JP4048379B2 - projector - Google Patents

Description

  The present invention relates to a projector, and more particularly to a projector provided with a light source.

  Conventionally, a projector provided with a light source is known (see, for example, Patent Document 1 and Patent Document 2).

  In Patent Document 1, a lamp (light source) is disposed in the front (front side) inside the casing (frame), and an exhaust fan (blower) is disposed in the rear (rear side) inside the casing. A projector device that dissipates heat from a lamp from the rear of a casing is disclosed.

  Further, in Patent Document 2, a lamp (light source) is disposed inside an outer case (frame), and the heat of the lamp is radiated to the outside of the outer case through a duct provided inside the outer case. Is disclosed.

  FIG. 9 is a perspective view showing an overall configuration of a projector according to a conventional example. FIG. 10 is a plan view of the projector according to the conventional example shown in FIG. 11 and 12 are perspective views for explaining in detail the structure of the conventional projector shown in FIG. First, the structure of a projector according to a conventional example will be described with reference to FIGS.

  As shown in FIG. 9, the projector according to the conventional example includes a front frame 101, a rear frame 102, an upper frame 103, and a lower frame 104. In addition, a lens insertion portion 101 a into which a projection lens 105 for projecting an image is inserted is formed at one end side (arrow A direction side) of the front frame 101. Also, as shown in FIG. 12, an exhaust port 101b is provided in a portion from the center portion of the front frame 101 to the other end side (arrow B direction side). The exhaust port 101b is provided with a plurality of louvers 101c. Two mounting portions 101d and 101e are disposed above and below the exhaust port 101b, respectively. A wind guide member 106 is attached to the front frame 101. The air guide member 106 is integrally formed with two convex portions 106a and 106b each having a screw insertion hole. Further, as shown in FIG. 11, the convex portions 106a and 106b of the air guide member 106 are attached to the attachment portions 101d and 101e (see FIG. 12) by screws 130, respectively. The air guide member 106 has an exhaust port 106c. As shown in FIG. 10, the exhaust port 106c is provided with a plurality of louvers 106d so as to exhaust in a direction away from the projection lens 105 (arrow C direction). Further, as shown in FIGS. 11 and 12, an aluminum plate 107 is attached to the inner portion of the air guide member 106 to prevent the air guide member 106 from becoming too hot by dispersing heat. ing.

  Further, as shown in FIG. 10, an intake port 104a for taking in air is provided on one side surface (in the direction of arrow A) of the lower frame 104. A main switch 108 is provided on the side surface of the lower frame 104 on one side (arrow A direction). A lamp case holder 109 is installed in the vicinity of the front frame 101 of the lower frame 104. A lamp case 111 to which a light source lamp 110 is attached is housed inside the lamp case holder 109. The light source lamp 110 includes a light source 110a that emits light and a reflector 110b that reflects and collects the light emitted from the light source 110a.

  In addition, a temperature control fan 112 for controlling the temperature of the light source 110 a by guiding a predetermined amount of air to the light source lamp 110 is provided at a portion of the lower frame 104 on the front frame 101 side.

  The lower frame 104 is provided with a casting 113 having a lens mounting portion 113a. The projection lens 105 is mounted on the lens mounting portion 113a of the casting 113. The casting 113 is attached with a light tunnel 114 for shaping the light into a rectangular shape at a position where the light emitted from the light source 110a of the light source lamp 110 is collected. The light tunnel 114 is fixed to the casting 113 by a light tunnel clip 115. In addition, the light tunnel 114 has an entrance 114a through which light from the light source lamp 110 is incident and an exit 114b through which the incident light is emitted. Further, a transmissive member 116 that transmits light formed by the light tunnel 114 is attached to the casting 113 on the outlet portion 114 b side of the light tunnel 114. Further, a cooling fan 117 is installed on the side of the light tunnel 114 and the transmissive member 116 so as to be adjacent to the temperature control fan 112. The cooling fan 117 takes in air from the air inlet 104a of the lower frame 104, and guides the taken air to the optical parts such as the light tunnel 114 and the casting 113, so that the optical parts such as the light tunnel 114 It is provided to cool the casting 113.

