JP6167754B2 - projector - Google Patents

Description

  The present invention relates to a projector that is a projection display device.

  Conventionally, in a small projector, an air flow is generated inside the housing by an intake fan and an exhaust fan in order to cool a substrate, a lamp (light source) and an image generation device (DMD: Digital Micromirror Device, liquid crystal, etc.). The air path was formed. (Patent Document 1).

JP 2000-321671 A

  However, in the configuration of the conventional projector, the speaker is attached so that the back surface of the speaker protrudes inside the housing. Therefore, the sound quality of the speaker is not sufficient, and there is a problem that the air flow for cooling the light source, the image generating device, and the substrate is hindered by the protruding rear surface of the speaker.

The projector according to the present invention is a compact projector having a light source, an image generation device, a substrate, and a power supply device in a housing. The housing has a first opening and a first opening facing the first opening. A second opening is provided and an image is projected on a pair of speaker boxes that accommodate speakers arranged in the housing, a rear outer surface of the speaker box, and an inner surface of the housing. And a fan that cools the light source disposed in a space composed of the same plane as the direction .

According to the present invention, a light source arranged in a space constituted by a rear outer surface of a pair of speaker boxes and an inner surface of a housing and the same surface as a direction in which an image is projected is provided by a fan. Cooling with the generated air flow and ventilating the housing through two openings provided in the housing, so that the sound quality of the speaker can be improved and the light source can be efficiently cooled to improve the waste heat efficiency. .

It is a figure which shows the external appearance of the projector 1 in Embodiment 1 of this invention. 1 is an internal configuration diagram of a projector 1 in Embodiment 1 of the present invention. It is sectional drawing of the projector 1 in Embodiment 1 of this invention. It is a figure in which projector 1 in Embodiment 1 of this invention projects an image. It is a block diagram inside the projector 1 in Embodiment 2 of this invention. It is sectional drawing of the projector 1 in Embodiment 2 of this invention. It is a block diagram inside the projector 1 in Embodiment 3 of this invention. It is a block diagram inside the projector 1 in Embodiment 4 of this invention.

Embodiment 1 FIG.
FIG. 1 is a diagram showing an appearance of a projector 1 according to Embodiment 1 of the present invention.
FIG. 1A is a diagram showing an external appearance of the projector 1 from the upper surface. (B), (c) is a figure which shows the external appearance of the side surface of the projector 1. FIG. Further, (d) is a diagram showing the external appearance of the viewer-side surface opposite to the direction in which the projector 1 projects an image. Here, the viewer side in (d) will be described as the front.
FIG. 2 is an internal configuration diagram of projector 1 in the first embodiment of the invention. FIG. 2 is also a cross-sectional view taken along the line AA in FIG.
FIG. 3 is a sectional view of projector 1 according to Embodiment 1 of the present invention.
3 (b) is a cross-sectional view taken along the line BB in FIG. 1 (a), FIG. 3 (c) is a cross-sectional view taken along the line CC in FIG. 1 (a), and FIG. It is sectional drawing of DD.

The configuration of the projector 1 according to the first embodiment will be described with reference to FIG.
In FIG. 2, a projector 1 includes a light source 2, a display device (image generation device) 3, an optical system 4, a substrate 5, a power supply device 6, speakers 7 (speakers 7a and 7b), a speaker box 8 (speaker boxes 8a and 8b). The fan 9 (the intake-side fan 9a and the exhaust-side fan 9b) and the housing 10 that accommodates them are configured.

The projector 1 applies light from the light source 2 to the display device 3, and projects an image on the screen 11 from the opening 10 a provided on the upper surface of the housing 10 of the projector 1 shown in FIG. .
Moreover, the opening part 10b is provided in the housing 10 of FIG.1 (b), and the opening part 10c is provided in the housing 10 of FIG.1 (c), and the inside of the housing 10 is ventilated.

