed on the inner side of the first housing. The inner support portion has an attachment portion for attaching the first circuit board, and the first housing is formed with an exposure hole for exposing the attachment portion to the outside of the first housing. It is preferable.

  According to this configuration, since the first circuit board is supported by the inner support portion disposed inside the first housing in the same manner as the optical unit, the first circuit board can be easily assembled using screws or the like. Is possible.

  Application Example 4 In the projector according to the application example described above, it is preferable that the inner support portion is made of metal and supports the second circuit board.

  According to this configuration, since the inner support portion is made of metal, the first circuit board and the second circuit board can be reliably supported, the GND of the first circuit board and the second circuit board is strengthened, and noise is reduced. It becomes possible.

  Application Example 5 In the projector according to the application example, it is preferable that the inner support portion has a shape that holds the connection portion.

  According to this configuration, the operator who assembles the projector can connect the connecting portion to the first circuit board and the second circuit board after holding the connecting portion on the inner support portion. Therefore, the operation of connecting the first circuit board and the second circuit board can be easily performed.

  Application Example 6 In the projector according to the application example described above, a protrusion having a screw hole is provided on the outside of the first housing, and the first circuit board is inserted into the board through which the protrusion is inserted. It is preferable to have a hole.

  According to this configuration, the projector can project in a posture in which the protrusion is supported by the support in addition to the posture placed on the desk or the like. And since the 1st circuit board has a substrate penetration hole mentioned above, positioning using a projection part is attained. Therefore, the projector can project an image in various scenes and can easily assemble the first circuit board without providing a dedicated shape for positioning the first circuit board.

  Application Example 7 In the projector according to the application example, the projector includes a plurality of connection terminals for inputting / outputting information to / from an external device of the projector, and the first circuit board includes at least one of the plurality of connection terminals. Either one is preferably mounted.

According to this configuration, since the connection terminal is mounted on the first circuit board having the control unit, it is possible to reduce noise compared to a configuration in which the connection terminal is mounted on another circuit board. If a connection terminal to which a digital signal (for example, a digital video signal or the like) is input is used as the connection terminal mounted on the first circuit board, a particularly remarkable effect is obtained.
In addition, since the first housing is interposed between the optical unit and the first circuit board, it is possible to block light leaking toward the first circuit board. Therefore, it is possible to suppress light leakage to the outside of the projector from the gap or the vicinity of the connection terminal mounted on the first circuit board.

  Application Example 8 In the projector according to the application example, the projection optical apparatus includes a first optical system that refracts incident light, a second optical system that reflects light emitted from the first optical system, and And the second casing extends from the inclined portion to the opposite side of the second optical system in a direction along the optical axis, and allows the light reflected by the second optical system to pass therethrough. Preferably, the second circuit board is disposed so as to face the inner surface of the extending portion.

According to this configuration, since the projector includes the projection optical device having the above-described second optical system, the projector can be configured as a short focus projector.
The first circuit board is disposed on the side opposite to the side where the inclined portion of the outer casing is formed, and the second circuit board is an inner surface of the extending portion on the side where the inclined section of the outer casing is provided. It is arrange | positioned facing. As a result, the first circuit board and the second circuit board can be arranged in the exterior casing with a high space efficiency. Therefore, an increase in size (particularly an increase in the thickness of the projector (the size in the direction orthogonal to the extending portion)) can be suppressed, and a projector that projects a high-resolution image from a distance close to the projection surface can be provided.

FIG. 3 is a schematic diagram illustrating an example of a usage pattern of the projector according to the present embodiment. 1 is an external perspective view of a projector according to an embodiment. FIG. 2 is a perspective view showing an internal configuration of the projector according to the embodiment. The perspective view which looked at the projector of this embodiment from the lower part. 1 is a schematic diagram of a cross section of a projector according to an embodiment. The schematic diagram which shows schematic structure of the optical unit of this embodiment. Sectional drawing of the 1st housing | casing near the protrusion part of this embodiment, and a power supply device. The perspective view which looked at the projector of this embodiment from the lower part. It is a perspective view which shows a part in the exterior housing | casing of this embodiment, and is a figure which shows the relay board | substrate vicinity. The figure for demonstrating the main structures of the support part of this embodiment. The perspective view which looked at the connection part and support part of this embodiment from diagonally downward. The perspective view of the 2nd support part of the state holding the connection part of this embodiment.

Hereinafter, the projector according to the present embodiment will be described with reference to the drawings.
The projector according to the present embodiment is configured to be able to project an image on a projection surface such as a screen while being supported by a support installed on a wall surface or the like, or being placed on a desk or the like.
FIG. 1 is a schematic diagram illustrating an example of a usage pattern of the projector 1 according to the present embodiment. Specifically, FIG. 1 is a diagram schematically showing the projector 1 supported by the support Mt installed on the wall surface and the screen SC arranged on the wall surface.
As shown in FIG. 1, the projector 1 is installed above the screen SC, and projects an image onto the screen SC from the side facing downward.

  FIG. 2 is an external perspective view of the projector 1 according to the present embodiment, and is a diagram showing a state where the projector 1 is placed on a desk or the like (not shown). As shown in FIG. 2, when the projector 1 is placed on a desk or the like, the projector 1 projects an image in a posture (stationary posture) that is inverted from the posture shown in FIG. 1 (ceiling suspension posture). In the following, for convenience of explanation, in the stationary projector 1, the direction away from the projection plane is the forward direction (+ Y direction), the direction against gravity is the upward direction (+ Z direction), and the right side toward the projection plane is the right direction It is described as (+ X direction).