  The casting 113 is provided with a mirror 118 for reflecting the light transmitted through the transmission member 116. In addition, a DMD element (Digital Micromirror Device) 119 for further reflecting the light reflected by the mirror 118 and supplying the light to the projection lens 105 is provided outside the casting 113. The DMD element 119 has a large number of reflective portions on the surface, and displaces the large number of reflective portions in accordance with an image signal to form an image depending on the presence or absence of reflected light. A lens 120 is provided between the DMD element 119 and the mirror 118. This lens 120 has a function of condensing the light reflected by the mirror 118 on the reflection portion of the DMD element 119. The DMD element 119 is attached to the printed circuit board 121. A heat sink member 122 for radiating heat from the DMD element 119 is attached to the printed board 121.

  Next, operations of the projector according to the conventional example will be described with reference to FIGS. First, as shown in FIG. 10, light emitted from the light source 110 a of the light source lamp 110 is collected by the reflector 110 b of the light source lamp 110 and is incident on the entrance portion 114 a of the light tunnel 114. Thereafter, the light incident on the entrance portion 114 a of the light tunnel 114 is formed into a rectangular shape and emitted from the exit portion 114 b of the light tunnel 114. The light emitted from the exit portion 114 b of the light tunnel 114 travels in the direction of arrow D, and is transmitted through the transmission member 116 and incident on the mirror 118. The light incident on the mirror 118 is reflected by the mirror 118 in the direction of arrow E. The light reflected by this mirror 118 enters the DMD element 119 via the lens 120. The light incident on the DMD element 119 is reflected by the DMD element 119 in the direction of arrow F and supplied to the projection lens 105. As a result, an image is projected from the projection lens 105 onto a screen or the like.

During the operation of the projector as described above, the temperature control fan 112 and the cooling fan 117 are rotated. First, when the temperature control fan 112 rotates, a predetermined amount of air is guided to the light source lamp 110 and also to the aluminum plate 107 attached to the wind guide member 106 of the front frame 101. At this time, the heat of the air guided to the aluminum plate 107 is dispersed by the aluminum plate 107. The wind guided to the aluminum plate 107 is exhausted from the exhaust ports 106c and 101b (see FIG. 9) of the front frame 101. Thereby, the temperature of the light source 110a is controlled to a predetermined temperature. Further, as the cooling fan 117 rotates, air of a predetermined air volume is guided to the optical components such as the light tunnel 114 and the casting 113 and discharged from the exhaust ports 106c and 101b (see FIG. 9) of the front frame 101. The Thereby, the optical components such as the light tunnel 114 and the casting 113 are cooled. Further, the temperature control fan 112 and the cooling fan 117 are rotated, so that air is taken in from the air inlet 104 a of the lower frame 104.
JP 2003-322911 A JP 2002-148716 A

  In the conventional projector shown in FIGS. 9 to 12, an aluminum plate for dispersing heat to the air guide member 106 in order to prevent the air guide member 106 from becoming too hot due to the wind passing through the light source lamp 110. 107 is attached. However, the above-described conventional projector has a problem in that it is difficult to sufficiently suppress an increase in the surface temperature of the air guide member 106 because the distance from the light source lamp 110 to the air guide member 106 is small. It was. In this case, if the distance from the light source lamp 110 to the front frame 101 is increased in order to increase the distance from the light source lamp 110 to the air guide member 106, there is a problem that the front frame 101 is enlarged.

  Further, in the structure disclosed in Patent Document 1, the lamp is disposed in front of the casing (frame) (front side) and the exhaust fan is disposed in the rear (rear side) of the casing. To the exhaust fan (blower). For this reason, there exists a problem that the heat dissipation of the heat | fever of a lamp | ramp (light source) falls.

  Further, in the structure disclosed in Patent Document 2, a duct is provided inside the exterior case in order to dissipate the heat of the lamp (light source) to the outside of the exterior case, so that the exterior case (frame) becomes large. There is a point.

  The present invention has been made to solve the above-described problems, and one object of the present invention is to increase the surface temperature of the frame while suppressing a decrease in the heat dissipation of the light source. It is an object of the present invention to provide a projector capable of suppressing the above and suppressing the enlargement of the frame.

  A projector according to a first aspect of the present invention includes a frame having a front surface and a rear surface, a light source disposed inside the frame, a blower for cooling the light source, a projection lens that projects an image from the front surface of the frame, In a projector having a main switch for driving the projector, the light source is arranged on the front side inside the frame, and the blower is arranged on the front side inside the frame. A wind guide member for radiating the heat of the light source to the outside of the frame is provided, and the wind guide member is rotatably provided so as to protrude to the outside of the frame. Is provided so as to be directed to dissipate the heat of the light source in a direction away from the projection lens in a state of rotating so as to protrude to the outside of the frame. It is arranged to engage with the member, has a support part for fixing the air guide member at a predetermined position, and is turned on in a state where the air guide member is rotated so as to protrude to the outside of the frame, And it will be in an OFF state in the state where an air guide member does not rotate to the outside of a frame.

