JP4605466B2 - projector - Google Patents

Description

  The present invention relates to a data projector that projects an image based on a video signal or the like.

  2. Description of the Related Art Today, data projectors that project an image displayed on a personal computer screen, an image of a video signal, an image based on image data stored in a memory card or the like onto a screen are widely used.

  In many cases, this data projector uses a small high-intensity light source such as a metal highland lamp or an ultra-high pressure mercury lamp, and light emitted from the light source is converted into light of three primary colors by a color filter. It is structured to irradiate a display element called DMD (Digital Micro Device) and project the transmitted light or reflected light of the display element onto a screen through a lens group which is a projection side optical system having a zoom function. Yes.

This data projector has a large amount of heat generated from the light source, and further includes a heat source such as a light source side optical system, a power supply circuit, and a display element. Therefore, an air cooling fan is provided to provide a light source device or power supply circuit that is a heat source. The mechanism which cools etc. is built in.
As this cooling mechanism, there has been proposed a light source device that has a particularly high temperature and generates a large amount of heat as well as another heat source, and also separates an optical system, a power supply unit, and the like to perform cooling for each section ( For example, Patent Document 1).
JP 2004-054055 A

  In addition to the high temperature and high heat generation light source lamp, the data projector incorporates a heat source such as a power supply circuit, a light source side optical system, and a DMD as a display element. The cooling fan is provided, which makes it difficult to reduce the size and thickness of the projector, and also causes noise due to the fan.

  The present invention provides a compact and low-noise data projector by cooling all heat sources including a light source device that is a high heat source by a single blower.

The present invention provides a projector in which a light source device (61), a light source side optical system, a display element (51), a projection side optical system, and a blower (110) serving as a power supply circuit, projector control means, and a cooling fan are housed in a casing. (10) A lamp house (120) for housing the light source device (61) is provided in the housing of the projector (10), and a single cooling fan is disposed outside the lamp house (120) in the housing. The air outlet (113) of the cooling fan is placed close to the light source device (61) to cool the light source device (61) housed in the lamp house (120) and also to cool the heat source outside the lamp house. The lamp house (120) isolates the air discharge port (113) of the cooling fan and the light source device (61) housed in the casing excluding the exhaust passage from the lamp house (120) to the outside of the casing. Projects with a sealed structure for cooling Kuta (10).

  The cooling fan is a blower (110) that sucks air in a space inside the casing other than the lamp house (120) and exhausts it into the lamp house (120). The lamp house (120) is a part of the casing. The exhaust surface of the lamp house (120) is formed on one surface so that the exhaust opening of the lamp house (120) is opposed to the surface of the lamp house (120). In this part, the projector (10) is provided with a vent (18) for sucking outside air.

  Further, the lamp house (120) is formed by a partition (121 to 125) surrounding the left and right and the rear of the light source device (61) and a house cover (127) covering the light source device (61). In addition to the partition wall portions (121 to 125) and the house cover (127), (120) may be provided with a flat plate-like house base (131) that is connected and fixed to the lower ends of the partition wall portions (121 to 125).

  In addition, a cushion material (21) positioned above the vicinity of the air discharge port (113) of the cooling fan may be provided on the lower surface of the upper plate (11) of the projector (10), and the air discharge port ( 113) is provided with a cushioning material (115) on the outer peripheral edge near the tip of the air discharge port (113), and the partition of the lamp house (120), the circuit board (103) or the upper surface plate of the projector (10) ( In some cases, the projector (10) may be formed by pressing the cushion material (115) to 11).

In addition, a cushion material (31, 32) for placing the lower ends of the partition walls (121 to 125) of the lamp house (120) may be provided on the upper surface of the bottom plate (16) of the projector (10). The partition walls (121 to 125) and the house cover (127) of the house (120) may be formed of a heat insulating material.
The cooling fan sucks air from outside the projector housing for cooling the heat source outside the lamp house (120), and sucks air that cools the heat source outside the lamp house (120). The light source device housed in the lamp house (120) is cooled.

  In the present invention, since the light source device is disposed in the vicinity of the air discharge port of the cooling fan, the light source device can be sufficiently air-cooled by blowing exhaust air from the cooling fan to the light source device having the highest temperature and high heat generation. Cooling air that cools the light source device by storing the device in the lamp house is discharged from the front plate, and other heat sources are cooled by outside air sucked into the cooling fan. The lamp house has a sealed structure with respect to the inside of the casing excluding the air discharge port of the cooling fan and the exhaust passage from the lamp house to the outside of the casing, so that the light source device is cooled. Air can be reliably discharged outside the housing, and each heating source in the projector can be cooled by a single cooling fan.

