JP2006227050A - Projector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a projector improving convenience by effectively utilizing a cover member. <P>SOLUTION: The projector is provided with: a light source 51 emitting light; an optical conversion part 54 having a conversion part 55 for converting light from the light source 51 into a video on the basis of image data; a projection lens 59 enlarging and projecting the video converted by the optical conversion part 54; and a cover member 100 supported to freely turn through a shaft on a projector body 2 and opening/shutting the edge part of the projection lens 59. The cover member 100 functions as the leg of the projector 1 and a tilt mechanism when it opens the edge part of the projection lens 59 and is located at a predetermined position. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a projector that projects an image. Specifically, the present invention relates to a cover member that protects a projection lens of a projector.

  A cover member (lens cover) in a conventional projector is detachably installed on the projection lens holding member so as to close the projection lens surface, and closes the projection lens surface. The cover member is connected to the main body of the projector by a string. Further, as described in Patent Document 1, there is a cover member that is provided immediately before the projection lens, moves in parallel with the lens surface, and is configured as a lens protection and a lens auxiliary lens. Further, as described in Patent Document 2, a cover member that is pivotally supported by a projector main body and includes a motor to open and close the cover member is also known.

  The cover member is formed of a colorless (or colored) transparent plastic material, and copes with deformation of the cover member due to the heat of the projection light when the projector starts projection while the projection lens surface is closed with the cover member. ing.

Japanese Utility Model Publication No. 2-44729 Japanese Utility Model Publication No. 3-70473

  However, the configuration described in Patent Document 1 is a configuration for the purpose of protecting the projection lens and assisting the projection lens, and the configuration described in Patent Document 2 is a configuration for the purpose of protecting the projection lens only. It is. Therefore, the lens cover is mostly used for protecting the projection lens, and the problem is that the cover member is not effectively used.

  Further, as described above, since the material of the cover member is formed of a colorless (or colored) transparent plastic material in order to prevent deformation due to the heat of the projection light, the degree of freedom in designing the cover member and the projector is narrow. There is a problem of becoming.

  Further, in a small projector, when the projector is placed on the desk surface and an image is projected on the projection surface, there is a problem that the lower side of the projected image is projected on the desk surface due to the tilt of the projection lens.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide a projector with improved convenience by effectively using a cover member.

  In order to achieve the above-described object, the present invention provides a projector, a light source that emits light, an optical conversion unit that includes a conversion unit that converts light from the light source into an image based on image data, and optical conversion A projection lens for enlarging and projecting the image converted by the unit, and a cover member that is pivotally supported by the main body of the projector and that opens and closes the front end portion of the projection lens. When the front end of the lens is opened and positioned at a predetermined position, the lens functions as a projector leg and a tilt mechanism.

  According to such a projector, the cover member can be closed to protect the projection lens. In addition, when the cover member rotates with respect to the main body of the projector and opens the front end of the projection lens and is positioned at a predetermined position, the projector is placed on a desk or the like by functioning as a leg of the projector. In this case, it is possible to prevent the projector from rattling. In addition, since it functions as a tilt mechanism, the position of the projected image projected from the projection lens with respect to the projection surface can be adjusted, and the lower side of the projected image generated from the tilt relationship when the projector projects the image is on the desk surface. It is possible to improve the problem of being projected onto the screen. Accordingly, the cover member of the projector can be used effectively, and the convenience of the projector is improved.

  The projector preferably includes a detection unit that detects the position of the cover member, and a light source operation control unit that controls at least lighting / non-lighting of the light source based on a detection signal of the detection unit.

  According to such a projector, the detection unit detects the position of the cover member, and the light source operation control unit controls at least lighting / non-lighting of the light source on the basis of the detection signal of the detection unit. It is possible to control the lighting / non-lighting of the light source in conjunction with the rotation position, and the convenience of the projector is further improved.

  The projector preferably further includes a fixing portion that fixes the cover member, and the fixing portion fixes the cover member at a predetermined position that functions as a tilt mechanism.

  According to such a projector, since the cover member is fixed to a predetermined position that functions as a tilt mechanism by the fixing portion, the cover member is not affected by the external force even when an external force is applied to the projector. Functions and functions as legs can be performed. This further improves the reliability and convenience of the projector.

  In the projector, the cover member preferably functions as a leg of the projector when the tip of the projection lens is closed.

  According to such a projector, when the cover member closes the tip of the projection lens and the projector is placed on a desk or the like, the projector can be prevented from rattling and the convenience is improved. Further, since it is not necessary to provide another leg on the bottom surface of the projector body on the cover member side, it is possible to reduce the number of parts and the cost.