  In the projector according to the first aspect, as described above, by providing the light source disposed on the front side inside the frame and the blower disposed on the front side inside the frame and cooling the light source, Since the distance to the blower can be reduced, the heat of the light source can be effectively radiated by the wind from the blower. Thereby, it can suppress that the heat dissipation of the heat | fever of a light source falls. In addition, if a wind guide member that can be rotated so as to protrude to the outside of the frame is provided on the front surface of the frame so that the wind guide member protrudes to the outside of the frame during operation of the projector, the wind guide from the light source Since the distance to the member can be increased, it is possible to suppress the surface temperature of the air guide member from being increased by the heat of the light source. Further, by providing the wind guide member so as to be able to rotate so as to protrude to the outside of the frame, it is possible to prevent the air guide member from protruding to the outside of the frame in a state where the wind guide member is not rotated to the outside of the frame. Therefore, it is possible to prevent the frame from becoming large. In addition, the main switch is turned on while the air guide member is rotated so as to protrude to the outside of the frame, and the main switch is turned off while the air guide member is not rotated outside the frame. When the light source becomes high temperature with the switch turned on, the air guide member can be protruded to the outside of the frame. Thereby, when the light source becomes high temperature, the distance from the light source to the air guide member can be reliably increased, so that it is possible to reliably suppress the air guide member from being heated by the heat of the light source. Moreover, it can suppress that a wind guide member moves by providing the main switch with the support part for fixing a wind guide member to a predetermined position. In addition, in the state where the front portion of the air guide member is rotated so as to protrude to the outside of the frame, it is configured so that the heat of the light source is directed in the direction of dissipating the heat away from the projection lens. Since the temperature of the air can be suppressed, the image projected from the projection lens can be prevented from being fluctuated by heat.

A projector according to a second aspect of the present invention includes a frame having a front surface and a rear surface, a light source disposed on a front side inside the frame, and a blower disposed on the front side inside the frame and cooling the light source. The front surface of the frame is provided with a wind guide member for dissipating heat from the light source to the outside of the frame, and the wind guide member is provided so as to be movable so as to protrude to the outside of the frame. The main switch that is arranged to engage with the wind member and drives the projector
The main switch has moved so that the air guide member protrudes to the outside of the frame.
Is turned on, and the wind guide member is not moved outside the frame.
The main switch is arranged to engage with the air guide member, and the air guide member is fixed at a predetermined position.
It has a supporting part to be fixed .

In the projector according to the second aspect, as described above, by providing the light source disposed on the front side inside the frame and the blower disposed on the front side inside the frame and cooling the light source, Since the distance to the blower can be reduced, the heat of the light source can be effectively radiated by the wind from the blower. Thereby, it can suppress that the heat dissipation of the heat | fever of a light source falls. Further, by providing a wind guide member that is movable on the front surface of the frame so as to protrude to the outside of the frame, if the wind guide member is protruded to the outside of the frame during operation of the projector, the wind guide member from the light source Therefore, it is possible to suppress the temperature of the air guide member from being increased by the heat of the light source. In addition, by providing the wind guide member so as to protrude outside the frame, it is possible to prevent the wind guide member from protruding outside the frame in a state where the wind guide member is not moved outside the frame. Therefore, it is possible to prevent the frame from becoming large. Also, the wind guide part
And a main switch arranged to engage with the material and driving the projector.
When the air guide member is moved to protrude outside the frame,
In addition, the air guide member is turned off in a state where it does not move to the outside of the frame. Configure like this
If the main switch is on and the light source is hot, the air guide member will protrude outside the frame.
It can be put out. As a result, when the light source becomes hot, the air guide section from the light source
Since the distance to the material can be increased without fail, the air guide member is heated by the heat of the light source.
Can be reliably suppressed. The main switch is arranged to engage with the air guide member.
And a support portion that fixes the air guide member at a predetermined position. If configured in this way,
The movement of the member can be suppressed.