  By using a single cooling fan, the projector can be reduced in size and thickness, and the air blown from the air discharge port by the cushioning material is prevented from returning to the cooling fan intake port. In this case, the high-temperature exhaust heat from the light source device can be more reliably discharged outside the projector, and each heat source in the projector can be effectively cooled.

  The projector 10 according to the present invention arranges the projection side optical system along the side plate of the housing, arranges the display element 51 near the back plate 13 in accordance with the optical axis of the projection side optical system, and attaches the display element. A gap is provided between the plate 55 and the back plate 13 to form an air flow path, and the radiator 53 of the display element 51 is disposed in the air flow path, and the light source device 61 is positioned inside the projection side optical system. In the vicinity of the light source device 61, partition walls 121 to 125 made of heat insulating material are provided on the left and right and rear to form the lamp house 120. The light source device 61 is housed in the lamp house 120, and the lamp house 120 includes the partition walls 121 to 125. The cooling fan air and the cooling fan air from the exhaust opening in front of the lamp house 120 to the front plate 12 having the vent hole 18 so as to be separated from the space in the housing of the projector 10 except for the air discharge port 113 of the cooling fan. Run against the inside of the casing excluding the discharge port 113 It is intended to house 120 and the sealing structure.

  Then, a sirocco type blower 110 as a cooling fan is arranged at substantially the center of the projector 10, and the cooling fan sucks in air in the housing of the projector 10 other than the lamp house 120, and the air discharge port 113 of the cooling fan is used as the light source device. Positioned in the vicinity of 61, the cooling fan discharge air is blown to the light source device 61 from between the partition portions 121 to 125, and the air blown to the light source device 61 is discharged from the front plate 12 of the housing to the outside of the projector 10. It is.

  Further, a ventilation hole 18 as an exhaust port is provided in the right side plate 14, the left side plate 15 or the rear side plate 13 excluding the front plate 12, and a blower packing 115 as a cushion material is provided on at least the upper surface of the air discharge port 113 of the cooling fan. This cushion material is pressed against the control circuit board 103 or the upper surface plate 11 provided above the cooling fan, and the air discharged from the discharge port 113 or the air in the vicinity of the partition walls 121 to 125 serves as the cooling fan intake air. A barrier that flows into the mouth 111 is formed of a cushioning material.

  The light source device 61 is housed in the lamp house 120 surrounded by the left and right and rear partition walls 121 to 125 of the light source device 61 and the house cover 127 and the house base 131 covering the light source device 61, and the upper ends of the partition walls 121 to 125 are It protrudes above the house cover 127 and is brought into contact with the upper surface plate 11. A space is formed between the upper surface plate 11 and the house cover 127 to form a house upper space, and the lamp house 120 is a cushioning material. It is fixed to the bottom plate 16 via the packings 31 and 32, and a lower house space is formed between the bottom plate 16 and the house base 131 below the house base 131, and the house body space, the upper house space and the lower house space are formed. As the lamp house 120, a part of the air from the cooling fan flows into the space above the house cover 127 and below the house base 131 and is discharged from the front plate 12.

  Then, the control circuit board 103 as the main circuit board of the projector 10 is arranged in the vicinity of the cooling fan, and the intake air of the cooling fan is sucked along the control circuit board 103, and the power supply circuit is directly inside or controlled on the side plate of the housing. The circuit board 103 is provided.

  As shown in FIG. 1, the data projector according to the present invention has a substantially rectangular parallelepiped shape, and has a projection port 19 on the side of the front plate 12 as a housing, and the front plate 12 has a plurality of ventilation holes. 18 is provided.

  Although not shown in FIG. 1, a key / indicator portion is provided on the top plate 11 serving as a casing of the projector 10, and the key / indicator portion includes a power switch key and a power supply. Provided with keys and indicators such as a power indicator that notifies on or off, a lamp switch key that lights the lamp of the light source device, a lamp indicator that displays the lighting of the lamp, and an overheat indicator that notifies when the light source device overheats It is.

  In addition, on the back of the casing (not shown), control signals from the input / output connector section and the power adapter plug or remote controller, which are provided with a USB terminal, D-SUB terminal for image signal input, S terminal, RCA terminal, etc. on the rear panel. Ir receiving unit and the like are provided.

  Note that a plurality of air holes 18 are provided in each of the right side plate, which is a side plate of the casing (not shown), and the left side plate 15, which is the side plate shown in FIG.