  As for the internal arrangement of the projector 1, the speaker box 8 that houses the speaker 7 is arranged in the housing 10 on the front side opposite to the projection direction. Therefore, a space is formed on the rear side, which is the direction side (projection direction side) in which the image in the housing 10 is projected. In this space, the light source 2, the display device 3, the substrate 5, and the power supply device 6 are arranged. The display device 3 is disposed between the light source 2 and the substrate 5. The power supply device 6 is disposed so as to overlap the substrate 5 in the vertical direction.

  And the intake side fan 9a is arrange | positioned in the opening part 10b provided in the side surface of the housing 10 of the side by which the board | substrate 5 is arrange | positioned. Further, the exhaust-side fan 9c is disposed in the opening 10c provided on the side surface of the housing 10 on the side where the light source 2 is disposed. The intake side fan 9a takes in air from outside the housing 10 and exhausts it outside the housing 10 by the exhaust side fan 9b, so that an air flow is generated in the space on the projection direction side in the housing 10 by the fan 9, and the air path 12 is formed. A light source 2, a display device 3, a substrate 5, and a power supply device 6 are arranged in the space of the air path 12.

Next, each component will be described.
The light source 2 emits light that is transmitted through or reflected from the display device 3. The light source 2 is disposed in the housing 10 on the side where the exhaust fan 9b is attached and on the outer surface (back surface) side of the surface facing the surface where the speaker 7a of the speaker box 8b is attached. . Since the light source 2 generates the most heat, it is cooled by the air flow generated by the fan 9. Further, the light source 2 is disposed at a position closer to the exhaust-side fan 9b than the display device 3, the substrate 5, and the power supply device 6 so that the air whose temperature has risen by cooling the light source 2 is immediately discharged from the housing 10. Is done.

  The display device 3 is, for example, a DMD. The display device 3 is disposed between the light source 2 and the substrate 5 in the housing 10. Since the display device 3 also generates heat, it is cooled by the air flow generated by the fan 9.

  The optical system 4 is composed of a plurality of optical components such as a lens and a mirror, and is an entire mechanism for imaging light that has passed through the display device 3 on a screen. The optical system 4 projects the light from the display device 3 onto the screen 11 in the rear direction of the projector (projection direction shown in FIG. 2) from the opening 10a provided on the upper surface of the housing 10 of the projector 1 shown in FIG. Project an image. The optical system 4 is disposed between the pair of speaker boxes 7 in the housing 10.

  The board 5 includes an interface board on which an input interface circuit is mounted, a video board on which a video signal processing circuit is mounted, a control board for device drive control, and the like. The substrate 5 is disposed on the back side of the speaker box 8a on the side where the intake fan 9a is attached in the housing 10. The substrate 5 is also cooled by the air flow generated by the fan 9 to generate heat.

The power supply device 6 is disposed so as to overlap the substrate 5 in the vertical direction. Since the power supply device 6 also generates heat, it is cooled by the air flow generated by the fan 9.
The substrate 5 and the power supply device 6 generate less heat than the light source 2 and the display device 3. Therefore, the substrate 5 and the power supply device 6 are disposed at a position closer to the intake side fan 9a than the light source 2 and the display device 3, and are first cooled by the air sucked from outside the housing 10 by the intake side fan 9a. The display device 3 is then cooled by the air flow generated by the fan 9. And after the board | substrate 5, the power supply device 6, and the display device 3 are cooled with the flow of the air which the fan 9 produces | generates, the light source 2 which generate | occur | produces the heat most is cooled. Since the temperature of the air that has cooled the light source 2 that generates the most heat rises, the air is immediately discharged out of the housing 10 by the exhaust fan 9a.

The speaker 7 is accommodated in the speaker box 8 and is disposed on the front surface of the housing 10 in order to ensure sound quality. Further, the center of the speaker 7 a and the center of the speaker 7 b are arranged so that the center of the projector 1 is the center.
That is, the speaker 7a is positioned at the opening 10d in FIG. 1D and the speaker 7b is positioned at the opening 10e.