  The projector according to the second aspect preferably further includes a projection lens that projects an image from the front surface of the frame, and the wind guide member is rotatably provided so as to protrude to the outside of the frame. The front part of the member is provided so as to face the direction in which the heat of the light source is dissipated away from the projection lens while being rotated so as to protrude to the outside of the frame. If comprised in this way, since it can suppress that the air of the projection lens vicinity becomes high temperature, it can suppress that the image | video projected from a projection lens shakes with a heat | fever.

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

  FIG. 1 is a perspective view showing the overall configuration of a projector according to an embodiment of the present invention. FIG. 2 is a plan view of the projector according to the embodiment shown in FIG. 3 to 8 are diagrams for explaining the structure of the projector according to the embodiment shown in FIG. 1 in detail. First, the structure of a projector according to an embodiment of the invention will be described with reference to FIGS.

  A projector according to an embodiment of the present invention includes a front frame 1, a rear frame 2, an upper frame 3, and a lower frame 4, as shown in FIG. These front frame 1, rear frame 2, upper frame 3 and lower frame 4 constitute a frame. The front frame 1 is an example of the “front surface of the frame” in the present invention, and the rear frame 2 is an example of the “rear surface of the frame” in the present invention. In addition, a lens insertion portion 1 a into which a projection lens 5 for projecting an image is inserted is formed at one end side (arrow A direction side) of the front frame 1. Further, as shown in FIGS. 1 and 5, an exhaust port 1b and an opening 1c are provided in the central portion of the front frame 1 and the other end side (arrow B direction side), respectively. . The exhaust port 1b is provided with a plurality of louvers 1d. The louver 1d of the exhaust port 1b is formed to exhaust about 30 degrees downward with respect to the horizontal direction. Further, as shown in FIG. 5, mounting portions 1e and 1f are arranged above and below the exhaust port 1b, respectively. In addition, attachment portions 1g and 1h having insertion holes are provided in the upper portion and the lower portion in the vicinity of the opening 1c, respectively. Further, air guide members 6 and 7 are attached to the front frame 1. The air guide member 7 is an example of the “air guide member” in the present invention. The air guide member 6 is integrally formed with convex portions 6a and 6b having screw insertion holes, and the convex portions 6a and 6b are attached to the attachment portions 1e and 1f by screws 30, respectively. The air guide member 6 has an exhaust port 6c. As shown in FIG. 3, the exhaust port 6c is formed on the front surface of the front frame 1 in plan view so as to exhaust in a direction away from the projection lens 5 (see FIG. 2) (direction of arrow C). A plurality of louvers 6d inclined by θ1 (about 45 degrees) with respect to a vertical plane are provided.

Here, in this embodiment, as shown in FIGS. 4 and 5, the air guide member 7 is provided with an exhaust port 7a. As shown in FIG. 3, the exhaust port 7a is provided with a plurality of louvers 7b inclined by θ2 (about 30 degrees) with respect to a plane perpendicular to the front surface portion of the air guide member 7 in plan view. Yes. Moreover, as shown in FIG. 1, the air guide member 7 is provided with an exhaust port 7c. The exhaust port 7c is provided with a plurality of louvers 7d. The louver 7d of the exhaust port 7c is formed to exhaust about 30 degrees downward with respect to the horizontal direction. Further, as shown in FIG. 5, insertion portions 7e and 7f are provided on the other side of the air guide member 7 so as to correspond to the insertion holes of the attachment portions 1g and 1h, respectively. Further, as shown in FIGS. 6 to 8, the air guide member 7 has θ3 (about 15 degrees) outward from the front surface of the front frame 1 with the insertion portions 7e and 7f (see FIG. 5) as the rotation center. 8) It is attached to the attaching portions 1g and 1h (see FIG. 5) so as to be rotatable. As a result, when the air guide member 7 is rotated outward, the exhaust ports 7a and 7c (see FIG. 6) of the air guide member 7 are exhausted in the direction of arrow C as shown in FIGS. To do.

  In the present embodiment, the upper portion of the air guide member 7 is provided with an engaging portion 7g for engaging with the concave portion 8a (see FIG. 3) of the main switch 8, as shown in FIG. Yes. The concave portion 8a of the main switch 8 is an example of the “support portion” in the present invention.

  In addition, as shown in FIG. 2, an intake port 4 a for taking in air is provided on one side surface (in the direction of arrow A) of the lower frame 4. A lamp case holder 9 is installed in the vicinity of the front frame 1 of the lower frame 4.