  In the projector, the cover member is preferably formed of an opaque plastic member or metal member.

  According to such a projector, when the cover member closes the front end portion of the projection lens, the light source is not turned on by the detection unit and the light source operation control unit, so that the cover is heated by the heat generated by the projection light from the projection lens. It is possible to prevent the member from melting and deforming. Thereby, the cover member can be formed of an opaque plastic member or metal member. Therefore, since it is no longer limited to a colorless (or colored) transparent plastic member as in the past, the cover member and the projector are formed of an opaque plastic member or a metal member, so that the degree of design freedom for the cover member and the projector is expanded. To do.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(Embodiment)

  FIG. 1 is a schematic perspective view of a projector according to an embodiment of the present invention, FIG. 1 (a) is a perspective view in a state where a cover member closes a projection lens, and FIG. 1 (b) is a cover. It is a perspective view in the state where a member functions as a tilt mechanism. With reference to FIG. 1, an outline configuration of the appearance of the projector 1 will be described.

  For the description of the configuration, all six surfaces that are external surfaces of the main body 2 of the projector 1 are shown as a top surface portion 1a, a front surface portion 1b, a left side surface portion 1c, a right side surface portion 1d, a back surface portion 1e, and a bottom surface portion 1f.

  As shown in FIGS. 1A and 1B, the projector 1 covers substantially the entire area of the substantially rectangular parallelepiped housing 10 that forms the exterior of the main body 2 of the projector 1 and the front surface portion 1 b of the projector main body 2. And a cover member 100.

  The housing 10 is formed using a plastic material as a main raw material. In the upper surface portion 1a, an operation hole 25 for operating the operation of the projector 1 and a sound reporting hole 11 for reporting a sound output from a speaker 37 (shown in FIG. 3) provided in the projector body 2 are formed. Has been. In addition, an LED (Light Emitting Diode) display unit 12 that informs an operating state of an LED (Light Emitting Diode) light source 52 (illustrated in FIGS. 3 and 2) constituting a light source 51 described later is installed.

  Further, a U-shaped cutout 13 is formed on the upper surface portion 1a from the end portion of the front surface portion 1b, and a part of the cylindrical projection lens holding member 60 that holds and fixes the projection lens 59 is exposed. . The exposed projection lens holding member 60 is provided with a lever 61 for projecting a projection image projected from the projection lens 59, and the lever 61 is provided in a groove 62 formed on the outer periphery of the projection lens holding member 60. By rotating along, it is possible to focus the projected image.

  The front surface portion 1 b is provided with the projection lens 59 and the tip portions of the projection lens holding member 60 extending from the housing 10. The cover member 100 is installed so as to cover almost the entire area of the front surface portion 1b including the projection lens 59 and the front end portions of the projection lens holding member 60.

  The left side surface portion 1c and the right side surface portion 1d are formed with cover member mounting groove portions 200 having a configuration for holding the cover member 100 in a rotatable manner so as to be opposed to the respective surface portions.

  A power connector 40 (shown in FIG. 3), which will be described later, is configured on the back surface 1e, and a connector (not shown) connected to a plug 520 (shown in FIG. 3) from a power adapter (not shown) provided separately from the projector 1. ) Etc. are provided. The bottom surface portion 1f is provided with one leg 15 (shown in FIG. 2) for supporting the projector main body at the central portion on the back surface portion 1e side. Further, pressing protrusions 123 and legs 133 formed on a cover member 100 described later function as legs that support the projector 1.

  In this embodiment, the cover member 100 is formed of a colored and opaque plastic member, and has a box-shaped cover portion 110 having edges in four directions, and a configuration for rotating the cover portion 110 with respect to the projector body 2. And a pair of hinge portions 120 and 130 extending from opposite corner portions of the cover portion 110.

  As shown in FIG. 1A, the cover part 110 closes the front end part of the projection lens 59 and covers almost the entire area of the front part 1b, thereby protecting the projection lens 59. Further, the state shown in FIG. 1A is a state when the projector 1 is not operated (projection or the like), and is a state when the projector 1 is stored.

  Further, as shown in FIG. 1B, the cover member 110 is rotated by hinge portions 120 and 130 so that the cover portion 110 opens the projection lens 59. And the hinge parts 120 and 130 will be in the state fixed by the fixing | fixed part 300 mentioned later in a predetermined position. In this state, the projector 1 starts projection by a detection unit 400 described later and a control unit 38 as a light source operation control unit. In this state, the projector 1 is supported by the legs 15 and the cover part 110 of the cover member 100. The cover member 100 functions as a tilt mechanism by lifting and holding the front surface portion 1b side of the projector body 2 so that the projected image can be projected upward. Details will be described later.