[Main components of the projector]
FIG. 3 is a perspective view showing an internal configuration of the projector 1 according to the present embodiment.
As shown in FIGS. 2 and 3, the projector 1 includes an exterior housing 2 constituting an exterior, an optical unit 3 having a light source device 31 and a projection optical device 36, an imaging device 4, a circuit device 5 having a control unit, a power supply A device 6 and a cooling device 7 are provided.

FIG. 4 is a perspective view of the projector 1 as viewed from below, in which a terminal frame 23 described later is removed and a cover 25 described later is disassembled. FIG. 5 is a schematic cross-sectional view of the projector 1 as viewed from the side.
Hereinafter, a description will be given with reference to FIGS.
The exterior housing 2 is configured by combining a plurality of synthetic resin members. As shown in FIGS. 2, 4, and 5, the corners on the −X side and the + Y side are cut from the rectangular shape in plan view. It has a shape provided with a recess 2X that is recessed as if it was cut off. The exterior housing 2 includes a first housing 21 that forms the lower side (−Z side), a second housing 22 that forms the upper side (+ Z side), and a terminal frame 23 that forms the −X side of the recess 2X. The lamp cover 24 for closing the opening for replacing the light source device 31 and the cover 25 attached to the first housing 21 are provided.

The first housing 21 has a bottom surface portion 21B (FIG. 4) that forms the lower side (−Z side). The bottom surface portion 21 </ b> B is provided with a plurality of leg portions 21 f that support the projector 1. Further, as shown in FIGS. 4 and 5, the bottom surface portion 21 </ b> B has a substrate placement portion 211 on which a part of the circuit device 5 (a first circuit substrate 51 and a fourth circuit substrate 54 described later) is disposed, and a plane. It has a rectangular shape in view and has a protruding portion 212 protruding downward. The first circuit board 51 and the fourth circuit board 54 are attached to the outside (−Z side) of the board placement portion 211.
The protrusion 212 is provided in the approximate center in the X direction in the vicinity of the −Y side end of the first housing 21, and an opening 212 h is formed on the −X side. The bottom surface portion 21B will be described later in detail.

As shown in FIG. 5, the second housing 22 is disposed to face the first housing 21 with the optical axis Ax of the projection optical device 36 interposed therebetween. As shown in FIGS. 2 and 5, the second housing 22 includes an upper surface portion 22U that faces the bottom surface portion 21B, a front surface portion 22F that forms front and rear side portions, a rear surface portion 22E, and left and right side portions, respectively. It has a left side portion 22L and a right side portion 22R to be formed.
As shown in FIG. 2, a recess 221 having inclined portions 221a and 221b is formed on the upper surface portion 22U closer to the front in the front-rear direction (+ Y direction).
The inclined portion 221a is located on the front surface portion 22F side of the inclined portion 221b, and is inclined so as to go in the -Z direction as it goes in the -Y direction. The inclined portion 221b is connected to the inclined portion 221a and is inclined so as to be directed to the + Z direction as it is directed to the -Y direction. The outer surfaces of the inclined portions 221a and 221b only have to be inclined as a whole, and may have irregularities as well as flat surfaces. Further, the −Y side of the inclined portion 221b in the upper surface portion 22U is defined as an extending portion 22Ua.

As shown in FIG. 2, a first opening 221c is formed in the inclined portion 221a, and a light transmitting member 22g is disposed in the first opening 221c. The light projected from the projection optical device 36 is transmitted through the light transmitting member 22g and projected onto the projection surface.
A second opening 221d is formed in the + X direction of the first opening 221c in the inclined portion 221a, and the imaging device 4 is disposed in the second opening 221d.
Further, an opening for exchanging the light source device 31 is formed in the upper surface portion 22U, and this opening is closed by the lamp lid 24.

  An opening is formed in the front portion 22F, and a filter 22i that transmits infrared rays and cuts visible light is provided in the opening. A light receiving device (not shown) that receives an infrared signal from a remote controller (not shown) is disposed inside the filter 22i. The light receiving device arranged inside the filter 22i is arranged so as to mainly receive infrared rays incident from the front of the projector 1, and the projector 1 mainly receives infrared rays incident from the rear. (Not shown) is also provided inside the inclined portion 221a.

As shown in FIG. 2, the terminal frame 23 is provided with a through hole through which a connection terminal 53 </ b> T (see FIG. 4) described later is exposed.
The left side surface portion 22L is provided with an exhaust port 2Ex for discharging warm air in the exterior housing 2. In addition, although illustration is abbreviate | omitted, the inlet (illustration omitted) which takes in external air is provided in the back (-Y direction) side of the right side part 22R.

  As shown in FIG. 4, the cover 25 covers the first circuit board 51 and the fourth circuit board 54 and is attached to the bottom surface portion 21 </ b> B. In the projector 1 in a stationary posture placed on a desk or the like, the cover 25 and the bottom surface portion 21B around the cover 25 face the desk.

The optical unit 3 optically processes and projects the light emitted from the light source device 31 under the control of the control unit.
FIG. 6 is a schematic diagram showing a schematic configuration of the optical unit 3.
As shown in FIG. 6, the optical unit 3 includes a light source device 31, an integrator illumination optical system 32, a color separation optical system 33, a relay optical system 34, an optical device 35, a projection optical device 36, and these optical components on the optical path. The optical component casing 37 is provided at a predetermined position.

