JPH08125891A - Portable ccd microscope with object illuminator - Google Patents

Abstract

PURPOSE: To prevent the fault of electronic components such as a CCD element, etc., due to the heat of a light source, and besides, to miniaturize a device down to portable size. CONSTITUTION: The inside of a camera body 3 to which an optical head 2 provided with an objective lens 18 is fitted attachably and datachably is petitioned into an electronic component storting part 8 to store the CCD element 4, etc., and a light source storing part to store the light source 6 through a heat insulating partition wall 7, and a cooling fan 15 is arranged in an air passage 16 running from an air inlet 10 formed on the side of the back of the camera body 3 to an air outlet 14 through the electronic component storing part 8 and the light source storing part, and a light projecting part 13 to emit illumination light projected from the light source 6 is formed at the front side opening part of the light source storing part. Then, a bundle fiber 20 to lead the illumination light emitted from the light projecting part 13 so as to irradiate a subject is laid.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera body to which an optical head having an objective lens is detachably mounted, and a CCD
Portable CCD with objective illumination, which includes a device, a CCD control unit, and a light source that illuminates a subject with illumination light
Regarding the microscope.

[0002]

2. Description of the Related Art A CCD microscope is equipped with a magnifying lens, for example, to magnify a microscopic image in a C
Since it can be output to an RT display, it is used for quality control of precision parts and electronic parts, and for observation in place of an optical microscope.

FIG. 2 is an explanatory view briefly showing such a conventional CCD microscope, in which a camera body 33 having a CCD element 32 built in a lens 31 for photographing a subject is provided.
Is detachably connected to a control box 37 containing a CCD control unit 35 and an illumination light source 36 via a cable 34, and an image signal output from the control box 37 is displayed on a CRT display 38.
It is designed to be displayed on.

A cable 34 for power supply sent from the CCD control unit 35 to the CCD element 32 and an electric signal output from the CCD element 32 are connected to a cable C.
A signal line 40 sent to the CD control unit 35 and a bundle fiber 41 that guides light from a light source 36 in the control box 37 and irradiates the subject from the outer circumference of the lens 31 are bundled.

Then, when the control box 37 is connected to a power source and the camera body 33 is directed to the subject, the light from the light source 36 is guided by the bundle fiber 41 and the lens 31.
The image of the subject projected by the lens 31 is converted into an electrical signal by the CCD 31 while the subject is illuminated from the outer periphery of the CCD control unit 3
CRT display 3 after further conversion into image signal at 5
8 is output, and an enlarged image of the subject can be viewed.

[0006]

However, such a conventional CCD microscope has a camera body 33.
Since the control box 37 and the control box 37 are separately provided and a display device for viewing the image is required, it is inconvenient to carry around when carrying it. Further, in order to guide the illumination light of the light source 36 arranged in the control box 37 to the camera body 33, the camera body 33 and the control box 37 must be connected by a heavy and highly rigid bundle fiber 41. Not only becomes heavy, but also the camera body 33 is swung around by the cable, which is not convenient.

Therefore, as shown in FIG.
2 and the light source 43 are integrated into a C body built in the camera body 44.
A CD microscope was proposed. In this case, since the light source 43 is arranged in the camera body 44, the camera body 44 becomes slightly larger, but it is sufficient to connect the control box 46 having the CCD control unit 45 built therein and the camera body 44 with an electric cord. Since it is not necessary to connect with a bundle fiber, it is relatively easy to use.

However, the light source 43 built in the camera body 44 includes a plurality of small halogen lamps as the objective lens 4.
7, the CCD element 42 is disposed on the optical axis, so that the heat of the halogen lamp is easily transmitted directly to the CCD element 42, and the electronic components are affected by the heat. There was a risk of failure.

Further, although the control box 45 does not need to be provided with a light source and can be downsized, it has to be constructed separately from the camera body 44, so that it is still inconvenient for portable use. If the CCD control unit 45 could be built in the camera body 44, it would be convenient for carrying, but the CCD control unit 4
5 is a high density mounting of electronic components that are sensitive to heat,
If it is built in the camera body 44 provided with the light source 43, there still remains a problem that a failure is likely to occur. Therefore, it is a technical object of the present invention to prevent electronic components such as CCD elements from being damaged by heat of a light source, and to make the portable device compact in size.