  The external shape of the projector 1 in this embodiment is approximately 150 mm × 120 mm × 50 mm (X direction × Y direction × Z direction), and the size reduction is achieved.

  FIG. 2 shows a side view of the projector, FIG. 2A is a side view in a state where the cover member opens the projection lens and functions as a tilt mechanism, and FIG. 2B shows the projection by the cover member. It is a side view in the state which obstruct | occludes a lens and functions as protection of a projection lens. FIG. 2A also shows the optical configuration unit 50 inside the projector body 2. The configuration and operation of the projector 1 will be described with reference to FIG.

The configuration of the optical configuration unit 50 will be described with reference to FIG.
The optical configuration unit 50 is a part that configures the optical system of the projector 1, and includes a light source 51, an optical conversion unit 54, and a projection lens 59. The light source 51 includes an LED light source 52 as a light source and a condenser lens 53. The optical conversion unit 54 includes a collimator lens 57, an expansion lens 58, and a liquid crystal light valve 56 as the conversion unit 55.

  The optical component 50 is disposed at the center of the plane and the cross section of the projector body 2. The light source 51 is disposed on the back surface 1e side, the optical conversion unit 54 and the projection lens 59 are disposed in this order, and a part of the projection lens holding member 60 that holds and fixes the projection lens 59 on the front surface 1b extends. Put out. The optical conversion unit 54 is disposed in front of the light source 51 in the order of a collimator lens 57, an extension lens 58, and a liquid crystal light valve 56 as the conversion unit 55. The optical structure part 50 is arrange | positioned on a straight line in the arrangement | positioning order mentioned above. The liquid crystal light valve 56 has a light valve cable 24 and is connected to a circuit unit 20 described later.

The operation of each component will be described.
The condensing lens 53 efficiently emits the light emitted from the LED light source 52 forward. The collimator lens 57 converts the light emitted from the light source 51 into parallel light and emits it. The expansion lens 58 expands the parallel light emitted from the collimator lens 57 according to the size of a predetermined incident light region (not shown) of the liquid crystal light valve 56 and emits it.

  In this embodiment, the liquid crystal light valve 56 uses a transmissive color liquid crystal panel, and is driven based on a signal from the LCD drive unit 34 to modulate light emitted from the expansion lens 58 and convert it into an image. The liquid crystal light valve 56 is not limited to a transmissive liquid crystal panel, and a reflective liquid crystal panel, a digital micromirror device, or the like can also be used.

  The projection lens 59 is composed of several types of lenses, enlarges the image modulated and generated by the liquid crystal light valve 56, and outputs it to the outside of the projector 1.

  With the configuration and operation of the optical configuration unit 50 described above, the projector 1 enlarges and projects an image on a projection surface such as a screen 510 (shown in FIG. 3) installed outside the projector 1.

The configuration of the circuit unit 20 will be described.
The circuit unit 20 is obtained by mounting elements constituting each circuit unit of a circuit block of the projector 1 described later on a circuit board 21. The circuit unit 20 is housed and fixed at a predetermined position on the inner surface side of the housing 10 on the upper surface portion 1a side.

  The circuit unit 20 connects a CPU (Central Processing Unit) 22 which is an element constituting each circuit unit, a connector (not shown) constituting a power connector 40, a speaker 37, and a light valve cable 24 based on the circuit board 21. The cable connector 23 to be mounted is mounted. The other elements are not shown.

The operation of the cover member 100 as a tilt mechanism will be described.
As shown in FIG. 2A, when the cover member 100 is rotated and positioned at a position that functions as a tilt mechanism, the cover member 100 is fixed by the fixing portion 300. When the projector 1 in this state is placed on the desk, the legs 15 of the projector main body 2 and the cover portion 110 of the cover member 100 abut against the desk top surface 600 to hold the projector 1. In the state shown in FIG. 2A, the light source 51 emits light from a detection unit 400 described later, and the projector 1 enters a state in which an image is projected.

  At this time, as shown in FIG. 2A, the projector 1 has the front surface 1b side (projection lens 59 side) of the projector main body 2 higher than the back surface 1e side (light source 51 side) by the cover member 100. 600. Thereby, when the projector 1 projects an image, an angle by the tilt mechanism is added to the position of the projected image on the projection surface when the projector 1 can be projected in parallel with the desktop surface 600, and The projected image is projected at a position higher by an amount corresponding to the angle. Thus, the cover member 100 functions as a tilt mechanism.

