JP2012053116A - Projector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a projector capable of suppressing a connection error, entanglement, catching, falling out or the like of cables while facilitating cable connection work and reducing man-hours in an assembly process of upper and lower cases.SOLUTION: A projector 1 comprises: an exterior case 2 having an upper case 3 and a lower case 4 and accommodating an optical unit 5 of the projector 1 therein; an indicator section 20, an operation signal receiver 22, a control panel 24 and a lens cover open/close detector 26 which are disposed in the upper case 3; and a control board 10 for controlling operation of the projector 1. The indicator section 20 is electrically connected to the control board 10. The operation signal receiver 22, the control panel 24 and the lens cover open/close detector 26 are electrically connected to the control board 10 through the indicator section 20.

Description

  The present invention relates to a projector.

In general, a projector is an optical unit that modulates and projects a light beam, an operation panel for a user to operate, an indicator unit that notifies a user of an operation state, and an operation signal from a remote controller (hereinafter referred to as a remote controller for short). Receiving unit, a control board that performs overall control thereof, an outer case that includes an upper case and a lower case and that houses a projector main body.
In many cases, the optical unit and the control board are attached to the lower case. Electronic component units such as an operation panel, an indicator unit, and a receiving unit are attached to the upper case and are electrically connected to the control board via cables. Therefore, when assembling the projector, the lower case side control board and the upper case side operation panel, indicator unit, receiving unit, etc. are individually connected with a plurality of cables. There was a problem that there was a possibility that the connection destination was wrong.

  In contrast, a projector having a configuration in which the wiring between the main board (control board) attached to the lower side of the housing and the key operation board (operation panel) attached to the upper side of the housing is eliminated. It has been proposed (see, for example, Patent Document 1). The projector described in Patent Document 1 includes a solar cell for photoelectrically converting light from the light source lamp, supplies power from the solar cell to the key operation board unit, and transmits control signals by infrared communication with the control board. By performing transmission / reception, wiring between the main board and the key operation board is unnecessary.

JP 2005-195727 A

  However, the projector described in Patent Document 1 is based on the premise that power is supplied from the solar cell to the key operation board, and there is no mention of an indicator unit, a reception unit, or the like other than the key operation board. Therefore, in the projector in which the control board on the lower case side and the plurality of electronic component units on the upper case side are electrically connected as in the prior art, the above-described problems cannot be solved.

  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 includes an upper case and a lower case, an exterior case that houses therein an optical unit that modulates and projects a light beam, and a plurality of cases fixed to the upper case. An electronic component unit; and a control board fixed to the lower case and having a control unit that controls the operation of the projector, wherein the plurality of electronic component units are electrically connected to the control board. The electronic component units other than the first electronic component unit are electrically connected to the control board via the first electronic component unit.

  According to this configuration, the first electronic component unit disposed in the upper case and the control board fixed to the lower case are electrically connected, and the electronic component units other than the first electronic component are the first. It is electrically connected to the control board via the electronic component unit. This makes it easier to connect the cables in the assembly process of the projector than when connecting a plurality of electronic component units arranged in the upper case individually to the control board via cables. It is possible to reduce the occurrence of cable connection errors, entanglement, pinching, and disconnection. In addition, since a connecting portion for connecting these cables to the control board is not necessary, an increase in the size of the control board can be avoided.

  Application Example 2 In the projector according to the application example described above, it is preferable that the first electronic component unit is disposed on a side surface side of the upper case.

  According to this configuration, since the first electronic component unit is arranged on the side surface side of the upper case, the operation of connecting the cable to the first electronic component unit can be performed on the side surface side of the exterior case, so that the operation is easy. Become.

  Application Example 3 In the projector according to the application example described above, it is preferable that the power consumption of the first electronic component unit is the largest among the power consumptions of the plurality of electronic component units.

  According to this configuration, the power consumption of the first electronic component unit is the largest among the electronic component units. If the power consumption is larger, the value of the flowing current becomes larger, so that the width of the wiring pattern of the board in the electronic component unit needs to be increased. Therefore, if the connection to the control board is relayed by the first electronic component unit having the largest value of the flowing current, it is not necessary to provide a wiring pattern having a large width for the relay on the board of the other electronic component unit. The enlargement of these electronic component units can be avoided.