  The light source device 31 includes a discharge-type light source 311, a reflector 312, a collimating lens 313, and the like composed of an ultra-high pressure mercury lamp, a metal halide lamp, or the like. The light source device 31 reflects the light emitted from the light source 311 by the reflector 312, aligns the emission direction by the collimating lens 313, and emits the light toward the integrator illumination optical system 32.

The integrator illumination optical system 32 includes a first lens array 321, a second lens array 322, a polarization conversion element 323, and a superimposing lens 324.
The first lens array 321 has a configuration in which small lenses are arranged in a matrix, and divides the light emitted from the light source device 31 into a plurality of partial lights. The second lens array 322 has substantially the same configuration as the first lens array 321, and together with the superimposing lens 324, the partial light is substantially superimposed on the surface of a liquid crystal panel described later. The polarization conversion element 323 has a function of aligning random light emitted from the second lens array 322 with substantially one type of polarized light that can be used in the liquid crystal panel.

  The color separation optical system 33 includes two dichroic mirrors 331 and 332, and a reflection mirror 333. The light emitted from the integrator illumination optical system 32 is red light (hereinafter referred to as “R light”), green light (hereinafter referred to as “light”). G light ”) and blue light (hereinafter referred to as“ B light ”).

  The relay optical system 34 includes an incident side lens 341, a relay lens 343, and reflection mirrors 342 and 344, and has a function of guiding the R light separated by the color separation optical system 33 to a liquid crystal panel for R light. The optical unit 3 has a configuration in which the relay optical system 34 guides the R light. However, the configuration is not limited thereto, and may be configured to guide the B light, for example.

The optical device 35 is a light modulation device 351 provided for each color light (the light modulation device for R light is 351R, the light modulation device for G light is 351G, and the light modulation device for B light is 351B), And a cross dichroic prism 352 as a color synthesizing optical device.
Each light modulation device 351 is connected to a transmissive liquid crystal panel, an incident side polarizing plate disposed on the light incident side of the liquid crystal panel, an emission side polarizing plate disposed on the light exit side of the liquid crystal panel, and the circuit device 5. Flexible substrate 351F (see FIG. 3), and modulates each color light according to image information.

  The cross dichroic prism 352 has a substantially square shape in plan view in which four right angle prisms are bonded together, and two dielectric multilayer films are formed on the interface where the right angle prisms are bonded together. In the cross dichroic prism 352, the dielectric multilayer film reflects R light and B light modulated by the light modulation devices 351R and 351B, and transmits G light modulated by the light modulation device 351G. Synthesize modulated light.

The projection optical device 36 enlarges and projects the light combined by the cross dichroic prism 352 on the screen.
As shown in FIGS. 5 and 6, the projection optical device 36 includes a first optical system 361, a second optical system 362 that reflects light emitted from the first optical system 361, and a projection that houses these optical systems. An optical device casing 363 is provided. The first optical system 361 has a plurality of lens groups and refracts the light synthesized by the cross dichroic prism 352. The second optical system 362 includes a concave reflecting mirror 3621 and reflects the light emitted from the first optical system 361 with a wide angle.

Thus, since the projection optical device 36 includes the first optical system 361 and the second optical system 362, the projector 1 is configured as a so-called short focus projector with a short projection distance. As shown in FIG. 1, in the projector 1 supported by the support Mt installed on the wall surface, the direction along the optical axis Ax is the Y direction, and the first optical system 361 uses a cross dichroic prism 352. The light incident side on which the combined light is incident is the -Y side, and the light emitting side (the second optical system 362 side) from which the light is emitted is the + Y side.
The inclined portion 221b of the exterior housing 2 is formed so as to allow the light reflected by the second optical system 362 to pass, and the light incident from the light emission side of the first optical system 361 toward the -Y direction. It is inclined so as to move away from the optical axis Ax.

  The imaging device 4 includes, for example, an imaging device (not shown) such as a charge coupled device (CCD) or a complementary metal oxide semiconductor (CMOS), images the projection plane, and outputs the captured information to the control unit. Further, the imaging device 4 detects light emitted from an pointing tool (for example, an electronic pen or the like) operated on the projection plane by the user, and outputs the detected information to the control unit. The control unit analyzes the position of the pointing tool based on the information output from the imaging device 4, and projects the locus of the pointing tool, for example, as an image represented by dots or lines based on the analysis result.

The circuit device 5 includes a plurality of circuit boards and electronic components such as a first circuit board 51 having a control unit and a second circuit board 52 connected to the first circuit board 51.
The control unit includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and functions as a computer, and is related to control of the operation of the projector 1, for example, image projection. Control and so on.

  As shown in FIG. 5, the first circuit board 51 is disposed below the optical unit 3, and the second circuit board 52 has a drive unit that drives the light modulation device 351, and is disposed above the optical unit 3. Is done. Thus, the first circuit board 51 and the second circuit board 52 are arranged with the optical unit 3 interposed therebetween. The first casing 21 accommodates the optical unit 3 and the second circuit board 52 together with the second casing 22, and the first circuit board 51 is an inner side where the optical unit 3 of the first casing 21 is accommodated. It is arranged on the opposite side. In other words, the first circuit board 51 is accommodated in the first housing 21 and the cover 25. The circuit device 5 will be described in detail later.