  Specifically, the projector 1 according to the present embodiment is configured with a design that initially includes a tilt with respect to the projection lens 59. Therefore, if the projector 1 is placed parallel to the desk surface 600 and an image can be projected onto the projection surface, the image is projected by shifting upward from the optical axis of the projector 1 due to the set tilt. To do. In this embodiment, the position of the projected image can be further increased by adding an angle by the tilt mechanism in this embodiment.

  In the state shown in FIG. 2A, the cover member 100 functions as a leg that supports the projector body 2 in addition to functioning as a tilt mechanism.

  As shown in FIG. 2B, in the state where the cover member 100 closes the projection lens 59, the projector 1 is similar to the pressing protrusion 123 formed on the hinge portion 120 of the cover member 100 and the cover member 100. The leg 133 (shown in FIG. 4) formed on the hinge portion 130 and the leg 15 formed on the projector main body 2 are supported in parallel to the desk surface 600. The pressing protrusion 123 and the leg 133 will be described later.

  FIG. 3 is a block diagram showing a circuit configuration of the projector. The circuit configuration and operation of the projector 1 will be described with reference to FIG.

  The projector 1 is connected to a personal computer (personal computer) 500 by radio. The projector 1 includes an antenna 30, a communication unit 31, a signal conversion unit 32, an image processing unit 33, an LCD (Liquid Crystal Display) drive unit 34, an optical configuration unit 50, an LED (Light Emitting Diode) control unit 39, and a detection unit. 400, an audio processing unit 35, an amplification unit 36, a speaker 37, a power connector 40, and a control unit 38 that controls the overall operation of the projector 1.

The operation of each circuit unit of the projector 1 will be described.
The projector 1 receives encoded image data (still image data and moving image data), audio data, and the like from the personal computer 500 through the antenna 30 and the communication unit 31. The received image data and audio data are combined by the signal conversion unit 32, the image data is output to the image processing unit 33, and the audio data is output to the audio processing unit 35.

  The image processing unit 33 performs frame rate conversion and scaling processing on the image data input from the signal conversion unit 32. The image processing unit 33 also performs various image corrections such as brightness adjustment, contrast adjustment, and gamma correction processing on the image data. The image data processed in this way is output to the LCD drive unit 34 as a projection video signal. The LCD drive unit 34 drives the liquid crystal light valve 56 based on the projection video signal input from the image processing unit 33.

  The audio processing unit 35 converts audio data, which is a digital signal input from the signal conversion unit 32, into an analog signal, amplifies it by the amplifying unit 36, and reports the sound as sound through the sound reporting hole 11 by the speaker 37.

  The LED control unit 39 performs brightness dimming of the LED light source 52 based on a signal from the control unit 38. Specifically, the drive frequency and duty ratio for driving the LED light source 52 are changed in correspondence with the scene of the image. As a result, in a bright scene, the LED light source 52 emits light brightly by increasing the drive frequency or lengthening the “ON” time of the duty ratio. On the other hand, in a dark scene, on the other hand, control is performed to reduce the light emission of the LED light source 52 by reducing the drive frequency or shortening the “ON” time of the duty ratio. The LED light source 52 emits white light (including light of all colors).

  The detection unit 400 detects the rotation position of the cover member 100. Specifically, a detection signal corresponding to when the cover member 100 is located at a position that functions as a tilt mechanism or when it is not located is output to the control unit 38.

  The control unit 38 performs overall control of the overall operation of the projector 1, and whether or not the cover member 100 is located at a position that functions as a tilt mechanism based on a detection signal input from the detection unit 400 described later. And has a function as a light source operation control unit for controlling lighting / non-lighting of the light source 51 (LED light source 52). The control unit 38 determines whether or not the cover member 100 is located at a position that functions as a tilt mechanism based on a signal input from the detection unit 400, and controls ON / OFF of the power source. Also good.

  Electric power for driving the projector 1 is supplied via a power adapter (not shown) provided separately from the projector 1. Accordingly, the power connector 40 is provided and connected to the plug 520 of the power adapter.

  4 is a cross-sectional view parallel to the XY plane at the position AA shown in FIG. Moreover, it is sectional drawing to which the peripheral area | region of the hinge part was expanded. However, the inside of the projector body 2 is not shown, and the legs 15 and the hinge portions 120 and 130 are mainly illustrated. The configuration of the projector main body 2 and the hinge portions 120 and 130 of the cover member 100 will be described with reference to FIG.

  As shown in FIG. 4, the cover member 100 includes a cover part 110 and hinge parts 120 and 130. Further, the cover member mounting groove portions 200 and 210 are formed to face the hinge portions 120 and 130. Further, the cover member 100 and the cover member mounting groove portions 200 and 210 have a symmetric configuration with respect to an XZ plane passing through the center position of the projector 1, and various configurations formed in each are also symmetrical. ing.