  The speaker box 8 is a case for accommodating the speaker 7 and has a closed space including a cable hole. The speaker box 8a accommodates the speaker 7a, and the speaker box 8b accommodates the speaker 7b. The speaker box 8 is arranged such that the center of the speaker box 8 a and the center of the speaker box 8 b are the center of the projector 1. The speaker box 8 is arranged so that the surface on which the speaker 7 is attached is positioned on the front surface of the housing 10.

  The speaker box 8a is disposed so that the speaker 7a is positioned in the opening 10d of FIG. Therefore, a space is defined between the outer surface (back surface) 8a1 that faces the surface of the speaker box 8a on which the speaker 7a is attached, and the rear surface in the direction in which an image is projected among the inner surfaces of the housing 10. Is configured. In this space, the intake-side fan 9a sucks air from the outside of the housing 10 and the exhaust-side fan 9b exhausts the outside of the housing 10 to generate an air flow, whereby the air passage 12 is formed. The Further, the substrate 5 and the power supply device 6 are arranged in a space formed by the back surface 8a1 of the speaker box 8a and the inner surface of the rear portion of the housing 10.

  Specifically, the speaker box 8 a is arranged so that the surface on which the speaker 7 a is attached is the viewer side on the front surface of the housing 10. Furthermore, one side surface of the speaker box 8a is arranged so as to contact the same surface as the surface of the housing 10 to which the intake side fan 9a is attached, and the other side surface of the speaker box 8a is located inside the housing 10. Arranged. The upper surface of the speaker box 8 a is in contact with the upper surface of the housing 10, and the bottom surface of the speaker box 8 a is disposed in contact with the bottom surface of the housing 10.

  Moreover, the speaker box 8b is arrange | positioned so that the speaker 7b may be located in the opening part 10e of FIG.1 (d) provided in the front surface of the housing 10. FIG. Therefore, a space is configured by an outer surface (back surface) 8b1 that faces the surface of the speaker box 8b on which the speaker 7b is attached, and a rear surface of the inner surface of the housing 10 in the direction in which an image is projected. Is done. In this space, air that is sucked from the outside of the housing 10 by the intake-side fan 9a is exhausted to the outside of the housing 10 by the exhaust-side fan 9b. The Further, the light source 2 is disposed in a space formed by the back surface 8b1 of the speaker box 8b and the inner surface of the rear portion of the housing 10.

  Specifically, the speaker box 8b is arranged so that the surface on which the speaker 7b is attached is the viewer side on the front surface of the housing 10. Further, one side surface of the speaker box 8b is disposed so as to contact the same surface as the surface of the housing 10 to which the exhaust fan 9b is attached, and the other side surface of the speaker box 8b is located inside the housing 10. Arranged. Further, the speaker box 8 b is disposed so that the upper surface thereof is in contact with the upper surface of the housing 10, and the bottom surface of the speaker box 8 b is in contact with the bottom surface of the housing 10.

Since the speaker box 8 is arranged in this manner, the back surfaces of the speaker boxes 8 a and 8 b are parallel to the air path 12 that is the air flow generated by the fan 9.
Here, the light source 2, the display device 3, the substrate 5, and the power supply device 6 arranged in a space formed by the back surface of the speaker box 8 and the inner surface of the housing 10 are cooled by the air flow generated by the fan 9. As described above, the light source 2, the display device 3, the substrate 5, and the power supply device 6 are disposed in a space formed by the outer surface of one side surface or upper surface or bottom surface of the speaker box 8 and the inner surface of the housing 10. It may be arranged. In that case, the speaker 7 is disposed toward the upper side of the projector 1 or is disposed on the left and right side surfaces or the bottom surface.

  That is, the light source 2, the display device 3, the substrate 5, and the power supply device 6 arranged in a space formed by the rear outer surface excluding the speaker 7 surface of the speaker box 8 and the inner surface of the housing 10 are connected to the fan. Any structure may be used as long as it is cooled by the flow of air generated by the air.