The power supply device 6 rectifies AC power supplied from an external commercial power supply via the power cable 6K (see FIG. 4) and outputs the rectified power to the light source device 31 and the circuit device 5.
The power supply device 6 includes an inlet connector 61 (see FIG. 7) disposed in the protruding portion 212 (see FIG. 4) of the first housing 21, and a filter portion 62 and a power supply block 63 as shown in FIG. Yes.
FIG. 7 is a cross-sectional view of the first housing 21 and the power supply device 6 in the vicinity of the protruding portion 212.
As shown in FIG. 7, the inlet connector 61 is disposed such that the tip connected to the power cable 6 </ b> K faces the opening 212 h side. The power cable 6K connected to the inlet connector 61 can be routed from the projector 1 in the −X direction.

The filter portion 62 is connected to the inlet connector 61 and is disposed above the inlet connector 61 as shown in FIG. The filter unit 62 includes a circuit board on which circuit elements are mounted, and cuts noise generated by AC power supplied from the outside.
The power supply block 63 is connected to the filter unit 62 and is disposed between the light source device 31 and the recess 2X as shown in FIG. The power supply block 63 rectifies and transforms the AC power output from the filter unit 62 and outputs it to the light source device 31 and the circuit device 5.

As shown in FIG. 3, the cooling device 7 includes an intake device 71 and an exhaust device 72.
The intake device 71 includes an intake fan and an intake duct 711 (not shown), takes in outside air from an intake port (not shown) of the exterior housing 2, and blows the taken-in outside air to a cooling target (such as the light modulation device 351).
The exhaust device 72 includes exhaust fans 721 and 722 arranged on the −X side of the light source device 31 and the power supply block 63, respectively, and exhausts warm air in the exterior housing 2 from the exhaust port 2Ex (see FIG. 2). .

[Configuration of the bottom surface of the first housing]
Here, the bottom surface portion 21B of the first housing 21 will be described in detail.
FIG. 8 is a perspective view of the projector 1 as viewed from below, with the cover 25, the first circuit board 51, the fourth circuit board 54, and the terminal frame 23 removed.
As shown in FIG. 8, the bottom surface portion 21B is provided with a bulging portion 213 and a hollow portion 214 in addition to the substrate placement portion 211, the protruding portion 212, and the leg portion 21f described above.
FIG. 9 is a perspective view showing a part in the exterior housing 2 and showing the vicinity of the bulging portion 213.
The bulging portion 213 is provided at a position corresponding to the reflection mirror 3621 (see FIG. 5) of the projection optical device 36. Specifically, as shown in FIGS. 8 and 9, the bulging portion 213 is formed in the central portion in the X direction in the vicinity of the + Y side end portion of the exterior housing 2 and has a shape that rises to the −Z side. Have.

The board placement unit 211 includes a first placement part 211A on which the first circuit board 51 is placed and a second placement part 211B on which the fourth circuit board 54 is placed.
The first arrangement portion 211A is provided between the protruding portion 212 and the bulging portion 213, and is formed up to the vicinity of the concave portion 2X in the -X direction. The second placement portion 211B is formed on the + X side of the first placement portion 211A.

The board placement portion 211 is formed with a first insertion hole 211e, a second insertion hole 211f, an exposure hole 211g, a terminal insertion hole 211h, and a protruding portion 211i protruding in a columnar shape.
The first insertion hole 211e is a hole through which a connecting portion 9F, which will be described later, is inserted, and as shown in FIG. 8, between the first arrangement portion 211A and the second arrangement portion 211B and as shown in FIG. , Formed on the −Y side of the bulging portion 213.
The second insertion hole 211f is a hole through which a connecting portion 9L described later is inserted. For example, as shown in FIG. 8, the second insertion hole 211f is provided at the −Y side end portion of the first arrangement portion 211A. Yes.
The exposure hole 211g is a hole for exposing a part of the support portion 8 described later, and a plurality of the exposure holes 211g are formed corresponding to the vicinity of the end portion of the first circuit board 51. For example, as illustrated in FIG. 8, the exposure hole 211 g includes two exposure holes 211 ga provided between the protruding portion 212 and the bulging portion 213, and one exposed hole 211 g provided on the −X side of the bulging portion 213. There are elongated exposure holes 211gb and the like.

The terminal insertion hole 211h is a hole through which a terminal portion 531 of the third circuit board 53 described later is inserted, and extends in the Y direction in the vicinity of the recess 2X as shown in FIG.
A plurality of protrusions 211i are provided with a screw hole in the center, and are used when the projector 1 is used in a ceiling suspension position (see FIG. 1).
As shown in FIG. 8, the protrusion 211i includes a protrusion 211ia provided in the vicinity of the terminal insertion hole 211h, a protrusion 211ib provided in the −Y direction of the protrusion 211ia, and the + X of the first arrangement portion 211A. A plurality are provided on the side. Further, a rib 211ir protruding in the + Y direction is formed on the side surface of the protrusion 211ib.

The recess 214 is provided on the −X side of the first placement portion 211A, is recessed from the first placement portion 211A, and is formed in a rectangular shape in plan view.
The leg portion 21f is formed outside the substrate placement portion 211 on the bottom surface portion 21B.

  As shown in FIG. 4, the cover 25 has a round hole 251 through which the plurality of protrusions 211 i are inserted, and is fixed to the first housing 21 with screws.

[Configuration of circuit device]
Next, the circuit device 5 will be described in detail.
In addition to the first circuit board 51 and the second circuit board 52, the circuit device 5 includes a third circuit board 53, a fourth circuit board 54 (see FIG. 4), an operation panel 55, a speaker 56, as shown in FIG. The relay board 57, the connection part 9, and the support part 8 (refer FIG. 10) are provided.