  The projector 10 includes a light source device 61, a color wheel 71 as a light source side optical system, a light guide rod 77, and a lens group of a light source side optical system for condensing light on the display element 51. Display element 51 that is an optical modulation element that receives light via the light source side optical system, a projection side optical system that projects an image formed by the reflected light of display element 51 on the screen, and further, light source device 61 and control It has a power supply circuit for supplying power to a circuit and the like, a microcomputer as a projector control means, and a cooling fan.

  The lens group of the projection side optical system has a fixed lens group and a movable lens group, and the movable lens group is driven for zoom adjustment and focus adjustment by a lens motor.

  As shown in FIGS. 2 and 3, the projector 10 includes a lamp house 120 having a front opening inside the front plate 12 in the housing of the projector 10, and a light source device inside the lamp house 120. The lamp house 120 is provided with an exhaust opening having a width that is about two-thirds of the front plate 12 that is more than half of the width of the front plate 12. A radiator 141 having a large number of fins 143 is provided.

  The lamp house 120 has a flat plate-shaped house cover 127 that covers the light source device 61. On the left and right sides and the rear side of the house cover 127 except for the front of the house cover 127, partition walls that surround the lamp house 120 are provided. 121 to 125 are separated from the internal space of the projector 10.

  As shown in FIG. 3, the house cover 127 is provided at a position slightly lower than the upper ends of the partition walls 121 to 125 provided around the house cover 127, and the upper ends of the partition walls 121 to 125 are arranged at the house cover 127. A lamp house 120 having a slightly higher space above the house cover 127 and forming a slight space above the house cover 127, and having a cover upper space between the house cover 127 and the upper surface plate 11 which is the housing of the projector 10, A taper portion 129 is provided on a part of the house cover 127.

The tapered portion 129 is formed in accordance with the position of the air discharge port 113 of the blower 110 serving as a cooling fan.
Further, behind the lamp house 120, a microcomputer as a projector control means, a control circuit board 103 to which various control circuits are mounted, a power circuit block 101 incorporating a lamp power source, and other various circuit elements are incorporated, and a lamp A projection-side optical system barrel 91 containing a projection-side optical system is arranged on the side of the house 120, a display element 51 is provided behind the projection-side optical system, and a cooling fan is provided at the approximate center of the housing. The blower 110 is provided.

The projector 10 housing the optical system, the control circuit, the lamp house 120, the cooling fan, etc. has a lower case made up of the rear plate 13 and the bottom plate 16, and an upper case made up of the upper plate 11, the right plate 14, and the left plate 15. A case and a front plate 12 are formed.
The projector control means controls the operation of each circuit in the projector 10, and includes a ROM that stores operation programs such as a CPU and various settings in a fixed manner, and a RAM that is used as a work memory. ing.

  In addition, an operation signal of a key / indicator unit composed of a main key and an indicator provided on the top plate 11 of the housing is directly sent to the projector control means, and a key operation signal from the remote controller is sent to the Ir receiving unit. , And the code signal demodulated by the Ir processor is sent to the projector control means.

  The projector control means also controls the power supply control circuit. When the lamp switch key is operated, the lamp of the light source device 61 is turned on by the power supply control circuit, and the cooling fan drive control circuit has a light source. The temperature is detected by a temperature sensor provided in the device 61 or the like, and the rotation speed of the cooling fan is controlled.

  These ROM, RAM, IC and circuit elements are attached to a control circuit board 103 as a main control board. The power system power control circuit is incorporated in the power circuit block 101, and the control system main control board and The control circuit board 103 and the power system power supply circuit block 101 are separately formed.

  Further, as shown in FIGS. 3 and 4, the internal structure of the projector 10 is such that a power circuit block 101 incorporating a power control circuit is disposed in the vicinity of the right side plate 14, and a sirocco fan is provided at the approximate center of the bottom plate 16. The blower 110 of the type is arranged as a cooling fan, the discharge port 113 of the blower 110 as a cooling fan is fixed toward the light source device 61 containing the discharge lamp 63, and the projection side optical system is arranged along the left side plate 15 In addition, the light source device 61 and the light source side optical system are arranged inside the projection side optical system.

  The optical system of the projector 10 displays a light source device 61 in which an ultra-high pressure mercury lamp is provided as a discharge lamp 63 inside a reflector 65 whose front surface is covered with an explosion-proof glass 68, and light emitted from the light source device 61. A light source side optical system that irradiates a DMD (digital micromirror device) serving as an element 51, a display element 51, and a lens of a projection side optical system that emits light that is reflected by the display element 51 and forms an image to a screen It consists of groups.