1 is a perspective view showing a projector according to an embodiment. 1 is an exploded perspective view of a projector according to an embodiment. The schematic diagram which shows schematic structure of the optical unit which concerns on this embodiment. FIG. 3 is a schematic diagram showing cable connection of the projector according to the embodiment.

  An embodiment of the present invention will be described below with reference to the drawings. In each of the drawings to be referred to, the dimensional ratios, angles, and the like of the respective constituent elements are appropriately changed for easy understanding of the configuration.

<External configuration of projector>
First, the external configuration of the projector according to the present embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 is a perspective view showing a projector according to the present embodiment. Specifically, FIG. 1A is a perspective view of the projector 1 viewed from the upper front side, and FIG. 1B is a perspective view of the upper case 3 viewed from the lower rear side. FIG. 2 is an exploded perspective view of the projector according to the present embodiment.

  In the following drawings and description, the traveling direction of the light beam emitted from the projection optical device 6 is defined as the X direction, the horizontal direction out of the directions orthogonal to the X direction, and the right direction when viewed from the + X side is defined as Y. The direction. Furthermore, the Z direction is defined as the upward direction perpendicular to the X direction and the Y direction and in the stationary posture. That is, the directions indicated by X, Y, and Z are orthogonal to each other. Further, the + X side (light beam emission side) is referred to as a front surface, and the opposite side is referred to as a back surface. Then, the + Z side (the upper side in the stationary posture) is called a top surface, and the opposite side is called a bottom surface. The ± Y side is called a side surface.

  The projector 1 according to the present embodiment is an electronic device that modulates a light beam emitted from a light source in accordance with image information and enlarges and projects it on a projection surface such as a screen. As shown in FIG. 1A, the projector 1 includes an exterior case 2 that houses an optical unit 5 (see FIGS. 2 and 3).

  The exterior case 2 is a casing made of, for example, a synthetic resin, and includes an upper case 3 and a lower case 4. The upper case 3 constitutes the top surface, part of the front surface, part of the back surface, and part of the side surface of the projector 1. The lower case 4 constitutes the bottom surface, part of the front surface, part of the back surface, and part of the side surface of the projector 1. The exterior case 2 is not limited to being made of synthetic resin, and may be composed of other materials such as metal.

  As shown in FIG. 2, the apparatus main body of the projector 1 includes an indicator unit 20, an operation signal receiving unit 22, an operation panel 24, a lens cover open / close detection unit 26, a control board 10, an optical unit 5 including a projection optical device 6, a cooling unit. Part 7, power supply part 8 and the like.

  In the lower case 4, the optical unit 5, the cooling unit 7, and the power supply unit 8 are fixed at predetermined positions, and the control board 10 is disposed and fixed on the optical unit 5. The upper case 3 is disposed above the lower case 4 so as to cover the above-described devices, and is fixed to the lower case 4 with screws or the like.

  The cooling unit 7 includes a fan and a duct for intake and exhaust, and takes in and distributes cooling air for cooling the inside of the projector 1 from the outside. Discharge to the outside. The power supply unit 8 converts a commercial power supply (AC power supply) outside the projector 1 into a DC voltage having a predetermined voltage, and supplies power to each unit constituting the projector 1.

  The control board 10 includes a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), and the like, and includes a control unit that controls the operation of the projector 1 by operating according to a control program. The control board 10 appropriately outputs a control instruction to each unit of the projector 1 including the indicator unit 20 based on signals transmitted from the operation signal receiving unit 22, the operation panel 24, the lens cover open / close detection unit 26, and the like.

  The control board 10 includes a connection portion 11, and one end portion 13 a of the cable 13 is connected to the connection portion 11. The connection part 11 is comprised with a connector, for example, and the cable 13 is comprised with a flexible flat cable (FFC), for example. The control board 10 is electrically connected to the indicator unit 20 by a cable 13. The control board 10 is further connected to the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 via the indicator unit 20.

  The upper case 3 is provided with an opening 3a, an opening 3b, an opening 3c, an opening 3d, an opening 3e, and an opening 3f. The opening 3a is for passing the light beam emitted from the projection optical device 6, and the opening 3b is for exposing the adjusting portion 6a of the projection optical device 6. Further, the opening 3c is the operation unit 25a of the lens cover 25, the opening 3d is the receiving element 22a of the operation signal receiving unit 22, the opening 3e is the operation key 24a of the operation panel 24, and the opening 3f is the indicator unit 20. The LEDs 20a are exposed.