As described above, the first circuit board 51 has the control unit, and is arranged in the first arrangement unit 211A in the board arrangement unit 211 of the first housing 21 as shown in FIGS.
As shown in FIG. 5, the first circuit board 51 extends from below the first optical system 361 to the vicinity of the bulging portion 213. As shown in FIG. 4, the first circuit board 51 has a board insertion hole 511 through which the protruding portion 211 ia is inserted and an end face close to the rib 211 ir.

The first circuit board 51 has a connection terminal 51T for inputting / outputting information with an external device (for example, a personal computer, a video playback device, a DVD playback device, etc.) mounted on the −X side end. Yes. Examples of the connection terminal 51T include a DVI terminal to which a digital video signal is input, an HDMI (registered trademark) terminal, and the like. And these connection terminals 51T arrange | positioned along a Y direction are located in the -Z side of the hollow part 214 and the terminal frame 23 (refer FIG. 2), as shown in FIG. The recess 214 is separated from the connection terminal 51T so that the operator can operate the connection terminal 51T to detach the cable.
Further, the first circuit board 51 is attached with a sheet metal 51P provided with a hole through which the connection terminal 51T is exposed.

  As shown in FIG. 5, the second circuit board 52 is located above the optical unit 3 on the −Y side of the inclined portion 221 b, that is, in the direction along the optical axis Ax, from the inclined portion 221 b to the second optical system 362. It arrange | positions facing extension part 22Ua extended in the opposite direction. The second circuit board 52 extends in the −Y direction from the first circuit board 51. As shown in FIG. 3, the second circuit board 52 is provided with a hole through which the flexible board 351F of the light modulation device 351 is inserted. The flexible board 351F is a connector (on the upper surface of the second circuit board 52). (Not shown).

  The third circuit board 53 is mounted with a plurality of connection terminals 53T for inputting / outputting information to / from an external device of the projector 1, and is arranged inside the terminal frame 23 as shown in FIG. The connection terminal 53T includes an S video terminal to which a composite video signal is input, a D terminal to which a component video signal is input, a terminal to which an audio signal or the like can be input, and a wireless device that performs wireless communication with an external device. There are terminals to be connected.

  As shown in FIG. 8, the third circuit board 53 has a terminal portion 531 in which wiring patterns connected to the first circuit board 51 are gathered. As shown in FIG. 8, the third circuit board 53 is supported by a sheet metal 53P provided with a hole through which the connection terminal 53T is exposed, the connection terminal 53T faces the -X side, and the terminal portion 531 has a terminal insertion hole. 211h is inserted and arranged. The third circuit board 53 is arranged such that the connection terminal 53T is positioned on the + Z side of the connection terminal 51T of the first circuit board 51.

  Thus, since the connection terminals 51T and 53T are arranged on one side (−X side) of the projector 1, cables (not shown) connected to the connection terminals 51T and 53T are also connected from the projector 1 to one side. It can be routed. In addition, the power cable 6K can be routed in the −X direction as with other cables. Although not shown, the projector 1 includes a cable cover that can be attached to and detached from the recess 2X, and the cables connected to the connection terminals 51T and 53T are gathered from the opening provided in the cable cover and are placed outside the projector 1. Is issued.

  As shown in FIGS. 4 and 8, the fourth circuit board 54 is arranged on the second arrangement part 211 </ b> B in the board arrangement part 211 of the first housing 21. Further, a shield plate 541 is disposed on the −Z side of the fourth circuit board 54. The fourth circuit board 54 converts the digital signal inputted by radio so that it can be processed by the control unit, and outputs it to the control unit.

As shown in FIG. 3, the operation panel 55 is disposed closer to the front (+ Y direction) of the right side surface portion 22 </ b> R. The operation panel 55 includes a plurality of operation keys operated by a user, a circuit board on which switches corresponding to the operation keys are mounted, and the like, and outputs an operation signal corresponding to a user operation content to the control unit.
The speaker 56 is disposed between the intake duct 711 (see FIG. 3) and the upper surface portion 22U. Note that, as shown in FIG. 2, a sound emission hole 22 </ b> S corresponding to the position of the speaker 56 is formed in the upper surface portion 22 </ b> U.

As shown in FIG. 9, the relay substrate 57 is attached to the upper part of the projection optical device housing 363 on the + Y side, and is an electronic component (two light receiving devices (not shown) or the like) attached to the second housing 22. Wiring is gathered and the electrical connection with the first circuit board 51 is relayed.
An input side connector 571 to which a cable (not shown) connected to an electronic component is connected and an output side connector 572 to which the connection unit 9 is connected are mounted on the relay board 57. As described above, since the wiring of the plurality of electronic components attached to the second housing 22 is collected on the relay substrate 57, the assembly workability of the second housing 22 to the first housing 21 becomes easy. Yes.

The connection unit 9 electrically connects the first circuit board 51 to other circuit boards and electronic components (intake fans, exhaust fans 721 and 722, temperature sensors not described), and the like.
The connection unit 9 includes a connection unit 9F configured with a flexible flat cable and a connection unit 9L configured with a lead wire. Note that the connecting portion 9F has a shield member that covers the signal line for noise reduction.

The connection portion 9F has connection portions 9Fa, 9Fb, 9Fc, and 9Fd.
As shown in FIG. 8, two connection portions 9Fa are inserted into the first insertion hole 211e located between the first arrangement portion 211A and the second arrangement portion 211B, and the first circuit board 51 and The second circuit board 52 is connected.
As shown in FIG. 4, two connection portions 9 </ b> Fb are provided to connect the first circuit board 51 and the fourth circuit board 54.
As shown in FIG. 9, the connection portion 9Fc is inserted into the first insertion hole 211e located on the −Y side of the bulging portion 213, and connects the first circuit board 51 and the operation panel 55.
As shown in FIG. 9, the connection portion 9Fd is inserted into the first insertion hole 211e and connects the first circuit board 51 and the relay board 57, similarly to the connection portion 9Fc. In FIG. 9, a portion inserted through the first insertion hole 211e in the connection portion 9Fd is omitted.