Here, one side surface, top surface, and bottom surface of the speaker box 8 have been described as being in contact with the internal surface of the housing 10, but if the air flow is generated by the fan 9, it is not necessarily in contact. .
Further, the position of the pair of speaker boxes 8 has been described as being arranged so that the center between the center of the speaker box 8a and the center of the speaker box 8b is the center of the projector 1, but the fan 9 causes an air flow, If the light source 2 arranged in the space formed by the rear outer surface of the speaker box 8 and the inner surface of the housing 10 can be cooled, the center between the center of the speaker box 8a and the center of the speaker box 8b is It does not have to be in the center of the projector 1.
Further, the speaker box 8 may be a closed space in the present embodiment and has a volume, but may not be a rectangular parallelepiped.
The optical system 4 is disposed between the pair of speaker boxes 8.

  The fan 9 is arranged with a pair of an intake side fan 9a and an exhaust side fan 9b facing each other. However, it need not be on a straight line with the centers completely aligned. The intake side fan 9 a is attached to an opening 10 b provided in the housing 10. Therefore, the intake-side fan 9a is disposed on the same surface as the surface of the housing 10 with which one side surface of the speaker box 8a is in contact with the speaker box 8a.

Further, the exhaust side fan 9 b is attached to an opening 10 c provided in the housing 10. For this reason, the exhaust-side fan 9b is disposed on the same surface as the surface of the housing 10 with which one side surface of the speaker box 8b is in contact, where the speaker box 8b is not in contact.
The intake-side fan 9 a introduces air (outside air) outside the housing 10 into the housing 10, and the exhaust-side fan 8 b exhausts the air inside the housing 10 to the outside of the housing 10. Therefore, the fan 9 creates an air flow in the space on the rear side in the housing 10. A plurality of intake side fans 8a and exhaust side fans 8b may be provided.

Here, the fan 9 is described as being attached to the openings 10b and 10c. However, if the light source 2, the display device 3, the substrate 5 and the power supply device 6 can be efficiently cooled, the fan 10 is not necessarily provided. It may not be attached to 10c. Moreover, the fan 9 should just have at least one fan which discharges the air which cooled the light source side 2 out of the housing 10.
For example, one fan 9 is attached near the light source 2, the opening 1 c is on the side of the housing 10 on the side where the light source 2 is disposed, and the opening 10 b is on the side of the housing 10 facing the opening 1 b. If so, the air whose temperature has risen by cooling the light source 2 can be immediately discharged out of the housing 10 from the opening 10c.

  The housing 10 is an outer case that houses the light source 2, the display device 3, the optical system 4, the substrate 5, the power supply device 6, the speaker 7, the speaker box 8, and the fan 9 that are components of the projector 1. As shown in FIG. 1A, the upper surface of the housing 10 has an opening 10a provided for projecting an image from the optical system 4, and a transparent plate is attached to the opening 10a. .

  In addition, as shown in FIG. 1B, an opening 10b is provided on the side surface of the housing 10. The intake-side fan 9a shown in FIG. 2 is attached at the position of the opening 10b. As shown in FIG. 1C, an opening 10c is provided on the side surface of the housing 10. And the exhaust side fan 9b of FIG. 2 is attached to the position of this opening part 10c.

By providing the opening 10b and the opening 10c at two places on the housing 10, the inside of the housing 10 can be ventilated. Further, the fan 9a attached to the opening 10b sucks air from outside the housing 10 to cause a flow in the air inside the housing 10 to cool the light source 2 and the like. And the air which cooled the light source 2 etc. and temperature rose can be efficiently discharged | emitted out of the housing 10 with the fan 9b attached to the opening part 10c.
Moreover, as shown in FIG.1 (d), the opening part 10d and the opening part 10e are provided in the front surface of the housing 10. As shown in FIG. 2 is disposed at the position of the opening 10d, and the speaker 7b of FIG. 2 is disposed at the position of the opening 10e.