  Therefore, by describing the hinge part 120 and the cover member mounting groove part 200 installed on the left side surface part 1c of the projector main body 2, detailed description of the hinge part 130 and the cover member mounting groove part 210 installed on the right side surface part 1d is omitted. .

  The hinge part 120 forms a rotating component 121 having the same shape and a thick wall on the projector body 2 side at the tip of the hinge part 120. A pivot shaft 122 serving as a shaft for pivoting the cover member 100 is formed on the pivot component surface 121a of the pivot component 121 so as to protrude into the projector body 2 with a cylindrical shape. Further, a fixing protrusion 124 constituting a fixing portion 300 for fixing the cover member 100 to the projector main body 2 has a semispherical convex shape and is formed to protrude inside the projector main body 2.

  A movable shaft 412 of a micro switch 410 serving as a detection switch constituting the detection unit 400 extends from the inside of the projector main body 2 to the cover member mounting groove 200, and a pressing protrusion for contacting and pressing the movable shaft 412 123 has a semicircular shape on the outer peripheral surface portion of the rotating component 121 and protrudes (in FIG. 4, protrudes downward in the outer peripheral surface portion of the rotating component 121).

  The cover member mounting groove portion 200 has a hinge clearance portion 201 and a pivotal configuration clearance portion 202 formed in correspondence with the shape of the hinge portion 120 described above, ensuring a clearance. A bearing part 203 having a cylindrical concave shape for receiving the support shaft 122 is formed on the turning part escape part surface 202a of the turning part escape part 202.

  In addition, the two fixing receiving portions 204 and 205 have a semispherical concave shape as the fixing portion 300 that fixes the rotation of the cover member 100 by receiving the fixing protrusion 124 on the rotating configuration escape portion surface 202a. Formed. The fixing receiving unit 204 fixes the fixing protrusion 124 of the cover member 100 when the cover member 100 closes the projection lens 59. This state is shown in FIG. Further, the fixing receiving portion 205 fixes the fixing protrusion 124 when the cover member 100 opens the projection lens 59 and rotates to a position that functions as a tilt mechanism. Accordingly, the fixing receiving portions 204 and 205 are installed concentrically around the support shaft 122.

  In order to rotate the fixing protrusion 124 from a state in which the fixing receiving portion 204 fixes the fixing protrusion 124 (a state in which the cover member 100 closes the projection lens 59), a force that overcomes the step H is applied to the cover member. Will add to 100. This force becomes the fixing force of the fixing unit 300.

  The configuration described above is similarly formed and configured in the hinge portion 130 and the cover member mounting groove portion 210. Therefore, the hinge part 130 is formed with a rotation component part 131, a support shaft 132, and a fixing protrusion 134, and the cover member mounting groove part 210 is provided with a bearing part 213, a hinge relief part (not shown), and a rotation component relief part. Two fixing receiving portions 214 and 215 are similarly formed as a portion (not shown) and the fixing portion 300.

  A leg 133 is formed on the hinge portion 130 corresponding to the pressing projection 123 that presses the movable shaft 412 of the micro switch 410. The leg 133 functions as a leg that supports the projector main body 2 in a state where the cover member 100 closes the projection lens 59, and does not function as the detection unit 400. In the present embodiment, the detection unit 400 is configured in one place to be described later.

  The fixing portion 300 includes a fixing protrusion 124 and two fixing receiving portions 204 and 205, and a fixing protrusion 134 and two fixing receiving portions 214 and 215 that are provided to face each other.

  Further, with the above configuration, the cover member 100 is configured such that the support shafts 122 and 132 formed on the hinge portions 120 and 130 are inserted into the bearing portions 203 and 213 formed on the projector main body 2, respectively. With respect to 132, the projector body 2 is rotatable.

  5 is a cross-sectional view taken along the line B-B shown in FIG. 4, showing the detection unit and the fixing unit, FIG. 5A is a cross-sectional view in which the cover member is being rotated, and FIG. It is sectional drawing in the state in which a cover member functions as a tilt mechanism. The configuration and operation of the detection unit 400 and the fixing unit 300 of the projector 1 will be described with reference to FIG.

  As shown in FIGS. 5A and 5B, the detection unit 400 includes a micro switch 410 that is a push-type detection switch, and a signal detected by the micro switch 410 as a light source operation control unit when it is mounted. A detection circuit board 413 on which a cable or the like to be transmitted to the control unit 38 is mounted, and a pressing protrusion 123 that contacts and presses the movable shaft 412 of the microswitch 410.