  Further, as shown in FIG. 5, the light source side optical system is a part of which is housed in the lamp house 120, and changes the direction of the light emitted from the light source device 61 and the light source device 61. A color wheel 71 that is rotated around by a wheel motor 73 with a color filter that makes red light, green light, and blue light reflected by the first mirror 75 and the first mirror 75 and the filter of the color wheel 71 is transmitted. The incident-side end of the light guide rod 77 that makes the light having a uniform intensity distribution a light is positioned in the lamp house 120, and the light-emitting rod end 77 and the light emitted from the light guide rod 77 A light source side lens group formed by a prism that changes the direction of the light, and a plurality of lenses that collect light transmitted through the prism on the display element 51, and light transmitted through the light source side lens group at a predetermined angle to the display element 51 Lamp to irradiate mirror etc. In which are provided outside the mouse 120.

  A light source side optical system disposed outside the lamp house 120, such as a part of the light guide rod, a prism, and a light source side lens group, is covered with a light source side optical system cover 81 and fixed to the bottom plate 16. While the position of the side lens group is securely fixed at a predetermined position, a space is formed between the prism and the lens group to ensure air permeability.

  Furthermore, the projection-side optical system is a variable focus type lens having a zoom function as a fixed lens group built in a fixed lens barrel and a movable lens group built in a movable lens barrel. The projection lens is incorporated in the projection side optical system barrel 91 as a projection lens capable of zoom adjustment and focus adjustment by moving the group.

  Further, the rear plate 13 is provided with a vent 18 at a rear portion of the display element 51, and an air flow path is formed by the rear plate 13 and the display element mounting plate 55, and the vent 18 provided in the rear plate 13 and Outside air sucked from a vent hole 18 provided behind the left side plate 15 is caused to flow along the back plate 13 toward the blower 110.

  A display element radiator 53 is disposed behind the display element mounting plate 55. A part of the control circuit board 103 is disposed immediately above the intake port 111 of the blower 110, and the blower 110 The air flowing along the control circuit board 103 between the plurality of control circuit boards 103 or above or below each control circuit board 103 is arranged as a plurality of control boards so as to be arranged in the periphery of the blower 110. The mouth 111 is made to suck.

  Further, a part of the light source side optical system and the light source device 61 are housed in the lamp house 120 as described above, and this lamp house 120 has the right end of the radiator 141 as shown in FIG. And the L-shaped first partition wall 121 surrounding the rear from the right end of the radiator 141 to the approximate center of the radiator 141 and the light source device 61 from the left end of the first partition 121 to accommodate the rear of the light source device 61 And a second partition wall portion 122 having a dogleg shape for partitioning a circuit element and a substrate built in the projector 10 and a third partition wall portion 123 provided substantially parallel to the front plate 12 from the rear end of the second partition wall portion 122 to the left side. And the third partition wall portion 123 with a gap between them and disposed on the left side of the third partition wall portion 123. The front plate is moved backward from the third partition wall portion 123 so as to accommodate the color wheel 71 and the wheel motor 73. 12 so that the light guide rod 77 of the light source side optical system passes through the substantially parallel portion. A fourth partition 124 that supports the light guide rod 77 and a fifth partition 125 that partitions the projection side optical system and the light source device 61 so as to reach the front plate 12 continuously from the fourth partition 124 As shown in FIG. 3, the light source device 61 is accommodated with the upper part covered with a house cover 127 and the lower part of the house cover 127 as the house body space.

  The lamp house 120 includes a flat plate-shaped house base 131 that supports the lower ends of the first partition wall 121 to the fifth partition wall 125, and the partition walls 121 to 125 support the house cover 127 and the house. A house body space or a house upper space, which is a space that is surrounded by a base 131 and is open at the front, is formed.

The first partition wall portion 121 to the fifth partition wall portion 125, the house cover 127, and the house base 131 are made of heat-insulating plate materials.
Further, a radiator 141 having a large number of fins 143 is disposed at the exhaust opening of the lamp house 120, and the air exhausted from the vent hole 18 of the front plate 12 becomes locally hot or the light source device 61 The front plate 12 itself that is closest is prevented from becoming locally hot.

  Further, the discharge port 113 of the blower 110 is positioned near the light source device 61 toward a gap provided between the third partition wall portion 123 and the fourth partition wall portion 124 and a part of the fourth partition wall portion 124. In addition, a part of the fourth partition wall 124 is provided with a plurality of slits for ventilation.

  Accordingly, when the fan of the blower 110 provided in the approximate center of the casing is rotated, the blower 110 as a cooling fan sucks air around the blower 110 and sucks air around the blower 110 inside the projector 10, thereby The outside air is sucked into the projector 10 through a large number of ventilation holes 18 provided in the casing.