  As shown in FIGS. 1A and 1B, the upper case 3 includes an indicator unit 20, an operation signal receiving unit 22, an operation panel 24, a lens cover 25, a lens cover open / close detection unit 26, A lens cover holding portion 27 (see FIG. 2) is attached. In the present embodiment, the indicator unit 20, the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 attached to the upper case 3 are collectively referred to as an electronic component unit. The indicator unit 20 corresponds to the first electronic component unit of the present invention.

  The indicator unit 20 is disposed on the side surface side of the top surface of the upper case 3. The indicator unit 20 includes a plurality of LEDs 20a (light emitting diodes) and an LED circuit board 20b on which the LEDs 20a are mounted. The indicator unit 20 appropriately switches the lighting, blinking, extinguishing, emission color, and the like of the LED 20a based on the lighting signal from the control board 10, thereby allowing the user to operate the projector 1 (on state, standby state, abnormality occurrence, etc.). Is notified.

  The indicator unit 20 includes a connecting portion 12a, and the other end portion of the cable 13 connected to the control board 10 is connected to the connecting portion 12a. The connection part 12a is comprised with a connector, for example. The indicator unit 20 is electrically connected to the control board 10. A control signal and power from the power supply unit 8 are supplied from the control board 10 to the indicator unit 20 via the cable 13. The power consumption of the indicator unit 20 includes a plurality of LEDs 20a, and is the electronic component unit with the highest power consumption among the electronic component units attached to the upper case 3.

  The indicator unit 20 also serves as a relay member that relays the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 and the control board 10. Therefore, the indicator unit 20 includes connection portions 12b, 12c, and 12d configured by connectors, for example, and the LED circuit board 20b further has a wiring pattern that connects each of the connection portions 12b, 12c, and 12d and the connection portion 12a. I have. The cable 14 is connected to the connecting portion 12b, the cable 15 is connected to the connecting portion 12c, and the cable 16 is connected to the connecting portion 12d. In addition to the wiring that electrically connects the indicator unit 20 and the control board 10, the cable 13 connects the control signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 to the control board 10. Wiring for electrical connection is provided.

  In addition, since the relay member is disposed on the side surface side, the operation of connecting the cable 13 to the connection portion of the relay member can be performed on the side surface side of the upper case 3 and the lower case 4, so that the relay member is disposed in the center portion. In comparison, the operation of connecting the cable 13 becomes easier. Thereby, workability in assembling and disassembling the projector 1 is improved.

  Furthermore, it is necessary to use an electronic component unit with the largest power consumption as a relay member. When the power consumption is large, the value of the flowing current increases, so that it is necessary to provide a wide wiring pattern. If an electronic component unit with high power consumption is used as a relay member, it is not necessary to provide a large wiring pattern in another electronic component unit just for relaying. Can be avoided.

  The indicator part 20 in this embodiment is arrange | positioned at the side surface side in the top | upper surface of the upper case 3, and power consumption is the largest among electronic components. Therefore, in this embodiment, the indicator part 20 is suitable as a relay member. In addition, since the indicator unit 20 is used as a relay member, it is not necessary to separately provide a relay substrate in addition to the electronic component unit described above.

  Note that the relay member is not limited to the indicator unit 20, and any other electronic component unit may be used as the relay member as long as it has the above-described conditions.

  The operation panel 24 is disposed on the top surface of the upper case 3. The operation panel 24 includes a plurality of operation keys 24a that receive input operations for performing various instructions such as power on / off and input source switching with respect to the projector 1, and switches (not shown) corresponding to the operation keys 24a. Is mounted on the SW circuit board 24b. The operation panel 24 outputs an operation signal corresponding to a user operation content to the control board 10. The SW circuit board 24 b is electrically connected to the indicator unit 20 via the cable 15 and is also electrically connected to the control board 10 via the LED circuit board 20 b and the cable 13.

  The operation signal receiver 22 is disposed in front of the upper case 3. The operation signal receiving unit 22 includes a receiving element 22a and an element circuit board 22b on which the receiving element 22a is mounted. The operation signal receiving unit 22 receives an infrared operation signal corresponding to the user's operation content from a remote controller (not shown) having a plurality of operation keys similar to that of the operation panel 24, and outputs it to the control board 10. The element circuit board 22 b is electrically connected to the indicator unit 20 by the cable 14 and is electrically connected to the control board 10 via the LED circuit board 20 b and the cable 13.