  In the present embodiment, a main switch 8 is attached to the upper part of the lamp case holder 9. The main switch 8 has a fixing portion 8b attached to the lamp case holder 9, and a protruding portion 8c provided so that the protruding amount with respect to the fixing portion 8b changes in an on state and an off state. Further, the main switch 8 has a large protruding amount of the protruding portion 8c by pressing the protruding portion 8c toward the fixed portion 8b from the off state (see FIG. 3) where the protruding amount of the protruding portion 8c from the fixed portion 8b is small. It is configured to be in an on state (see FIG. 8). Further, the main switch 8 has a small protruding amount of the protruding portion 8c by pressing the protruding portion 8c toward the fixed portion 8b from an ON state (see FIG. 8) where the protruding amount of the protruding portion 8c is large from the fixed portion 8b. It is configured to be in an off state (see FIG. 3). That is, the main switch 8 is turned on when the air guide member 7 is rotated outward (see FIG. 8), and is turned off when the air guide member 7 is rotated inward (see FIG. 3). It is configured to be in a state. Moreover, the protrusion 8c is formed with a recess 8a. As shown in FIGS. 3 and 8, the recess 8a engages with the engaging portion 7g of the air guide member 7, and when the air guide member 7 rotates outward, and when the air guide member 7 is on the inner side. When it is rotated, it has a function of fixing the air guide member 7 at a predetermined position.

  Further, as shown in FIG. 2, a lamp case 11 to which a light source lamp 10 is attached is housed in the lamp case holder 9. The light source lamp 10 includes a light source 10a that emits light and a reflector 10b that reflects and collects the light emitted from the light source 10a.

  Further, in the present embodiment, a temperature control fan for controlling the temperature of the light source 10 a by introducing a predetermined amount of air to the light source lamp 10 on the portion of the lower frame 4 on the front frame 1 side. 12 is provided. The temperature control fan 12 is an example of the “blower” in the present invention.

  The lower frame 4 is provided with a casting 13 having a lens mounting portion 13a. The projection lens 5 is mounted on the lens mounting portion 13a of the casting 13. The casting 13 is attached with a light tunnel 14 for shaping the light into a rectangular shape at a position where the light emitted from the light source 10a of the light source lamp 10 is collected. The light tunnel 14 is fixed to the casting 13 with a light tunnel clip 15 made of stainless steel.

The light tunnel 14 has an inlet portion 14a into which light from the light source lamp 10 is incident and an outlet portion 14b from which incident light is emitted, and is formed in a cylindrical tetrahedral shape. In addition, a transmission member 16 that transmits light formed by the light tunnel 14 is attached to the casting 13 on the outlet portion 14 b side of the light tunnel 14. Further, a cooling fan 17 is installed on the side of the light tunnel 14 and the transmissive member 16 so as to be adjacent to the temperature control fan 12. The cooling fan 17 takes in air from the air inlet 4 a of the lower frame 4 and guides the taken air to the optical parts such as the light tunnel 14 and the casting 13. It is provided to cool the casting 13.

  The casting 13 is provided with a mirror 18 for reflecting the light transmitted through the transmission member 16. Further, outside the casting 13, a DMD element 19 for further reflecting the light reflected by the mirror 18 and supplying the light to the projection lens 5 is provided. The DMD element 19 has a large number of reflective portions on the surface, and displaces the large number of reflective portions according to an image signal to form an image depending on the presence or absence of reflected light. A lens 20 is provided between the DMD element 19 and the mirror 18. The lens 20 has a function of condensing the light reflected by the mirror 18 on the reflection portion of the DMD element 19. The DMD element 19 is attached to the printed board 21. A heat sink member 22 for radiating the heat of the DMD element 19 is attached to the printed board 21.