  The outside air sucked from the rear vent hole 18 in the left side plate 15 or the vent hole 18 provided in the rear plate 13 is interposed between the rear plate 13 and the display element mounting plate 55 so as to cool the display element radiator 53. The air flows through the air flow path, and is sucked into the air inlet 111 of the blower 110 through the control circuit board 103 through the space between the upper and lower surfaces of the control circuit board 103 and the control circuit board 103.

  Further, part of the outside air sucked into the projector 10 from the vent hole 18 of the right side plate 14 reaches the control circuit board 103 through the periphery of the power supply circuit block 101 and flows along the control circuit board 103. Then, the air is sucked into the air inlet 111 of the blower 110.

Further, the outside air sucked into the projector 10 from the vent hole 18 of the left side plate 15 cools the light source side lens group and prism provided under the light source side optical system cover 81, the end of the light guide rod 77, and the like. While being sucked into the air inlet 111 of the blower 110.
The power supply control circuit is not limited to the case where the power supply control circuit is provided in the power supply circuit block 101 separated from the control system circuit, and the power supply control circuit may be incorporated in the control circuit board 103 which is the main circuit board.

  Further, the number of control circuit boards 103 is not limited to one. As shown in FIG. 3, as shown in FIG. 4, in addition to those arranged in the vicinity of the intake port 111 that covers the upper side of the blower 110 as a cooling fan. A thing arranged near the rear of the blower 110, a thing arranged on the right side of the blower 110, and a thing arranged so as not to cover the air inlet 111 while being arranged near the upper part of the blower 110 may be used.

  The exhaust flow of the blower 110 blown into the lamp house 120 is partly blown to the wheel motor 74 and the color wheel 71, and most of the air flowing around the light source device 61 and around the light source device 61. A part of the air flows through the reflector 65 through an opening provided in the reflector 65, cools the light source device 61 and the color wheel 71, passes between the fins 143 of the radiator 141, and passes through the front plate 12. The air is discharged from the pores 18 to the outside of the projector 10.

Further, in the projector 10, as shown in FIG. 6, a blower packing 115 matching the tip shape is fixed near the tip of the air discharge port 113 on the upper surface of the air discharge port 113 of the cooling fan. .
When the blower packing 115 is mounted, a packing mounting groove is formed on the upper surface of the air discharge port 113 of the cooling fan over the front width of the discharge port 113, and the blower packing whose upper end is flat in the packing mounting groove. 115 is securely attached firmly.

  Thus, by providing the blower packing 115 as a cushion material on the upper surface of the discharge port 113 of the cooling fan, the control circuit board 103 covering the upper side of the cooling fan and the upper surface of the cooling fan on which the intake port 111 is formed are provided. A gap is formed between the blower 110 as a cooling fan to ensure the intake of air, and a part of the air blown from the discharge port 113 to the lamp house 120 and the air around the lamp house 120 are transferred from the intake port 111 to the cooling fan. The inspiration is prevented.

  Although not shown in FIG. 6, blower packing is also provided on the right and left side wall portions at the front end of the discharge port 113 of the cooling fan, the right blower packing is provided in the third partition wall portion 123, and the left blower packing is provided. The peripheral edge of the front end of the intake / discharge port 113 of the cooling fan may be brought into close contact with the partition wall of the lamp house 120 so as to be in pressure contact with the fourth partition wall 124.

Further, as shown in FIG. 7, an upper cover packing 21 is provided on the inner surface of the upper surface plate 11 as a housing in accordance with the position of the blower packing 115 described above.
The upper cover packing 21 is attached to the upper surface plate 11 over a range slightly wider than the left and right widths of the blower packing 115, and the control circuit board 103 covers the upper surface of the blower 110 as shown in FIG. The upper surface of the control circuit board 103 is brought into contact with the lower surface of the upper cover packing 21, which is a cushioning material, and the control circuit board 103 is sandwiched between the blower packing 115 and the upper cover packing 21 so as to be placed above and below the control circuit board 103. A space is formed to ensure air permeability.

  When the control circuit board 103 is disposed so as not to partially cover the cooling fan intake port 111, the upper cover packing 21 is omitted and the upper surface of the blower packing 115 is pressed against the inside of the upper surface plate 11. If the upper surface of the blower packing 115 and the lower surface of the upper cover packing 21 provided inside the upper surface plate 11 are pressed against each other, a large amount of air blows out from the cooling fan to the lamp house 120 or air around the lamp house 120 at the air inlet 111. You may want to avoid being inhaled.