Next, the arrangement of the components (components) of the projector 1 will be described with reference to FIG.
FIG. 3B is a cross-sectional view taken along the line BB of FIG. 1A, and is a cross-sectional view on the intake fan 9a side. As shown in FIG. 3B, the substrate 5 and the power supply device 6 are arranged so as to overlap in the vertical direction. Then, the back surface 8a1 of the speaker box 8a, the rear side opposite to the surface on which the speaker 7a of the housing 10 is disposed, and the inner surface 101 at the upper part of the rear side, and the front surface on which the speaker 7a is disposed A space is formed by the inner surface 102 and the inner surface 103 of the bottom of the rear side of the housing 10.

  And the board | substrate 5 and the power supply device 6 are arrange | positioned at the bottom face side of this space. Therefore, there is a space on the upper side of the substrate 5 and the power supply device 6. Then, an air flow is generated in the space by the intake-side fan 9a disposed on the side surface of the housing 10. The substrate 5 and the power supply device 6 are cooled by the air flow by the intake fan 9a.

  Furthermore, since the intake-side fan 9a is attached to the opening 10a of the housing 10, the intake air fan 9a efficiently intakes air from the outside of the housing 10. The board 5 and the power supply device 6 are disposed at a position closest to the intake side fan 9a.

  The flow of air sucked from the outside of the housing 10 by the intake-side fan 9a is arranged on the back surface 8a1 of the speaker box 8a, the inner surface 101 on the upper rear side of the housing 10, and the speaker 7a of the housing 10. It is generated in a space constituted by an inner surface 102 that faces the opposite surface and an inner surface 103 of the bottom of the rear side of the housing 10.

FIG. 3C is a cross-sectional view taken along the line CC of FIG. 1A, and is a cross-sectional view between the speaker boxes 8a and 8b. As shown in FIG. 3C, the optical system 4 and the display device 3 are arranged. The display device 3 that generates heat next to the light source 2 is also a space formed by the back surface of the speaker box 8 and the inner surface of the housing 10, and is disposed on the air path 12 formed by the air flow generated by the fan 9. Has been. Therefore, the display device 3 is also cooled next to the substrate 5 and the power supply device 6 by the air flow generated by the fan 9.
The space formed by the rear upper surface of the optical system 4 and the upper inner surface of the rear side of the housing 10, and the rear bottom surface of the optical system 4 and the inner surface of the rear side bottom of the housing 10, so that air generated by the fan 9 is generated. Is smooth and noise (wind noise) can be reduced.

FIG. 3D is a cross-sectional view taken along the line DD of FIG. 1A and is a cross-sectional view on the exhaust fan 9b side. As shown in FIG. 3D, the light source 2 faces the back surface 8b1 of the speaker box 8b, the inner surface 101 on the rear upper side of the housing 10, and the surface of the housing 10 on which the speaker 7a is disposed. A space formed by the inner surface 102 and the inner surface 103 of the bottom of the rear side of the housing 10 is arranged on the upper side. In the space formed by the back surface 8b1 of the speaker box 8b and the rear inner surface of the housing 10, an air flow is generated by the fan 9, and an air passage 12 is formed. The light source 2 is arranged on the formed air path 12. The light source 2 is cooled next to the display device 3 by the air flow generated by the fan 9.
And since the light source 2 is arrange | positioned in the position near the exhaust fan 9b arrange | positioned at the housing | casing 10 rather than the board | substrate 5, the power supply device 6, and the display device 3, it cools the light source 2 which generate | occur | produces the heat most. The air whose temperature has risen is immediately discharged from the housing 10 to the outside.

FIG. 4 is a diagram in which the projector 1 projects an image in the first embodiment.
The light emitted from the light source 2 of the projector 1 is transmitted or reflected through the display device 3 (transmission or reflection depends on the type of the display device), and the transparent plate of the projector 1 is arranged through the optical system 4 (FIG. 1). The image is output from the opening 10 a in FIG.
In other words, the image is displayed at a position above the back surface at a predetermined distance from a position above the back surface close to the projector 1.
For example, in FIG. 4A, the projector 1 is placed on a desk and an image is displayed on the screen 11. In FIG. 4B, the projector 1 is installed on the ceiling and an image is displayed on the screen 11. Since the projector 1 of the present embodiment can project at a short distance from the upper surface, it can display an image in a limited space.