  As illustrated in FIG. 4, the connection portion 9 </ b> L is inserted through the second insertion hole 211 f and connects the first circuit board 51 and the electronic component. Although not shown, the connection portion 9L is held in the vicinity of the second insertion hole 211f by engagement with another member, tape, or the like, and the operator connects the connection portion 9L to the second insertion hole. It is configured so that it can be easily inserted into 211f.

The support unit 8 supports the first circuit board 51 and the second circuit board 52.
FIG. 10 is a diagram for explaining the main configuration of the support portion 8, and the second circuit board 52, the connection portion 9 Fa, and the support portion 8 arranged inside the first housing 21 are viewed obliquely from above. It is a perspective view. FIG. 11 is a perspective view of the connection portion 9Fa and the support portion 8 as viewed from obliquely below.
As shown in FIGS. 10 and 11, the support portion 8 includes a first support member 81, a second support member 82, a third support member 83, and a fourth support member 84 and a fifth support as shown in FIG. A member 85 is provided. The first support member 81 to the fifth support member 85 are formed from sheet metal by press working. The first support member 81, the second support member 82, and the third support member 83 are disposed inside the first housing 21 and correspond to an inner support portion. The fourth support member 84 and the fifth support member 85 are disposed outside the first housing 21.

The first support member 81 has a base portion 811 located below the second circuit board 52 and a standing portion 812 that is bent from the base portion 811 and extends toward the bottom surface portion 21B. The second circuit board 52 is fixed to the base portion 811 with screws.
As shown in FIG. 10, the second support member 82 is disposed on the + X side of the second circuit board 52, and a part thereof is screwed to the bottom surface portion 21 </ b> B together with the first support member 81. The second support member 82 has a function of holding the two connection portions 9Fa.

FIG. 12 is a perspective view of the second support member 82 in a state where the two connection portions 9Fa are held.
As shown in FIG. 12, the second support member 82 is bent from the base portion 821, the standing portion 822 bent from the base portion 821, and the standing portion 822, and extends to the side opposite to the base portion 821. It has a bent portion 823 and the cross section is formed in a crank shape. Then, two connection portions 9Fa are respectively inserted into the vicinity of the standing portion 822 of the base portion 821, the corner portion of the standing portion 822 and the bent portion 823, and the bent portion 823, and holding holes 82h for holding the respective connecting portions 9Fa. Is formed.

  As shown in FIG. 10, the second support member 82 holding the two connection portions 9Fa has a bent portion 823 positioned on the + Z side of the base portion 821, and the two connection portions 9Fa are connected to the second circuit board 52. Arranged along the + X side end. It should be noted that a specific portion of the connecting portion 9Fa (for example, a portion located in the holding hole 82h of the bent portion 823 in the connecting portion 9Fa) is marked so as to protrude from the base portion 821 of the connecting portion 9Fa or the bent portion 823. Therefore, the connection portion 9Fa to the first circuit board 51 and the second circuit board 52 can be easily connected while being held by the second support member 82.

  Further, as shown in FIGS. 11 and 12, the second support member 82 has column portions 824 and 825 bent from the base portion 821 in the direction opposite to the standing portion 822, and the column portions 824 and 825. Further bent portions 824a and 825a are formed at the respective tip portions. The attachment portions 824a and 825a have screw holes and are exposed through two exposure holes 211ga provided between the protruding portion 212 and the bulging portion 213 of the first housing 21 as shown in FIG. . Specifically, the attachment portion 824a is located on the −Y side of the attachment portion 825a.

  As shown in FIG. 10, the third support member 83 is disposed on the + X side of the sheet metal 53 </ b> P, and is electrically connected to the first support member 81 and the second support member 82 by a sheet metal that is not described. As shown in FIG. 11, the third support member 83 has a bent portion 831 along the XY plane on the −Z side, and two sides having screw holes on both sides in the Y direction of the bent portion 831. A mounting portion 832 is formed. As shown in FIG. 8, the two attachment portions 832 are exposed from the exposure holes 211 gb provided on the −X side of the bulging portion 213.

The fourth support member 84 and the fifth support member 85 have a function of supporting the first circuit board 51 and a function of reducing noise.
As shown in FIG. 8, the fourth support member 84 is formed in an elongated shape, and is disposed along the −Y side end portion of the first placement portion 211 </ b> A. On the fourth support member 84, protrusions 841, 842, and 843 protruding from the + Y side in the short direction are sequentially formed in the −X direction. Of the protrusions 841, 842, and 843, the protrusion 841 positioned closest to the + X side has a screw insertion hole and is stacked on the attachment portion 824 a (see FIG. 11) exposed from the exposure hole 211 ga. The protrusions 842 and 843 have screw holes, and restricting portions 842a and 843a bent toward the first placement portion 211A are provided at the respective tip portions. The restricting portions 842a and 843a are set to have a slight gap with respect to the first arrangement portion 211A. The fourth support member 84 is formed with a notch that opens the second insertion hole 211f between the protrusion 842 and the protrusion 843.