  Next, the operation of the projector according to the embodiment of the invention will be described with reference to FIGS. 1 to 3 and FIGS. First, in the OFF state (see FIGS. 1 to 3) of the main switch 8 (see FIG. 3), the fixing member 8b (see FIG. 3) of the protrusion 8c (see FIG. 3) is pressed by pressing the air guide member 7 from the outside to the inside. The amount of protrusion from (see FIG. 3) increases, and the air guide member 7 rotates so as to protrude outward. As a result, the main switch 8 is turned on (see FIGS. 6 to 8). As shown in FIG. 7, the light emitted from the light source 10 a of the light source lamp 10 is collected by the reflector 10 b of the light source lamp 10 and is incident on the entrance portion 14 a of the light tunnel 14. Thereafter, the light incident on the entrance portion 14 a of the light tunnel 14 is formed into a rectangular shape and emitted from the exit portion 14 b of the light tunnel 14. The light emitted from the exit portion 14 b of the light tunnel 14 travels in the direction of arrow D, passes through the transmission member 16, and enters the mirror 18. The light incident on the mirror 18 is reflected by the mirror 18 in the direction of arrow E. The light reflected by the mirror 18 enters the DMD element 19 through the lens 20. The light incident on the DMD element 19 is reflected in the direction of arrow F by the DMD element 19 and supplied to the projection lens 5. Thereby, an image is projected from the projection lens 5 onto a screen or the like. Further, when the projector is turned off, when the main switch 8 is turned on (see FIGS. 6 to 8), the air guide member 7 is pressed from the outside to the inside, so that the projecting portion 8c is fixed. The amount of protrusion of the air guide member 7 decreases and the air guide member 7 rotates inward. As a result, the main switch 8 is turned off (see FIGS. 1 to 3).

  During the operation of the projector as described above, the temperature control fan 12 and the cooling fan 17 are rotated. First, when the temperature control fan 12 rotates, a predetermined air volume is guided to the light source lamp 10, and the exhaust ports 7a (see FIG. 8) and 7c (see FIG. 6) of the air guide member 7 of the front frame 1 are also introduced. (See below) and discharged downward in the direction of arrow C. Thereby, the temperature of the light source 10a is controlled to a predetermined temperature. Further, when the cooling fan 17 rotates, a predetermined air volume is guided to the optical components such as the light tunnel 14 and the casting 13, and the exhaust ports 6c (see FIG. 7) and 1b (see FIG. 6) of the front frame 1 are also introduced. (See below) and discharged downward in the direction of arrow C. Thereby, the optical components such as the light tunnel 14 and the casting 13 are cooled. Further, the temperature control fan 12 and the cooling fan 17 are rotated, so that air is taken in from the air inlet 4 a of the lower frame 4. Since the air taken in from the intake port 4a of the lower frame 4 passes in the vicinity of the heat sink member 22, the heat of the DMD element 19 can be efficiently radiated.

In the present embodiment, as described above, the light source 10a disposed on the front frame 1 side of the lower frame 4 and the temperature control fan 12 disposed on the front frame 1 side of the lower frame 4 and cooling the light source 10a. Since the distance between the light source 10a and the temperature control fan 12 can be reduced, the heat from the light source 10a can be effectively radiated by the wind from the temperature control fan 12. Thereby, it can suppress that the heat dissipation of the heat of the light source 10a falls. Further, by providing the front frame 1 with a wind guide member 7 that can turn so as to protrude outside the front frame 1, the wind guide member 7 protrudes outside the front frame 1 when the projector is operated. By doing so, since the distance from the light source 10a to the air guide member 7 can be increased, it is possible to suppress the surface temperature of the air guide member 7 from being increased by the heat of the light source 10a. Further, by providing the air guide member 7 so as to be rotatable so as to protrude to the outside of the front frame 1, in a state where the air guide member 7 is not rotated to the outside of the front frame 1, the air guide member 7 is Since it can suppress protruding outside the front part frame 1, it can suppress that the front part frame 1 becomes large.

  Further, in the present embodiment, the main switch 8 is turned on in a state where the air guide member 7 is rotated so that the air guide member 7 protrudes to the outside of the front frame 1, and the air guide member 7 is on the outside of the front frame 1. When the main switch 8 is in the on state and the light source 10a is at a high temperature, the air guide member 7 can be protruded to the outside of the front frame 1. Thereby, when the light source 10a becomes high temperature, since the distance from the light source 10a to the air guide member 7 can be reliably increased, it is reliably suppressed that the air guide member 7 becomes high temperature by the heat of the light source 10a. can do.

  Moreover, in this embodiment, while providing the recessed part 8a for fixing the wind guide member 7 to a predetermined position in the main switch 8, and engaging the engaging part 7g of the wind guide member 7 to the recessed part 8a, The movement of the air guide member 7 can be suppressed.

  Further, in the present embodiment, the front portion of the air guide member 7 is turned so as to protrude to the outside of the front frame 1, and is directed to the direction of radiating the heat of the light source 10 a away from the projection lens 5. With this configuration, since the air near the projection lens 5 can be prevented from becoming high temperature, the air near the projection lens 5 can be prevented from fluctuating, so that the image projected from the projection lens 5 Can be prevented from fluctuating due to heat.