Next, an operation in which the air flow generated by the fan 9 cools the substrate 5, the power supply device 6, the display device 3, and the light source 2 when the projector 1 operates will be described with reference to FIG.
When the projector 1 is powered and operated by the power supply device 6, the fan 9 also operates. Then, the intake-side fan 9a sucks air outside the housing 10 from the opening 10b of the housing 10. And the inhaled air is on the rear side in the projection direction of the housing 10, and is an inner surface that faces the surface on which the speaker 7 is disposed, an inner surface on the upper surface, and an inner surface on the bottom surface. The air in the housing 10 is discharged from the opening 10c of the housing 10 by the exhaust-side fan 9b through the space formed by the back surface of the speaker box 8. Then, as shown in FIG. 2, an air flow is generated in the direction from the intake-side fan 9a to the exhaust-side fan 9b, and the air passage 12 is formed.

  The air flow generated by the intake-side fan 9a and the exhaust-side fan 9b is generated in a space formed by the back surface of the speaker box 8 and the inner surface of the rear portion of the housing 10. For this reason, the substrate 5, the power supply device 6, the display device 3, and the light source 2 disposed in this space are sequentially cooled by the flow of air sucked from the outside of the housing 10. At this time, the light source 2, the display device 3, the substrate 5, and the power supply device 6, the substrate 5 and the power supply device 6, which generate less heat, are To be cooled.

The display device 3 that generates heat next to the substrate 5 and the power supply device 6 is cooled next to the substrate 5 and the power supply device 6 by the flow of air.
The air flow cools the substrate 5, the power supply device 6, and the display device 3, and finally cools the light source 2 that generates the most heat. The exhaust-side fan 9b discharges the air whose temperature has been increased by cooling these components (parts) from the opening 10c of the housing 10 to the outside of the housing 10.

  Here, it has been described that the center of the speaker 7 a and the center of the speaker 7 b are arranged so as to be the center of the projector 1. By disposing the optical system 4 between the speaker boxes 8a and 8b, air is introduced into the space formed by the rear rear surface of the speaker box 8a and the housing 10 or the rear rear surface of the speaker box 8b and the rear inner surface of the housing 10. A flow can be easily generated. However, the optical system 4 may have another arrangement as long as the air flow is generated.

  Here, it has been described that the intake-side fan 9a is attached to the opening 10b of the housing 10 and the exhaust-side fan 9b is attached to the opening 10c. However, the opening 10b and the opening are provided at two locations on the housing 10. It is only necessary to provide at least one fan 9 that is provided with the portion 10c and that cools the light source 2, the display device 3, the substrate 5, and the power supply device 6 and discharges the air whose temperature has risen from the housing 10. The air flow generated by the fan 9 cools the light source 2, the display device 3, the substrate 5, and the power supply device 6 that generate heat, and the air whose temperature has risen due to the cooling is increased by the opening 10 b and the opening 10 c. What is necessary is just to arrange | position so that it may discharge | emit efficiently outside.

  As described above, on the inner surface of the rear side of the speaker box 8 (the rear outer surface facing the surface on which the speaker 7 is attached) and the rear portion of the housing 10 (the portion on the opposite side to the surface on which the speaker 7 is disposed). The light source 2, the display device 3, the substrate 5, and the power supply device 6 arranged in the space to be configured are cooled by the air flow generated by the fan 9, and the housing 10 is formed by the two openings 10 b and 10 c provided in the housing 10. Since the inside is ventilated, the sound quality of the speaker 7 can be improved and the light source 2 and the like can be efficiently cooled to improve the waste heat effect.

Further, since the light source 2 is arranged at the closest position to the exhaust fan 9 attached to the opening 10c of the housing 10, the air whose temperature has risen by cooling the light source 2 is efficiently discharged outside the housing 10. Can be exhausted.
Further, since the air flow in the air passage 12 is smooth, noise (wind noise) can be reduced.
In addition, the sound quality can be improved by housing the speaker 7 in a closed space with a large capacity of the speaker box 8.