  The upper cover packing 21 is attached to a packing receiving groove 25 formed slightly larger than the upper cover packing 21, as shown in FIGS. It is formed as a slight depression inside.

  Further, from the packing receiving groove 25 formed slightly larger and wider than the upper cover packing 21, the first partition wall portion 121, the second partition wall portion 122, and a part of the fourth partition wall portion 124 of the lamp house 120 and A house receiving groove 27 matching the shape of the five partition walls 125 is formed so as to reach the front edge of the upper surface plate 11 inside the upper surface plate 11.

  Accordingly, the first bulkhead 121, the second bulkhead 122, and a part of the fourth bulkhead 124 and the upper end of the fifth bulkhead 125 are inserted into the house receiving groove 27, and the third bulkhead 123 and the other part of the fourth partition 124 can be pushed into the packing groove 35 to which the upper cover packing 21 is attached so that the upper end of the partition of the lamp house 120 can be brought into close contact with the top plate 11. A space can be formed between the house cover 127 and the house cover 127.

  The upper space of the house, like the interior space of the lamp house 120, is open at the front, but is different from the other spaces inside the housing in the vicinity of or above the upper ends of the first partition wall 121 to the fifth partition wall 125. Air that is isolated by the cover packing 21 and blows out from the discharge port 113 of the cooling fan by forming a tapered portion 129 in a part of the house cover 127 as shown in FIGS. Can be guided to the space above the house cover 127 and discharged from the vent hole 18 of the front plate 12 to the outside of the projector 10.

Therefore, even if the temperature of the house cover 127 rises at a position directly above the light source device 61 that is at a high temperature, it is possible to prevent a part of the top plate 11 from becoming hot.
It should be noted that the upper end of the partition wall portion of the lamp house 120 is directly brought into contact with the inner surface of the upper surface plate 11 without forming the house receiving groove 27 on the inner side of the upper surface plate 11, or in accordance with the shape of the partition wall portion of the lamp house 120. The cushion material may be attached to the inside of the upper surface plate 11 in place of the house receiving groove 27.

  9 and 10, the lower case of the projector 10 has a blower hole 37 at the mounting position of the cooling fan on the bottom plate 16, and has a lamp insertion hole 41 at the mounting position of the light source device 61. In addition, the first partition 121, the second partition 122, and the third partition 123 of the lamp house 120 have a first cushion material that supports the lower ends of the first partition 121 to the third partition 123 according to the shape of the third partition 123. 1 lower case packing 31, a second lower case packing 32 and a third lower case packing 33 that support a part of the fourth partition wall portion 124 and the lower end of the fifth partition wall portion 125 are fixed to the packing groove 35. .

  Accordingly, as shown in FIG. 11, the cooling fan is housed inside the projector 10 so that the blower cover 39 is attached to the bottom plate 16 from below the bottom plate 16, and the lamp insertion hole 41 is provided as shown in FIG. The light source device 61 can be housed in the lamp house 120, the light source device 61 is fixed to the lamp cover 45, and the light source device 61 can be replaced by the lamp insertion hole 41.

  As shown in FIG. 13, the lamp cover 45 includes an inner cover 47 on the upper surface of the lamp cover 45, and fixes the light source device 61 on the inner cover 47. The periphery of the lamp cover 45 is a bottom. Although fixed to the periphery of the lamp insertion hole 41 of the face plate 16, the periphery of the inner cover 47 is in contact with the house base 131 of the lamp house 120.

  Accordingly, the lower end of the partition wall of the lamp house 120 is supported by the first lower case packing 31 to the third lower case packing 33, and the space formed between the bottom plate 16 and the house base 131 is supported by the inner cover 47. The lower part of the house can be formed below the house base 131 so as to be separated from the interior space of the 120, and a part of the air discharged from the air discharge port 113 of the cooling fan can be part of the lamp house 120. It can be discharged from the vent hole 18 of the front plate 12 to the outside of the projector 10 through the lower part.

  The first lower case packing 31 to the third lower case packing 33 may be omitted, the inner cover 47 may be omitted, and the house base 131 of the lamp house 120 may be directly attached to the bottom plate 16. May omit the house base 131 and attach the light source device 61 to the lamp cover 45 and the first mirror 75 or the wheel motor 73 to the bottom plate 16.