  In addition, by arranging the operation signal receiving unit 22 in the upper case 3, it is possible to increase the relative positional accuracy of the receiving element 22a with respect to the opening 3d as compared with the case where the operation signal receiving unit 22 is arranged in the lower case 4. Can do. Thereby, the reception fall of the operation signal from the remote control resulting from the position shift of the receiving element 22a with respect to the opening 3d is suppressed.

  The lens cover 25 is disposed inside the front surface of the upper case 3 and is slidably held by the lens cover holding portion 27. The lens cover 25 is made of a plate-like member and has an area capable of closing the opening 3a. The lens cover 25 functions to protect the projection optical device 6 by closing the opening 3a when the projector 1 is not used, and to prevent foreign matter, dust, and the like from entering the projector 1 from the opening 3a. Have.

  The lens cover 25 is provided with an operation portion 25a that protrudes from the upper portion of the lens cover 25 to the + Z side and is exposed from the opening 3c. When the user grasps the operation unit 25a and slides along the Y direction, the lens cover 25 is moved between a position at which the opening 3a is closed and a position at which the opening 3a is opened to perform opening / closing. be able to.

  The lens cover opening / closing detection unit 26 is for detecting the opening / closing of the lens cover 25. The lens cover open / close detection unit 26 includes, for example, a contact switch. When the contact switch is turned on / off by moving the lens cover 25, the opening and closing of the opening 3a by the lens cover 25 is detected and detected. A signal is output to the control board 10.

  The lens cover open / close detection unit 26 is not limited to a contact switch, and may be configured by an element that detects an open / close state electrically or optically. The lens cover open / close detection unit 26 is electrically connected to the indicator unit 20 via the cable 16 and is also electrically connected to the control board 10 via the LED circuit board 20b and the cable 13.

  As shown in FIG. 2, the lens cover holding portion 27 is formed by integrally forming a portion disposed inside the top surface of the upper case 3 and a portion disposed inside the front surface of the upper case 3. Yes, it has a substantially L shape when viewed from the Y direction. The lens cover holding part 27 is fixed to the inside of the upper case 3 by screws or the like, and holds the lens cover 25 so as to be slidable.

  In the process of assembling the projector 1, before combining the upper case 3 and the lower case 4, the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 are fixed to the upper case 3. The cables 14, 15, and 16 connected to the receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 are connected to the connection units 12 b, 12 c, and 12 d of the indicator unit 20. Then, the upper case 3 is disposed on the lower case 4 to which the optical unit 5, the cooling unit 7, the power supply unit 8, and the control board 10 are fixed, and the connection part 12 a of the indicator part 20 and the connection part 11 of the control board 10. After connecting the cable 13 to the upper case 3, the upper case 3 is fixed to the lower case 4. According to such a method, the process of combining the upper case 3 and the lower case 4 of the projector 1 can be easily performed.

<Schematic configuration of optical unit>
Next, a schematic configuration of the optical unit will be described with reference to FIG. FIG. 3 is a schematic diagram illustrating a schematic configuration of the optical unit according to the present embodiment. As shown in FIG. 3, the optical unit 5 includes a light source device 100, an illumination optical device 200, a color separation optical device 300, a relay optical device 400, a light modulation device 500, and a projection optical device 6. Yes.

  The light source device 100 includes an arc tube 110 that emits a light beam and a reflector 120. The arc tube 110 is composed of an ultra-high pressure mercury lamp, a metal halide lamp, or the like. The light source device 100 reflects the light beam emitted from the arc tube 110 by the reflector 120 to align the emission direction, and emits the light toward the illumination optical device 200. The illumination optical axis OC is the central axis of the light beam emitted from the light source device 100 toward the illuminated area.

  The illumination optical device 200 includes a first lens array 210, a second lens array 220, a polarization conversion element 230, and a superimposing lens 240. The illumination optical device 200 divides the light beam emitted from the light source device 100 into a plurality of partial light beams, aligns each partial light beam with approximately one type of polarized light, and three liquid crystal devices 520R, 520G, and 520B that are illumination targets. Are superimposed on the light incident surface.