  The embodiment disclosed this time should be considered as illustrative in all points and not restrictive. The scope of the present invention is shown not by the above description of the embodiments but by the scope of claims for patent, and further includes all modifications within the meaning and scope equivalent to the scope of claims for patent.

  For example, in the above-described embodiment, the example in which the engaging portion of the wind guide member is engaged with the concave portion of the projecting portion of the main switch is shown, but the present invention is not limited thereto, and the engaging portion of the wind guide member is the main. It may be provided integrally with the projecting portion of the switch, or the air guide member may not be engaged with the main switch.

  Moreover, although the example which dissipated the heat | fever of the light source in the direction away from a projection lens was shown in the said embodiment, this invention is not restricted to this, You do not need to radiate | emit the heat | fever of a light source in the direction away from a projection lens.

  In the above-described embodiment, an example in which the distance from the light source to the wind guide member is increased by providing a rotary wind guide member that rotates around a predetermined rotation center is described. However, the distance from the light source to the wind guide member may be increased by providing a drawer-type wind guide member.

1 is a perspective view showing an overall configuration of a projector according to an embodiment of the present invention. It is a top view of the projector by one Embodiment shown in FIG. FIG. 2 is an enlarged plan view of the vicinity of a wind guide member of the projector according to the embodiment shown in FIG. 1. It is a perspective view for demonstrating in detail the structure of the front frame of the projector by one Embodiment shown in FIG. It is a perspective view for demonstrating in detail the structure of the front frame of the projector by one Embodiment shown in FIG. It is a perspective view for demonstrating the structure at the time of operation | movement of the projector by one Embodiment shown in FIG. It is a top view for demonstrating the structure at the time of operation | movement of the projector by one Embodiment shown in FIG. FIG. 2 is an enlarged plan view of the vicinity of a wind guide member during operation of the projector according to the embodiment shown in FIG. 1. It is the perspective view which showed the whole structure of the projector by an example of the past. FIG. 10 is a plan view of the projector according to the conventional example shown in FIG. 9. It is a perspective view for demonstrating in detail the structure of the front frame of the projector by an example of the prior art shown in FIG. It is a perspective view for demonstrating in detail the structure of the front frame of the projector by an example of the prior art shown in FIG.

Explanation of symbols

1 Front frame (front)
2 Rear frame (rear)
5 Projection lens 7 Air guide member 8 Main switch (main switch)
8a Concave part (support part)
10a Light source 12 Temperature control fan (blower)

Claims (3)

A frame having a front surface and a rear surface, a light source disposed inside the frame, a blower for cooling the light source, a projection lens for projecting an image from the front surface of the frame, and a main switch for driving the projector In a projector equipped with
The light source is disposed on the front side inside the frame;
The blower is disposed on the front side inside the frame,
A wind guide member for radiating heat of the light source to the outside of the frame is provided on the front surface of the frame,
The air guide member is rotatably provided so as to protrude to the outside of the frame,
The front portion of the air guide member is provided so as to be directed in a direction to dissipate heat of the light source in a direction away from the projection lens in a state of rotating so as to protrude to the outside of the frame.
The main switch is disposed so as to be engaged with the air guide member, has a support portion for fixing the air guide member at a predetermined position, and the air guide member protrudes to the outside of the frame. A projector that is turned on when it is pivoted to the left and is turned off when the air guide member is not pivoted to the outside of the frame. A frame having a front surface and a rear surface;
A light source disposed on the front side inside the frame;
A blower disposed on the front side inside the frame and for cooling the light source,
A wind guide member for radiating heat of the light source to the outside of the frame is provided on the front surface of the frame,
The air guide member is provided to be movable so as to protrude to the outside of the frame ,
A main switch that is arranged to engage with the wind guide member and that drives the projector.
In preparation,
The main switch is in a state in which the air guide member has moved so as to protrude outside the frame.
Is turned on, and the air guide member is turned off without moving outside the frame.
State
The main switch is arranged to engage with the air guide member, and the air guide member is moved to a predetermined position.
A projector having a support portion that is fixed to a device . A projection lens for projecting an image from the front of the frame;
The air guide member is rotatably provided so as to protrude to the outside of the frame,
The front portion of the air guide member is provided so as to face in a direction to dissipate heat of the light source in a direction away from the projection lens in a state of rotating so as to protrude to the outside of the frame.
The projector according to claim 2 .

Images