  However, in order to prevent the heat of the light source device 61 that reaches a high temperature from being transmitted to the bottom plate 16 and the bottom surface of the housing from becoming hot, the lamp house 120 having the heat-insulating house base 131 is preferable. The lower case packing 31 to the third lower case packing 33 and the inner cover 47 are provided to provide a space between the lamp house 120 and the bottom plate 16, or a part of the exhaust of the cooling fan is led to this space to the front plate Most preferably, the air is discharged from 12 vent holes 18.

  Thus, since the light source device 61 that has the highest temperature inside the projector 10 and generates a large amount of heat is disposed near the discharge port 113 of the blower 110 that serves as a cooling fan, a large amount of air is blown onto the light source device 61. Thus, the light source device 61 and the color wheel 71 disposed in the immediate vicinity of the light source device 61 can be effectively cooled.

  The light source device 61 is provided inside the lamp house 120 surrounded by the first partition part 121 to the fifth partition part 125 and the house cover 127, and the lamp house 120 is formed by the first partition part 121 to the fifth partition part 125. The house main body space is hermetically sealed so as to be separated from the internal space of the projector 10 except for the exhaust passage from the air discharge port 113 and the exhaust opening of the blower 110 serving as a cooling fan to the front plate 12.

  For this reason, the air blown into the lamp house 120 is discharged directly from the vent hole 18 of the front plate 12 to the outside of the projector 10, and the first partition part 121 to the fifth partition part 125 and the house cover 127 of the lamp house 120 are Since the heat insulating plate material is used, the exhaust heat of the light source device 61 is not transmitted to other spaces inside the projector 10, and the projector 10 can be cooled effectively.

  Further, the upper space of the house is also separated from the internal space of the projector 10 by the upper ends of the first partition wall portion 121 to the fifth partition wall portion 125 and the upper cover packing 21, and the lower space of the house is also divided into the first partition wall portion 121 to the fifth partition wall portion. Since the lower end of 125 is separated from the internal space of the projector 10 by the first lower packing 31 to the third packing 33, the air blown into the lamp house 120 from the air discharge port 113 of the blower 110 serving as a cooling fan is a light source device. After cooling 61, the air is reliably discharged from the vent hole 18 of the front plate 12 to the outside of the projector 10.

  Further, the display element radiator 53 and the power circuit block 101 are cooled by fresh outside air sucked into the projector 10 from the outside, and the control circuit board 103 is cooled by a large amount of air sucked into the blower 110. The heat source can be efficiently cooled by a single cooling fan, and the projector 10 can be downsized.

Since the blower 110 serving as the cooling fan is disposed near the center of the projector 10, the rotation sound of the fan is difficult to leak to the outside, and the noise from the fan can be reduced.
The display element radiator 53 is cooled by adjusting the position, number and size of the air holes 18 provided in the rear plate 13 of the projector 10 and the interval between the display element mounting plate 55 and the rear plate 13. Can be adjusted.

  The cooling of the power supply circuit block 101 can also be adjusted by the position, number and size of the air holes 18 provided in the right side plate 14, and the distance between the power supply circuit block 101 and the right side plate 14, and is a main circuit board. The control circuit board 103 also sets and adjusts the air flow rate and speed according to the distance from the air inlet 111 of the blower 110, the number of control circuit boards 103, and the distance between each control circuit board 103 and the control circuit board 103. Thus, the cooling efficiency can be adjusted.

  Further, among the plurality of control circuit boards 103 stacked at intervals, the control circuit board 103 arranged at the uppermost position is made larger than the other control circuit boards 103, and as shown in FIG. The upper part of the blower 110 may be covered with a part of the uppermost control circuit board 103.

  In this case, it is preferable to provide a plurality of vent holes in the control circuit board 103 arranged at the uppermost position of the plurality of stacked control circuit boards 103 in accordance with the position of the air inlet 111 of the blower 110.

  In this way, the light source device 61, which is a high-temperature heat source, is housed in the lamp house 120 to be isolated from other circuit components and optical components, and a cooling fan is provided in the housing of the projector 10 outside the lamp house 120 to discharge air. The outlet 113 is disposed in the vicinity of the light source device 61, and a cushioning material is provided on the upper surface of the air discharge port 113 so as to be in pressure contact with the upper surface plate 11 or the control circuit board 103 that covers the cooling fan. A cushion material that is in pressure contact with the portion is provided.

  Therefore, the air blown from the discharge port 113 to the light source device 61 and the air around the lamp house 120 are hardly sucked into the cooling fan intake port 111. The air from the lamp house 120 is effectively sucked in, cooled by fresh outside air that sucks heat sources other than the light source device 61 into the projector 10, and the high temperature light source device 61 in the lamp house 120 is cooled by the air blown out from the cooling fan. It can be discharged directly from the house 120 to the outside of the projector 10.