In addition, since the projected image can be imaged at the center of the projector 1 and the sound image can be imaged from the left and right speakers 7 at the same distance, the sound is optimal for the viewer who views the image at an appropriate position. Can be.
In addition, since the projection is performed from the upper surface of the projector 1, the projection distance is short, and it can be used for various installation methods such as a ceiling-mounted installation or a desk / desk installation in a limited space, and the sound quality of the speaker 7 is improved. However, the waste heat effect can be improved by efficiently cooling the light source 2 and the like.

Embodiment 2. FIG.
In the second embodiment, an example in which there is a partition plate that prevents air from passing between the speaker box 9 and the optical system 4 will be described.
FIG. 5 is an internal configuration diagram of the projector 1 according to the second embodiment.
6 is a cross-sectional view of the projector 1 taken along the lines BB, CC, and DD shown in FIG. 1 according to the second embodiment.
In FIG. 5, the difference from the first embodiment is that a partition plate 13a is provided between the speaker box 9a and the optical system 4, and a partition plate 13b is provided between the speaker box 9b and the optical system 4. is there. Since the other configuration is the same as that of the first embodiment, the description thereof is omitted.

The partition plate 13 is disposed so as to be continuously joined to the back surface of the speaker box 9. The partition plate 13 prevents the air flow generated in the space formed by the back surface of the speaker box 9 and the inner surface of the rear portion of the housing 10 from flowing along the optical system 4 between the speaker box 9a and the speaker box 9b. Can be.
FIG. 6C is a cross section in which the optical system 4 is disposed, and shows that the partition plate 13 is disposed continuously with the back surface of the speaker box 9.

In the configuration of the second embodiment, the air flow is generated by the fan 9 in the space formed by the rear surface of the speaker box 8, the rear inner surface of the housing 10, and the partition plate 13, thereby forming the air path 12. .
Since the partition plate 13 is provided, there is no gap between the speaker box 8a and the optical system 4 and between the speaker box 8b and the optical system 4, and the air flow generated by the fan 9 Between the optical system 4 and the optical system 4. That is, the air stagnates by eliminating a gap through which air flows on the rear surface of the speaker box 8, the inner surface of the rear portion of the housing 10, and the plane parallel to the air passage 12 formed in the space formed by the partition plate 13. Since it flows efficiently and is discharged out of the housing 10, the light source 2 and the like can be efficiently cooled.
Further, since the partition plate 13 is provided, the air sucked by the intake fan 9a does not flow into the space between the speaker box 8 and the optical system 4, and the intake-side fan 9a and the exhaust-side fan 9b are connected. Since it flows without stagnation in the connecting direction, noise can be reduced.

Embodiment 3 FIG.
In the third embodiment, an example in which an acoustic duct is provided in the speaker box 8 will be described.
FIG. 7 is an internal configuration diagram of the projector 1 according to the third embodiment.
In FIG. 7, the difference from Embodiment 1 is that an acoustic duct 15a is provided in the speaker box 9a, and an acoustic duct 14b is provided in the speaker box 9b. Since the other configuration is the same as that of the first embodiment, the description thereof is omitted.

The acoustic duct 14a is provided between the speaker 7a and the surface of the speaker box 8a on the optical system 4 side. And it opens in the front surface of the direction where the sound comes out of the speaker 7a and the speaker box 8a.
Similarly, the acoustic duct 14b is provided between the speaker 7b and the surface of the speaker box 8b on the optical system 4 side, and opens in the front of the speaker 7b in the direction of sound and in the speaker box 8b.
By providing the acoustic duct 14, the mid-low range of the sound generated from the speaker 7 can be enhanced.