  As shown in FIG. 8, the fifth support member 85 is formed in a long shape and is disposed on the + Y side of the two connection portions 9 </ b> Fa. The fifth support member 85 is formed with protrusions 851 and 852 that protrude from the −X side in the short direction. The protrusion 851 has a screw insertion hole and is stacked on the attachment portion 825a (see FIG. 11) exposed from the exposure hole 211ga.

The first circuit board 51 has a connector (not shown) for the third circuit board 53 mounted on the surface on the + Z side. The first circuit board 51 is disposed with the protrusion 211 ia inserted into the board insertion hole 511, the rotation is restricted by the rib 211 ir and positioned, and the terminal part 531 is connected to the connector for the third circuit board 53. The The first circuit board 51 is screwed to the mounting portions 824a, 825a, 832 and the protruding portions 842, 843, 852 exposed from the exposure holes 211ga, 211gb. In addition, since the restricting portions 842a and 843a are provided on the projecting portions 842 and 843, bending of the projecting portions 842 and 843 is suppressed at the time of screw tightening, and the first circuit board 51 is securely attached to the projecting portions 842 and 843 Screwed.
Thus, the second circuit board 52 is supported by the support portion 8 from the inside of the first housing 21, and the first circuit board 51 is supported by the support portion 8 from the outside of the first housing 21.

As described above, according to the present embodiment, the following effects can be obtained.
(1) The projector 1 includes a first circuit board 51 having a control unit, and a second circuit board 52 having a driving unit that drives the light modulation device 351. The first circuit board 51 and the second circuit board 52 are The optical unit 3 is disposed therebetween. As a result, even if the drive unit that drives the light modulation device 351 with high resolution is mounted on the second circuit board 52 and the second circuit board 52 is enlarged, the space in the exterior housing 2 is effectively used. It becomes possible to arrange the first circuit board 51 and the second circuit board 52. Therefore, it is possible to provide the projector 1 that projects a high-resolution image while reducing the size.
Further, since the first housing 21 is interposed between the optical unit 3 and the first circuit board 51, the heat of the optical unit 3 having the light source 311 is not easily transmitted to the first circuit board 51. As a result, the performance of the first circuit board 51 can be maintained over a long period of time, and the configuration for cooling the first circuit board 51 can be simplified.

  (2) Since the first housing 21 is provided with the first insertion hole 211e and the second insertion hole 211f, the first circuit board is set while efficiently setting the lengths of the connection portions 9F and 9L. It is possible to easily assemble 51 to electrically connect the first circuit board 51 and the second circuit board 52 connected to the first circuit board 51. Moreover, since the cover 25 covers the connection portions 9F and 9L inserted through the first insertion hole 211e and the second insertion hole 211f, the connection portions 9F and 9L can be prevented from being exposed to the outside of the projector 1.

  (3) The second support member 82 and the third support member 83 (inner support portion) of the support portion 8 are arranged inside the first housing 21 and are attached to the attachment portions 824a and 825a for attaching the first circuit board 51. 832, and the attachment portions 824 a, 825 a, and 832 are exposed to the outside of the first housing 21 through the exposure holes 211 ga and 211 gb of the first housing 21. The first circuit board 51 is fixed to the support portion 8 by mounting portions 824 a, 825 a, and 832, and is fixed to the outside of the first housing 21. Since the first circuit board 51 is supported by the second support member 82 and the third support member 83 (inner support part) disposed inside the first housing 21 similarly to the optical unit 3, the first circuit board 51 51 can be easily assembled.

  (4) The first support member 81 (inner support portion) of the support portion 8 supports the second circuit board 52 with the base portion 811, and also supports the support portion 8 (first support member 81, second support member 82, second 3) The support member 83) is made of metal, so that the first circuit board 51 and the second circuit board 52 can be reliably supported, the GND of the first circuit board and the second circuit board can be strengthened, and noise can be reduced. It becomes possible.

  (5) The second support member 82 has a shape that holds the connection portion 9Fa and is held in the vicinity of the standing portion 822 of the base portion 821, the corner portion of the standing portion 822 and the bent portion 823, and the bent portion 823. Since the hole 82h is formed, the operator who assembles the projector 1 holds the connection portion 9Fa on the second support member 82, and then connects the connection portion 9Fa to the first circuit board 51 and the second circuit board 52. Can be made. Therefore, the work of connecting the first circuit board 51 and the second circuit board 52 can be easily performed, and the assemblability of the projector 1 can be improved.

  (6) The first circuit board 51 is positioned and disposed using the projection 211ia for the ceiling suspension posture. Thereby, the projector 1 can be suspended from the ceiling in addition to the stationary posture, and can position the first circuit board 51 without providing a dedicated shape for positioning the first circuit board 51. The first circuit board 51 can be easily assembled.

(7) Since the connection terminal 51T is mounted on the first circuit board 51, noise can be reduced as compared with a configuration in which the connection terminal 51T is mounted on another circuit board.
Further, since the first housing 21 is interposed between the optical unit 3 and the first circuit board 51, it is possible to block light leaking toward the first circuit board 51. Therefore, light leakage from the gap or the vicinity of the connection terminal 51T mounted on the first circuit board 51 to the outside of the projector 1 can be suppressed.

(8) Since the projector 1 includes the projection optical device 36 having the second optical system 362, the projector 1 can be configured as a short focus projector.
The first circuit board 51 is disposed on the bottom surface portion 21B side of the exterior housing 2, and the second circuit board 52 is disposed to face the inner surface of the extending portion 22Ua of the exterior housing. As a result, the first circuit board 51 and the second circuit board 52 can be disposed in the exterior housing 2 with high space efficiency. Therefore, it is possible to provide the projector 1 that suppresses an increase in size (particularly an increase in the thickness (size in the Z direction) of the projector 1) and projects a high-resolution image from a distance close to the projection surface.