The cooling fan is not limited to the sirocco fan type blower 110.
The present invention is not limited to the embodiments described above, and can be freely changed and improved without departing from the gist of the invention.

The figure which shows the external appearance of the data projector which concerns on this invention. The figure which shows the state which removed the front plate of the data projector which concerns on this invention. The figure which shows the state which removed the upper case of the data projector which concerns on this invention. The figure which shows the attachment state of the cooling fan in the data projector which concerns on this invention. The figure which shows the lamp house incorporated in the data projector which concerns on this invention. The figure which shows the cooling fan used for the data projector which concerns on this invention. The figure which shows the state which attached the cushioning material inside the upper case of the data projector which concerns on this invention. The figure which shows the inner side of the upper case of the data projector which concerns on this invention. The figure which shows the state which attached the cushioning material inside the lower case of the data projector which concerns on this invention. The figure which shows the inner side of the lower case of the data projector which concerns on this invention. The bottom view which shows the state which attached the blower cover to the lower case of the data projector which concerns on this invention. The figure which shows the state which attaches a lamp unit to the data projector which concerns on this invention. The figure which shows the cross-sectional state of the data projector which concerns on this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Projector 11 Top plate 12 Front plate 13 Back plate 14 Right side plate 15 Left side plate 16 Bottom plate 18 Vent hole 19 Projection opening 21 Upper cover packing 25 Packing receiving groove 27 House receiving groove 31 First lower case packing 32 Second lower case packing 33 Third lower case packing 35 Packing groove 37 Blower hole 39 Blower cover 41 Lamp insertion hole 45 Lamp cover 47 Inner cover 51 Display element 53 Radiator 55 Display element mounting plate 61 Light source device 63 Discharge lamp 65 Reflector 68 Explosion-proof glass 71 Color wheel 73 Wheel motor 75 First mirror 77 Light guide rod 81 Light source side optical system cover 91 Projection side optical system barrel 101 Power circuit block 103 Control circuit board 110 Blower 111 Inlet port 113 Outlet port 115 Blower packing Grayed 120 lamp house 121 first partition wall 122 second partition 123 third partition wall 124 fourth partition walls 125 fifth partition wall 127 house cover
129 Taper 131 House Base 141 Heat Dissipator 143 Fin

Claims (11)

A light source device, a light source side optical system, a display element, a projection side optical system, and a projector including a power supply circuit, a projector control means, and a cooling fan,
A lamp house that houses the light source device provided in the projector housing;
The cooling fan is single and is disposed in the casing outside the lamp house and provided with an air outlet close to the light source device to cool the light source device housed in the lamp house. At the same time, the heat source outside the lamp house is cooled,
The lamp house has a sealed structure for isolating and cooling a light source device to be housed in the casing excluding an air discharge port of the cooling fan and an exhaust passage to the outside of the casing. Projector.   The projector according to claim 1, wherein the cooling fan sucks air from the space inside the casing other than the lamp house.   The said lamp house forms the exhaust flow path from the said lamp house by making the exhaust opening of a lamp house oppose to one surface of the said housing | casing. Projector.   The projector according to any one of claims 1 to 3, further comprising a vent for sucking outside air in a portion other than a portion of the surface of the housing facing the exhaust opening of the lamp house.   The said lamp house has the partition part which encloses the right and left of the said light source device, and the back, and the house cover which covers the said light source device, and is divided | segmented from spaces other than the lamp house in a housing | casing. The projector according to claim 4. The projector according to any one of claims 1 to 5, further comprising: a cushion material positioned above a vicinity of an air discharge port of the cooling fan on a lower surface of the upper surface plate forming the casing. .   The projector according to claim 5 or 6, wherein the lamp house has a house base to which a lower end of the partition wall is connected in addition to the partition and the house cover.   The air discharge port of the cooling fan has a cushion material on the outer peripheral edge near the tip of the air discharge port, and presses the cushion material against the partition portion of the lamp house, the circuit board, or the upper surface plate of the housing. A projector according to any one of claims 5 to 7, wherein   The projector according to any one of claims 5 to 8, further comprising a cushion material for placing a lower end of a partition wall portion of the lamp house on an upper surface of a bottom plate of the housing.   The projector according to any one of claims 5 to 9, wherein the partition wall and the house cover of the lamp house are formed of a heat insulating material. The cooling fan sucks air from outside the projector housing to cool the heat source outside the lamp house, and sucks air that cools the heat source outside the lamp house to be stored in the lamp house. The projector according to claim 1 or 2, wherein the light source device is cooled.

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