  In addition, the detection unit 400 is installed on the inner surface side of the rotation configuration relief portion 202 formed in the cover member attachment groove portion 200, which is opposed to the rotation configuration relief portion surface 202b. In order to fix the detection unit 400, a protruding detection circuit fixing projection 206 is formed. The detection circuit fixing convex portion 206 forms a detection circuit groove 207 that becomes a space in which the microswitch 410 can be accommodated. In addition, an insertion hole 208 for inserting the movable shaft 412 of the micro switch 410 is formed in the turning configuration relief portion surface 202b.

  Here, by inserting the movable shaft 412 of the micro switch 410 into the insertion hole 208, the main body 411 of the micro switch 410 is positioned in the detection circuit groove 207, and the shoulder of the detection circuit board 413 is positioned on the detection circuit fixing convex portion. The detection unit 400 is fixed by being brought into contact with the front end portion of 206. By fixing the detection unit 400, the movable shaft 412 of the micro switch 410 is fixed to the rotating configuration relief unit 202 with a predetermined protrusion amount.

Operations of the fixing unit 300 and the detection unit 400 will be described.
As shown in FIG. 5A, the cover member 100 is in the middle of rotation (in a state where the cover member 100 is not fixed to the projector main body 2 by the fixing unit 300) and is formed on the outer peripheral surface portion of the rotation component 121. When the protrusion 123 does not press the movable shaft 412 of the micro switch 410, the detection signal at the detection unit 400 is “OFF”. The signal is output to the control unit 38.

  As shown in the enlarged view of FIG. 4, the fixing protrusion 124 is positioned on the fixing receiving portion 204, and the hemispherical convex portion of the fixing protrusion 124 is the hemispherical concave shape of the fixing receiving portion 204. When the cover member 100 is fixed to the projector main body 2 by dropping into the portion and fixing the fixing protrusion 124 (when the cover member 100 closes the projection lens 59), the detection is performed as described above. The detection signal in the unit 400 is “OFF”. The signal is output to the control unit 38.

  As shown in FIG. 5 (b), the fixing protrusion 124 is positioned on the fixing receiving portion 205, and the hemispherical convex portion of the fixing protrusion 124 falls on the hemispherical concave portion of the fixing receiving portion 205. Then, the cover member 100 is fixed to the projector body 2. This state is a state in which the cover member 100 functions as a tilt mechanism. Simultaneously with the fixing, the pressing protrusion 123 presses the movable shaft 412 of the micro switch 410 and presses the main switch 411 side of the micro switch 410 by the pressing amount C. Since the pushing amount C of the movable shaft 412 is set in accordance with the stroke at which the micro switch 410 operates, the detection signal of the micro switch 410 is “ON”. The signal is output to the control unit 38.

  With this configuration and operation, the detection unit 400 outputs the detection signal “ON” at the same time that the fixing protrusion 124 is positioned on the fixing receiving unit 205 and the cover member 100 is fixed to the projector body 2. The detection unit 400 outputs a detection signal “OFF” when the cover member 100 is rotating and when the cover member 100 closes the projection lens 59.

Here, the operation of the control unit 38 as the light source operation control unit will be described in detail.
As described above, when the fixing protrusion 124 is positioned at the fixing receiving portion 205 and the cover member 100 is fixed to the projector main body 2, the detection signal is changed from “OFF” to “ON” by the detection portion 400, The detection signal “ON” is output to the control unit 38. Then, when the detection signal “ON” is input to the control unit 38 as the light source drive control unit, the control unit 38 determines that the cover member 100 is located at a position that functions as a tilt mechanism. Then, the control unit 38 outputs a signal for turning on the LED light source 52 to the LED control unit 39. The LED control unit 39 starts lighting the LED light source 52 based on a signal for lighting the LED light source 52. Then, the control unit 38 starts an operation for causing the projector 1 to project an image.

  Further, when the fixing protrusion 124 moves from the fixing receiving portion 205 and the cover member 100 starts to rotate, the detection signal is changed from “ON” to “OFF” by the detection portion 400, and serves as a light source drive control portion. The detection signal “OFF” is output to the control unit 38. Then, when the detection signal “OFF” is input to the control unit 38, the control unit 38 determines that the cover member 100 has deviated from the position where it functions as a tilt mechanism. Then, the control unit 38 outputs a signal for turning off the LED light source 52 to the LED control unit 39. The LED control unit 39 ends the lighting of the LED light source 52 based on the signal for turning off the LED light source 52 (becomes non-lighting). And the control part 38 complete | finishes the operation | movement which makes the projector 1 project an image | video.