(Modification)
In addition, you may change the said embodiment as follows.
Although the projector 1 of the embodiment includes the projection optical device 36 having the second optical system 362, the projector 1 may be configured without the second optical system 362.

  Although the support part 8 of the said embodiment is comprised with the member formed with the sheet metal, the structure which has the member shape | molded with the molten metal may be sufficient.

  In the embodiment, the connection portion 9Fa that connects the first circuit board 51 and the second circuit board 52 is configured to be held by the support portion 8, but the other connection portion 9 (the connection portion 9F is connected to the connection portion 9F). The connecting portion 9 </ b> L) may be held by the support portion.

The projector 1 according to the embodiment includes the connection terminals 51T and 53T mounted on the first circuit board 51 and the third circuit board 53, respectively, as connection terminals for inputting / outputting information to / from an external device. All the connection terminals may be mounted on the first circuit board 51.
Further, if the first circuit board 51 and the second circuit board 52 are provided as circuit boards included in the circuit device 5, other circuit boards (a third circuit board 53, a fourth circuit board 54, and a relay board 57) are provided. There may be no configuration.

  In the projector 1 of the embodiment, a transmissive liquid crystal panel is used as the light modulation device 351. However, a reflective liquid crystal panel may be used. Further, a micromirror type light modulation device such as a DMD (Digital Micromirror Device) may be used as the light modulation device.

  The light modulation device 351 of the above embodiment employs a so-called three-plate method that uses three light modulation devices 351R, 351G, and 351B corresponding to R light, G light, and B light. A single plate method may be adopted, or the invention can be applied to a projector including two or four or more light modulation devices.

  The light source device 31 of the embodiment employs the discharge-type light source 311, but may be composed of other types of light sources, solid-state light sources such as light emitting diodes and lasers.

  DESCRIPTION OF SYMBOLS 1 ... Projector, 2 ... Exterior housing, 3 ... Optical unit, 5 ... Circuit apparatus, 8 ... Support part, 9, 9F, 9Fa, 9Fb, 9Fd, 9Fd, 9L ... Connection part, 21 ... 1st housing | casing, 22 ... 2nd housing, 22Ua ... Extension part, 25 ... Cover, 31 ... Light source device, 36 ... Projection optical device, 51 ... 1st circuit board, 51T, 53T ... Connection terminal, 52 ... 2nd circuit board, 81 ... First support member (inner support part), 82 ... second support member (inner support part), 82h ... holding hole, 83 ... third support member (inner support part), 84 ... fourth support member, 85 ... fifth Support member, 211e ... first insertion hole, 211f ... second insertion hole, 211g, 211ga, 211gb ... exposed hole, 211ia ... projection part, 221b ... inclined part, 311 ... light source, 351, 351B, 351G, 351R ... Light modulation device, 361, first optical , 362 ... second optical system, 511 ... substrate insertion hole, 824a, 825a ... attaching portion, Ax ... optical axis.

Claims (8)

A projector that projects an image,
An optical unit having a light modulation device that modulates light emitted from a light source, and a projection optical device that projects light modulated by the light modulation device;
A first circuit board having a control unit for controlling the projector;
A second circuit board having a driving unit for driving the light modulation device and connected to the first circuit board;
An exterior casing constituting the exterior of the projector;
With
The outer casing is
A first housing;
A second casing disposed opposite to the first casing across the optical axis of the projection optical apparatus, and housing the optical unit and the second circuit board with the first casing;
A cover attached to the first housing,
The first circuit board is disposed on an outer side opposite to an inner side in which the optical unit of the first casing is accommodated,
The second circuit board is disposed with the optical unit interposed between the first circuit board and the second circuit board.
The projector is characterized in that the cover is disposed to cover the first circuit board. The projector according to claim 1,
A connection portion for electrically connecting the first circuit board and the second circuit board;
The first housing is provided with an insertion hole through which the connection portion is inserted,
The projector covers the connection portion inserted through the insertion hole. The projector according to claim 1 or 2, wherein
A support portion for supporting the first circuit board;
The support portion has an inner support portion disposed on the inner side of the first housing,
The inner support portion has an attachment portion for attaching the first circuit board,
An exposure hole is formed in the first housing to expose the mounting portion to the outside of the first housing. The projector according to claim 3,
The projector is characterized in that the inner support portion is made of metal and supports the second circuit board. The projector according to claim 3 or 4, wherein
The projector according to claim 1, wherein the inner support portion has a shape for holding the connection portion. It is a projector as described in any one of Claims 1-5, Comprising:
A protrusion having a screw hole is provided on the outside of the first housing,
The projector according to claim 1, wherein the first circuit board has a board insertion hole through which the protrusion is inserted. It is a projector as described in any one of Claims 1-6, Comprising:
A plurality of connection terminals for inputting / outputting information to / from an external device of the projector,
The projector having at least one of the plurality of connection terminals mounted on the first circuit board. It is a projector as described in any one of Claims 1-7, Comprising:
The projection optical device includes:
A first optical system that refracts incident light;
A second optical system that reflects the light emitted from the first optical system,
The second casing has an inclined portion that allows light reflected by the second optical system to pass therethrough, and an extension that extends from the inclined portion to the opposite side of the second optical system in a direction along the optical axis. Part
The projector according to claim 1, wherein the second circuit board is disposed to face an inner surface of the extending portion.

Images