  The color separation optical device 300 includes a first dichroic mirror 310, a second dichroic mirror 320, and a reflection mirror 330. The color separation optical device 300 separates the light beam emitted from the illumination optical device 200 into three color lights of red (R) light, green (G) light, and blue (B) light.

  The relay optical device 400 includes an incident side lens 410, a relay lens 420, and reflection mirrors 430 and 440. The relay optical device 400 guides the B light separated by the color separation optical device 300 to the B light liquid crystal device 520B. In the present embodiment, the relay optical device 400 is configured to guide the B light. However, the present invention is not limited to this. For example, the relay optical device 400 may be configured to guide the R light.

  The light modulation device 500 includes field lenses 510R, 510G, and 510B, an incident side polarizing plate (not shown), liquid crystal devices 520R, 520G, and 520B, an emission side polarizing plate (not shown), and a cross dichroic prism 530. I have. The incident side polarizing plate and the emission side polarizing plate are provided for each of the liquid crystal devices 520R, 520G, and 520B.

  The liquid crystal devices 520R, 520G, and 520B modulate each color light separated by the color separation optical device 300 according to image information. The cross dichroic prism 530 has a substantially square shape in plan view in which four right angle prisms are bonded together, and two dielectric multilayer films are formed at the interface where the right angle prisms are bonded together. The cross dichroic prism 530 combines the color lights modulated by the liquid crystal devices 520R, 520G, and 520B, and emits them to the projection optical device 6 side.

  The projection optical device 6 includes a plurality of lenses and a cylindrical lens barrel that houses the plurality of lenses therein (specific illustration is omitted). The projection optical device 6 emits the light beam modulated and synthesized by the light modulation device 500 onto a projection surface such as a screen. As a result, the image is enlarged and projected on the projection surface. The projection optical device 6 includes an adjustment unit 6a (see FIG. 1A) for adjusting the zoom state and focus (focus) of an image projected on the projection surface.

  As described above, according to the configuration of the projector 1 according to the present embodiment, the following effects can be obtained.

(1) Among the indicator unit 20, the operation signal receiving unit 22, the operation panel 24, and the lens cover opening / closing detection unit 26 attached to the upper case 3, the indicator unit 20 is electrically connected by the control board 10 and the cable 13. ing. Further, the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 are electrically connected to the indicator unit 20 through the cables 14, 15, and 16, and are connected via the indicator unit 20 and the cable 13. It is electrically connected to the control board 10.
Therefore, work becomes easy in the assembly process of the projector 1. Thereby, the reduction of work man-hours and the malfunction in an assembly process can be suppressed. Further, an increase in size of the control board 10 can be avoided. Furthermore, since the indicator unit 20 is used as a relay member, it is not necessary to separately provide a substrate for relay.
The above effect will be described in detail with reference to FIG. FIG. 4 is a schematic diagram showing cable connection of the projector according to the present embodiment. Specifically, FIG. 4A is a schematic diagram illustrating cable connection of the projector according to the present embodiment, and FIG. 4B is a schematic diagram illustrating cable connection of a comparative example with respect to the present embodiment.

  In the projector 1 of the present embodiment shown in FIG. 4A, as described above, the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 on the upper case 3 side are connected to the indicator unit 20, the cable 14, 15 and 16, and the indicator unit 20 is connected to the control board 10 on the lower case 4 side and the cable 13. Therefore, in the assembly process of the projector 1, when the upper case 3 and the lower case 4 are combined, the cable 13 may be connected between the upper case 3 side and the lower case 4 side.

  In the projector 101 of the comparative example shown in FIG. 4B, as in the conventional projector, the indicator unit 20, the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26 on the upper case 3 side are provided in the lower case. It is configured to be individually connected to the control board 10 on the four side by direct cables 13, 14, 15, and 16. Therefore, in addition to the connection portion 11, the control board 10 is provided with connection portions 17a, 17b, and 17c for connecting the cables 14, 15, and 16.

  When the upper case 3 and the lower case 4 are combined in the assembly process of the projector 101, the cables 13, 14, 15, and 16 are individually connected between the upper case 3 side and the lower case 4 side. Become. Since a plurality of cables must be connected to the control board 10, it is difficult to work and takes a long time, and there is a risk that mistakes such as mistaken connection destinations of the cables may occur. In addition, since a plurality of cables are interposed between the upper case 3 side and the lower case 4 side, the cables are entangled, or the cables are sandwiched between the upper case 3 side member and the lower case 4 side member. The connected cable may come off.