  When the cover member 100 is fixed at a position that functions as a tilt mechanism by the operation of the detection unit 400 and the control unit 38 as the light source drive control unit described above, the LED light source 52 is turned on and the projector 1 can project an image. It becomes. Further, when the cover member 100 starts to rotate, the LED light source 52 is turned off, and the projector 1 enters a state in which no image is projected. Therefore, the user can cause the projector 1 to project an image or end the projection by rotating the cover member 100 without operating the power switch of the operation unit 25 provided in the projector 1.

According to the embodiment described above, the following effects can be obtained.
(1) According to the present embodiment, the cover member 100 can protect the projection lens 59 by closing the projection lens 59. Further, when the cover member 100 is rotated with respect to the projector main body 2 and is located at a position that functions as a leg and a tilt mechanism, the projector 1 can be placed on the desk surface 600 or the like while preventing backlash. . In addition, since it functions as a tilt mechanism, the position of the projected image projected from the projection lens 59 with respect to the projection surface can be adjusted, and the lower side of the projected image generated from the tilt relationship when the projector 1 projects the image is It is possible to improve the problem of being projected on the desk surface 600. Thus, the cover member 100 of the projector 1 can be used effectively, and the convenience of the projector 1 is improved.

  (2) According to the present embodiment, since the cover member 100 is fixed at a predetermined position that functions as a tilt mechanism by the fixing unit 300, the cover member 100 is affected by the external force even when an external force is applied to the projector 1. The function as a leg can be performed. At the same time, the detection unit 400 detects and the control unit 38 as the light source operation control unit controls to turn on the light source 51. Therefore, the projector 1 can project a normal image. Further, when the cover member 100 is not located at a predetermined position that functions as a tilt mechanism, the detection unit 400 detects it, and the control unit 38 as a light source operation control unit controls to turn off the light source 51. Therefore, in a state where the projector 1 cannot project a normal image, such as when the cover member 100 is located at a position where the projection light from the projection lens 59 is blocked (for example, a position where the cover member 100 closes the projection lens 59). The projector 1 can end the projection of the video. Thereby, the reliability and convenience of the projector 1 are further improved.

  (3) According to the present embodiment, when the cover member 100 closes the front end portion of the projection lens 59 and the projector 1 is placed on the desk surface 600 or the like, the pressing protrusion 123 formed on the cover member 100 and Since the leg 133 functions as a leg of the projector 1 together with the leg 15 provided in the projector main body 2, it is possible to prevent rattling of the projector 1 and improve convenience. Therefore, it is not necessary to provide another leg on the bottom surface portion 1f of the projector main body 2 on the cover member 100 side, so that it is possible to reduce the number of parts and the cost.

  (4) According to the present embodiment, when the cover member 100 closes the distal end portion of the projection lens 59, the light source 51 is not lit by the detection unit 400 and the control unit 38 as the light source operation control unit. It is possible to prevent the cover member 100 from being melted and deformed by the heat generated by the projection light from the projection lens 59. Therefore, the cover member 100 is formed of a colored opaque plastic member. Therefore, it is no longer limited to a colorless (or colored) transparent plastic member as in the prior art, and the degree of design freedom for the cover member 100 and the projector 1 is expanded.

  In addition, this invention is not limited to embodiment mentioned above, A various change, improvement, etc. can be added. A modification will be described below.

  (Modification 1) In the above embodiment, the cover member 100 is formed of a colored and opaque plastic member. However, the cover member 100 is not limited to this, and may be formed of a colorless (or colored) transparent plastic member as in the prior art. It may be good or may be formed of a metal member or the like. Thus, by expanding the types of members that form the cover member 100, the design freedom of the cover member 100 and the projector 1 can be expanded.

  (Modification 2) In the above-described embodiment, the detection unit 400 is installed on the inner surface side of the rotation configuration relief portion 202 formed in the cover member mounting groove portion 200, which is opposed to the rotation configuration relief portion surface 202b. However, the present invention is not limited to this, and the detection unit 400 may be installed in the opposite part of the cover member mounting groove 210 or may be installed in both. In particular, when the detection units 400 are installed on both sides, there are two detection units 400, and detection signals are output almost simultaneously, and the control unit is within an allowable time considering chattering in the detection unit 400. It can be set as the specification which turns on the light source 51, when 38 receives a detection signal. Thereby, for example, when the cover member 100 is distorted due to the fall of the projector 1 or the like, it can be used as a detection means for malfunction, and the reliability of the operation of the projector 1 can be further improved.