Since the opening of the acoustic duct 14 is not provided on the rear surface of the speaker box 7, the air in the air passage 12 does not pass through the acoustic duct 15.
Here, the acoustic duct 14 has been described as being provided between the speaker 7 and the surface of the speaker box 8 on the optical system 4 side, but may be provided between the speaker 7 and the outer surface side of the speaker box 8. Good.
Moreover, the acoustic duct 14 may be provided on the side surface (the side on which the fan 9 is disposed) of the speaker box 8, or may be provided on the upper surface or the bottom surface.
Here, one acoustic duct 14 is provided for the speaker box 7, but a plurality of acoustic ducts 14 may be provided.
As described above, by providing the acoustic duct 14 in the speaker box 7, the housing 10 can be ventilated through the two openings provided in the housing 10, and the rear surface of the speaker box 7 and the inner surface of the rear portion of the housing 10. It is possible to efficiently cool the light source 2 and the like disposed in the space constituted by the above, improve the waste heat effect, and at the same time enhance the mid-low range sound emitted from the speaker 7.

Embodiment 4 FIG.
In the fourth embodiment, an example in which both the partition plate 13 described in the second embodiment and the acoustic duct 14 described in the third embodiment are provided will be described.
FIG. 8 is an internal configuration diagram of projector 1 in the fourth embodiment.
In FIG. 8, the difference from the first embodiment is that a partition plate 13 is provided between the speaker box 8 and the optical system 4, and an acoustic duct 14 is provided in the speaker box 8.
The partition plate 13 has the same configuration as that of the second embodiment, and the acoustic duct 14 has the same configuration as that of the third embodiment.
In this way, the configuration in which the partition plate 13 and the acoustic duct 14 are provided enables ventilation of the housing 10 through two openings provided in the housing 10, and the rear side of the speaker box 7 and the rear inner side of the housing 10 are provided. The light source 2 arranged in the space constituted by the surfaces is efficiently cooled to improve the waste heat effect, and at the same time, the air flow for cooling the light source 2 etc. flows between the speaker box 8 and the optical system 4. It is discharged out of the housing 10 without stagnation, and noise can be reduced. Furthermore, the mid-low range sound can be enhanced.

DESCRIPTION OF SYMBOLS 1 Projector, 2 Light source, 3 Display device, 4 Optical system, 5 Board | substrate, 6 Power supply device, 7 Speaker, 8 Speaker box, 9 Fan, 10 Housing, 11 Screen, 12 Air path, 13 Partition plate, 14 Sound duct

Claims (10)

In a small projector equipped with a light source, an image generation device, a substrate and a power supply in the housing,
The housing is provided with a first opening and a second opening facing the first opening,
A pair of speaker boxes for housing speakers arranged in the housing;
A fan that cools the light source disposed in a space formed by a rear outer surface of the speaker box and a surface that is an inner surface of the housing and that is the same as a direction in which an image is projected. Projector. The projector according to claim 1 , wherein the fan further cools the image generation device, the power supply apparatus, and the substrate. The second fan disposed in the second opening exhausts to the outside of the housing;
The light source projector according to claim 1 or claim 2 than the substrate and the said image generation device power, characterized in that located closer to the second fan. The projector according to claim 3 , wherein the image generation device is disposed at a position closer to the second fan than the power supply device and the substrate. The first first the fan disposed in the opening of the projector according to any one of claims 1 to 4, characterized in that air from outside the housing. The speaker box, the loudspeaker speaker plane and directly faces a surface mounted box is claim 1-5, characterized in that arranged parallel to the flow of air caused by the fan 1 The projector according to item . An optical system that includes a plurality of optical components and forms an image of light from the image generation device on the outside of the housing;
The projector according to any one of claims 1 to 6, the optical system, characterized in that disposed between the pair of the speaker box. The projector according to claim 7 , further comprising a partition plate that connects the optical system and a rear outer surface of the speaker box. The speaker box, the projector according to any one of claims 1-8, characterized in that a sound duct. The first side and the top surface and the outer surface of the bottom surface of the speaker box, a projector according to any one of claims 1 to 9, characterized in that in contact with the inner surface of the housing.

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