  On the other hand, according to the configuration of the projector 1 of the present embodiment, the cables 14, 15 and 16 can be shortened compared to the projector 101 of the comparative example, and between the upper case 3 side and the lower case 4 side in the assembly process. Since only one cable 13 is connected to each other, the work is easy and the working time can be shortened, and the occurrence of misconnection, entanglement, pinching and disconnection of the cable can be suppressed. Further, since the cables 14, 15, 16 are not connected to the control board 10, a space for providing the connection portions 17 a, 17 b, 17 c on the control board 10 becomes unnecessary. As a result, the control board 10 can be prevented from becoming larger than the projector 101 of the comparative example.

  (2) The indicator unit 20 is disposed on the side surface side of the upper case 3. Therefore, the operation of connecting the cable 13 to the indicator unit 20 can be performed on the side surfaces of the upper case 3 and the lower case 4, so that the operation is facilitated. Further, since the cable 13 is less likely to get in the way, the workability in assembling and disassembling the projector 1 is improved.

  (3) The power consumption of the indicator unit 20 is larger than the power consumption of the operation signal receiving unit 22, the operation panel 24, and the lens cover open / close detection unit 26. Therefore, by using the indicator part 20 having a larger current value than the other electronic component unit on the upper case 3 side as a relay member, a wiring pattern having a larger width for relaying is not provided in the other electronic component unit. Therefore, enlargement of other electronic component units can be avoided.

  The projector of the present invention has been described based on the above embodiment, but the present invention is not limited to this, and various modifications can be made without departing from the spirit of the present invention. As modifications, for example, the following can be considered.

(Modification 1)
The projector 1 in the above embodiment has a configuration in which the indicator unit 20, the operation signal reception unit 22, the operation panel 24, and the lens cover open / close detection unit 26 are attached to the upper case 3. It is not limited. In addition to the above, an electronic component unit may be further attached to the upper case 3. Examples of such an electronic component unit include a speaker, an operation signal receiving unit disposed on the back side, and a camera that captures an image written on a screen.

(Modification 2)
The projector 1 in the above embodiment is a transmissive projector that includes a transmissive liquid crystal device 520 that transmits light and has a different light flux incident surface and light flux exit surface, but the present invention is not limited to this. . The projector may be a reflective projector that includes a reflective liquid crystal device that reflects light and has the same light incident surface and light exit surface. Even when the present invention is applied to a reflective projector, the same effect as that of a transmissive projector can be obtained.

(Modification 3)
The projector 1 in the above embodiment is a projector using three liquid crystal devices 520 as a light modulation device, but the present invention is not limited to this. The present invention can also be applied to a projector using one, two, four or more liquid crystal devices, for example.

(Modification 4)
In the configuration of the projector 1 of the above embodiment, the liquid crystal device 520 is used as the light modulation device, but the present invention is not limited to this. In general, the light modulation device only needs to modulate incident light according to image information, and a micromirror light modulation device or the like may be used. For example, a DMD (digital micromirror device) (trademark of TI) can be used as the micromirror light modulator.

  DESCRIPTION OF SYMBOLS 1 ... Projector, 2 ... Exterior case, 3 ... Upper case, 4 ... Lower case, 10 ... Control board, 13 ... Cable, 20 ... Indicator part, 22 ... Operation signal receiving part, 24 ... Operation panel, 26 ... Lens cover opening / closing Detection unit.

Claims (3)

A projector,
An outer case having an upper case and a lower case and housing an optical unit for modulating and projecting a light beam;
A plurality of electronic component units fixed to the upper case;
A control board fixed to the lower case and having a control unit for controlling the operation of the projector,
The plurality of electronic component units includes a first electronic component unit electrically connected to the control board,
An electronic component unit other than the first electronic component unit is electrically connected to the control board via the first electronic component unit. The projector according to claim 1,
The projector according to claim 1, wherein the first electronic component unit is disposed on a side surface side of the upper case. The projector according to claim 1 or 2,
The power consumption of the first electronic component unit is the largest of the power consumption of the plurality of electronic component units.

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