  (Modification 3) In the above-described embodiment, the pressing projection 123 constituting the detection portion 400 formed on the hinge portion 120 of the cover member 100 and the leg 133 of the hinge portion 130 formed opposite to the pressing projection 123. The cover member 100 closes the projection lens 59 and functions as a leg when the projector body 2 is placed on the desk surface 600. However, the present invention is not limited to this, and a protrusion having a function as a leg may be separately formed on the cover portion 110 of the cover member 100 and the other portions of the hinge portions 120 and 130.

  (Modification 4) In addition to the fixing structure of the fixing unit 300 and the detection structure of the detection unit 400 used in the embodiment, various fixing unit fixing structures and detection unit detection structures can be used. The present invention is not limited to the embodiment. You may deform | transform suitably in the range which does not change the summary of this invention.

  (Modification 5) In the said embodiment, although the light source operation control part is comprised as a process in the control part 38, you may comprise as a process in the LED control part 39, not only this.

  (Modification 6) The projector 1 in the embodiment is a transmissive liquid crystal projector. However, the present invention is not limited to this, and a projector adopting a DLP (registered trademark) (Digital Light Processing) method, a LCOS (Liquid Crystal On Silicon) method that is a reflective liquid crystal method, or the like may be used.

FIG. 1A is a schematic perspective view of a projector according to an embodiment of the present invention, FIG. 1A is a perspective view in a state where a cover member closes a projection lens, and FIG. It is a perspective view in the state which functions as a mechanism. 2A is a side view of the projector, FIG. 2A is a side view in a state where the cover member opens the projection lens and functions as a tilt mechanism, and FIG. 2B is a side view of the cover member that closes the projection lens. It is a side view in the state which functions as protection of a projection lens. It is a block diagram which shows the circuit structure of a projector. It is sectional drawing parallel to an XY plane in the position of AA shown to Fig.1 (a). FIG. 5B is a cross-sectional view taken along the line B-B shown in FIG. 4, FIG. 5A is a cross-sectional view in which the cover member is rotating, and FIG. 5B is a cross-section in a state where the cover member functions as a tilt mechanism. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Projector, 2 ... Projector main body, 10 ... Housing | casing, 11 ... Notification hole, 12 ... LED display part, 13 ... Notch part, 15 ... Leg, 20 ... Circuit unit, 21 ... Circuit board, 25 ... Operation part, DESCRIPTION OF SYMBOLS 30 ... Antenna, 31 ... Communication part, 32 ... Signal conversion part, 33 ... Image processing part, 34 ... LCD drive part, 35 ... Sound processing part, 36 ... Amplification part, 37 ... Speaker, 38 ... Control part, 39 ... LED Control unit 40 ... Power connector 50 ... Optical component 51 ... Light source 52 ... LED light source 53 ... Condensing lens 54 ... Optical conversion unit 55 ... Conversion unit 56 ... Liquid crystal light valve 57 ... Collimator lens , 58 ... expansion lens, 59 ... projection lens, 60 ... projection lens holding member, 61 ... lever, 62 ... groove, 100 ... cover member, 110 ... cover part, 120, 130 ... hinge part, 121, 131 ... rotating structure , 121a... Rotation component surface, 122, 132... Support shaft, 123... Pressing projection, 124, 134... Fixing projection, 133, Leg, 200, 210. , 202a, 202b ... rotational configuration relief part surface, 203, 213 ... bearing part, 204, 205 ... fixing receiving part, 208 ... insertion hole, 214, 215 ... fixing receiving part, 300 ... fixing part, 400 ... detection , 410... Microswitch as detection switch, 500... Personal computer, 510... Screen, 520.

Claims (5)

A projector for projecting images,
A light source that emits light;
An optical converter having a converter for converting light from the light source into video based on image data;
A projection lens for enlarging and projecting the image converted by the optical conversion unit;
A cover member that is pivotally supported by the main body of the projector and that opens and closes the tip of the projection lens;
The cover member functions as a leg and tilt mechanism of the projector when the front end portion of the projection lens is opened and positioned at a predetermined position. The projector according to claim 1,
A detection unit for detecting the position of the cover member;
A projector comprising: a light source operation control unit that controls at least lighting / non-lighting of the light source based on a detection signal of the detection unit. The projector according to claim 1 or 2, wherein
A fixing portion for fixing the cover member;
The fixing unit fixes the cover member at a predetermined position that functions as the tilt mechanism. The projector according to any one of claims 1 to 3,
The projector, wherein the cover member functions as a leg of the projector when the front end of the projection lens is closed. The projector according to claim 3 or 4, wherein
The projector is characterized in that the cover member is formed of an opaque plastic member or metal member.

Images