JPH0695251A - Overhead projector - Google Patents

Abstract

PURPOSE:To obtain a light weight and compact overhead projector by cutting off both corner parts of a main body on a light source side, thereby forming a tapered surface. CONSTITUTION:By cutting off both corner parts of the main body 12 on a light source unit 34 side, that is, dead spaces 42 and 42 being the inside space of the main body 12 and forming the tapered surface, the main body 12 is miniaturized, and an arm 22 is formed in a shape along the side surface of the main body 12 and the tapered surface 44 of a pedestal 14 with the miniaturization of the main body 12. Thus, this overhead projector is made light in weight and compact in comparison with the conventional overhead projector formed to be a rectangular box in a state where the dead space is still kept. An exhaust hole 48 is formed on the tapered surface 44 formed on the side surface of the main body 12 and a fan 60 is set inside the exhaust hole 48, so that air sucking efficiency and cooling efficiency are improved. Furthermore, by arranging the fan 60 in a duct 62 coupled with the exhaust hole 48, the air in the main body 12 sucked by the fan 60 is surely exhausted from the exhaust hole 48 through the duct 62 without allowing the air to escape from the peripheral part of the fan 60 into the main body 12, thereby improving exhausting efficiency and cooling efficiency.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overhead projector, and more particularly to a portable overhead projector.

[0002]

2. Description of the Related Art Among conventional overhead projectors, a transparent original placed on a Fresnel plate of an overhead projector main body (hereinafter abbreviated as "main body") is installed from below by a lamp provided inside the main body. Some illuminate and project this projection light toward a screen by a projection head. The projection head is attached to the tip of an arm, and the base of the arm is rotatably attached to the side surface of the main body.

The main body is formed in a rectangular box body, and an exhaust hole and a plurality of intake holes are formed on its side surface. Further, a cooling fan is installed inside the main body of the exhaust hole, and the fan is rotated to suck the outside air into the main body through the intake hole and exhaust the warmed air inside the main body through the exhaust hole. By doing so, the lamp, the power supply unit and the like installed in the main body are cooled.

Most of such overhead projectors are of a portable type, and when not in use, the arm is rotated to lie down the projection head toward the main body so that it can be stored or carried as it is. .

[0005]

However, the conventional overhead projector is large in size because it is formed in a rectangular box body that leaves the unused space in spite of the unused space in the main body. It has the drawback of being heavy. The present invention has been made in view of the above circumstances, and an object thereof is to provide a lightweight and compact overhead projector.

[0006]

In order to achieve the above object, the present invention provides an overhead projector main body formed in a box, and a base end portion thereof is rotatably supported on a side surface of the overhead projector main body. Also, in the overhead projector including an arm having a projection head attached to the tip thereof, the overhead projector main body is cut off at both corners on the light source side for illuminating the Fresnel plate on which the transparent original is placed. It is characterized in that the arm is formed in a tapered shape, and the arm is formed in a shape along the side surface of the overhead projector body and the tapered surface.

[0007]

According to the present invention, both corners on the light source side of the overhead projector main body are cut off to form tapered surfaces, thereby eliminating unused space in the internal space of the overhead projector main body. Since the arm is formed in a shape along the side surface and the tapered surface of the overhead projector body, the overhead projector can be made light and compact.

Further, by forming an exhaust hole on one side of the tapered surface portion and installing a cooling fan inside the exhaust hole, when the fan is rotated, all the intake holes are evenly distributed. The outside air is taken into the overhead projector body. Furthermore, by arranging the fan in the duct connected to the exhaust hole, the air in the overhead projector body sucked by the fan is
The air is surely exhausted from the exhaust hole through the duct without escaping into the main body of the overhead projector.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of an overhead projector according to the present invention will be described in detail below with reference to the accompanying drawings. FIG. 1 shows an overhead projector 1 according to the present invention.
It is a perspective view which shows the external appearance of the use condition of 0. The main body 12 of the overhead projector 10 is composed of a base 14 and an upper lid 16. The upper lid 16 has a transparent Fresnel plate 1
8 is fixed, and a transparent original (not shown) is placed on the upper surface of the Fresnel plate 18 while maintaining its flatness. The Fresnel plate 18 is covered with a cover 20 shown in FIG. 2 to prevent dust and the like from adhering to the upper surface of the overhead projector 10 when the overhead projector 10 is not used.

At the rear of the right side surface of the base 14 shown in FIG. 1, an arm 22 rotatable along the side surface is attached by a shaft 24. The arm 22 is bent in an oblique direction at the corner 22a, and is formed in a shape along the side surface shape of the main body 12, as shown in FIG. A projection head 26 is attached to the tip of the arm 22,
The projection head 26 is located at a predetermined projection position directly facing the Fresnel plate 18 when the arm 22 is rotated to the standing position shown in FIG.

The projection head 26 includes a Fresnel plate 18
A projection lens 28 is provided for enlarging and projecting the light condensed by the light source, that is, the light transmitted through the transparent original. A projection mirror 30 is provided above the projection lens 28. The projection mirror 30 has an angle of about 45 ° with respect to the optical axis of the projection lens 28.
By being tilted, the light from the projection lens 28 can be reflected toward a screen (not shown) and projected on the screen. Further, the projection mirror 30 is fixed to a mirror holder 32, and the mirror holder 32 is attached to the upper surface of the projection head 26 so as to be able to rise and fall.

As shown in FIG. 3, a light source unit 34, a reflection mirror 36, etc. are installed in the base 14. A power supply unit (transformer) 38 and a code reader 40 are arranged below the reflection mirror 36. The light from the light source unit 34 is condensed toward the reflection mirror 36, and then reflected by the reflection mirror 36.
The Fresnel plate 18 shown in FIG. As a result, the transparent document is illuminated.

Also, the corners on both sides of the light source unit 34 are dead spaces 42, 4 of a triangle surrounded by a chain double-dashed line.
2 is cut off to form tapered surfaces 44 and 46.
As a result, the main body 12 is lightweight and compact.
An exhaust hole 48 is formed in the tapered surface 44, and a tapered surface 46 is formed.
Intake holes 50 are formed in each of them. Further, intake holes 56, 58 are provided on both side surfaces 52, 54 of the reflection mirror 36.
Are formed.

A cooling fan 60 is installed inside the exhaust hole 48. The fan 60 is arranged in parallel with the tapered surface 44 and is rotated so that the intake holes 50, 5
The outside air is sucked into the main body 12 through 6, 58, and the air warmed in the main body 12 is discharged through the exhaust holes 48 to the outside. As a result, the Fresnel plate 18, the light source unit 34, the power supply unit 36, and the like installed in the main body 12 are cooled.

Further, the fan 60 is arranged in a duct 62 as shown in FIG. The duct 62 is connected to the exhaust hole 48, and has a shape that prevents the air in the main body 12 sucked by the fan 60 from escaping from the peripheral portion of the fan 60 into the main body 12.
It also helps prevent turbulence and reduces noise.
The overhead projector 10 configured as described above
According to the dead space 4 of the internal space of the main body 12,
2, 42 were cut off to reduce the size of the main body 12, and accordingly, the arm 22 was formed in a shape along the side surface of the main body 12 and the tapered surface 44 of the base 14. As a result, the overhead projector 10 of the present embodiment is lighter and more compact than a conventional overhead projector formed in a rectangular box body with a dead space left.

Further, by forming an exhaust hole 48 in the tapered surface 44 formed on the side surface of the main body 12 and installing a fan 60 inside the exhaust hole 48, an exhaust hole is formed on the side surface of the rectangular box body. Compared with the conventional overhead projector which formed the intake hole, all the intake holes 50, 56, 58
From this, it was found that the outside air was uniformly taken into the main body 12. As a result, the overhead projector 10 of the present embodiment improves the intake efficiency as compared with the conventional overhead projector, so that the cooling efficiency can be improved.

Further, since the fan 60 is arranged in the duct 62 connected to the exhaust hole 48, the air in the main body 12 sucked by the fan 60 can escape from the peripheral portion of the fan 60 into the main body 12. Instead, the air can be reliably exhausted from the exhaust hole 48 via the duct 62. As a result, the overhead projector 10 according to the present embodiment is configured so that the duct 6
Since the exhaust efficiency is improved as compared with the conventional overhead projector in which No. 2 is not provided, the cooling efficiency can be improved and the fan noise can be reduced.

[0018]

As described above, according to the overhead projector of the present invention, both corners on the light source side of the overhead projector main body are cut off to form a tapered surface, and the overhead projector main body is miniaturized. The arm was formed in a shape along the side surface and the tapered surface of the overhead projector body. As a result, the size and weight of the projector can be reduced as compared with the conventional overhead projector.

Further, since the exhaust hole is formed on one side of the tapered surface portion and the cooling fan is installed inside the exhaust hole, when the fan is rotated, the outside air is evenly distributed from all the intake holes. Can be sucked into the main body of the overhead projector. As a result, the cooling efficiency can be improved as compared with the conventional overhead projector.

Further, since the fan is arranged in the duct connected to the exhaust hole, the air in the overhead projector main body can be surely exhausted from the exhaust hole through the duct. As a result, the cooling efficiency can be improved and the fan noise can be reduced as compared with the conventional overhead projector.

[Brief description of drawings]

FIG. 1 is a perspective view showing a usage state of an overhead projector according to the present invention.

FIG. 2 is a perspective view showing an unused state of the overhead projector according to the present invention.

FIG. 3 is a top view of a base applied to an overhead projector according to the present invention.

FIG. 4 is a sectional view showing a fan mounting structure applied to an overhead projector according to the present invention.

[Explanation of symbols]

 10 ... Overhead projector 12 ... Main body 14 ... Base 16 ... Top lid 18 ... Fresnel plate 34 ... Light source unit 36 ... Reflection mirrors 44, 46 ... Tapered surface 48 ... Exhaust holes 50, 56, 58 ... Intake hole 60 ... Fan 62 ... Duct

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Shigeki Endo 3-11-46 Izumi, Asaka-shi, Saitama Fuji Shashin Film Co., Ltd.

Claims (3)

[Claims] 1. An overhead projector main body formed in a box, and an arm having a base end rotatably supported on a side surface of the overhead projector main body and a projection head attached to a front end thereof. In the overhead projector, the overhead projector main body is formed into a tapered surface by cutting off both corners on the light source side that illuminates the Fresnel plate on which the transparent original is placed, and the arm is a side surface of the overhead projector main body. ,
And an overhead projector characterized by being formed in a shape along a tapered surface. 2. An intake hole is formed in the overhead projector main body, and an exhaust hole is formed on one side of the tapered surface portion, and a cooling fan is installed inside the exhaust hole. The overhead projector according to claim 1, which is characterized in that. 3. The overhead projector according to claim 2, wherein a duct is connected to the exhaust hole, and the fan is arranged in the duct.