[0010]

In order to solve this problem, according to the present invention, an image of a subject formed by the objective lens is formed on a camera body to which an optical head having an objective lens is detachably mounted. , A CCD control unit for driving the CCD element, and a light source of illumination light for illuminating a subject through the interchangeable lens are built in, and the inside of the camera body is provided with a heat insulating partition wall. The electronic component storage is divided into an electronic component storage portion for storing the CCD element and the CCD control unit and a light source storage portion for storing the light source, and each storage portion is formed to open toward the front of the camera body. The air inlet and the air outlet are formed on the back side of the housing and the light source housing, and the ventilation holes that connect the housings are formed on the front side of the heat insulating partition. A cooling fan for cooling the inside of each storage unit by discharging the outside air introduced from the air inlet from the air outlet to the air flow path extending from the air inlet to the air outlet through the electronic component storage unit and the light source storage unit Is provided, a light projecting section for emitting the illumination light emitted from the light source is formed in the front opening of the light source storage section, and the illumination light emitted from the light projecting section is provided in the optical head. It is characterized in that a bundle fiber for guiding and irradiating a subject is wired.

[0011]

According to the present invention, since the electronic component housing portion for housing electronic components that dislike heat and the light source housing portion for housing the light source that generates heat are partitioned by the heat insulating partition wall, the heat of the light source is electronic. Hard to reach parts. In addition, the cooling fan forces the air flow path that is formed on the back side of the camera body, passes through the electronic component storage section, flows into the light source storage section, and reaches the air outlet formed on the back side by a cooling fan. Since the outside air is introduced into the housing from the low temperature electronic component storage portion toward the high temperature light source storage portion, the components disposed in the respective storage portions are reliably air-cooled. Therefore, even if all the electronic components are built in the camera body and the size is reduced to a portable size, the heat transmitted through the camera body does not cause a failure.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be specifically described below based on embodiments shown in the drawings. FIG. 1 is a sectional view showing an example of a portable CCD microscope with objective illumination according to the present invention.

A portable CCD microscope 1 with objective illumination according to the present invention has a camera body 3 having a removable optical head 2 and a CCD device for converting an image of a subject inputted from the optical head 2 into an electric signal. 4 and the CCD
A CCD control unit 5 that forms an image signal based on an electric signal output from the element 4 and outputs the image signal to the outside, and a halogen lamp (light source) 6 that illuminates an object with illumination light through the interchangeable lens 2 are built-in. ing.

The camera body 3 has a small portable liquid crystal monitor 25 for displaying an image based on the image signal output from the CCD control unit 5, and a portable battery having an appropriate DC output for driving these. The pack 24 is connected via electric cables 26 and 27. The weight of the camera body 3 with the optical head 2 attached is suppressed to about 500 g so that the camera body 3 can be operated with the right hand.

The inside of the camera body 3 is partitioned by a heat insulating partition 7 into an electronic component storage portion 8 for storing the CCD element 4 and the CCD control unit 5 and a light source storage portion 9 for storing the halogen lamp 6. The storage sections 8 and 9 are formed so as to open toward the front of the camera body 3. Then, the electronic component storage unit 8
The CCD element 4 is arranged in the front opening, and C
A CCD control unit 5 is arranged behind the CD element 4, and an air inlet 10 for introducing outside air to the back side.
Is formed, and is communicated with the light source storage portion 9 through the ventilation hole 11 formed in the heat insulating partition wall 7 at the tip side thereof.

Further, the light source housing portion 9 is formed with a light projecting portion 13 for emitting the illumination light emitted from the halogen lamp 6 and the reflecting mirror 12 at the front opening, and the air outlet 1 is provided on the back side.
4 is formed, and a fan 15 for forcibly discharging air from the air outlet 14 is provided, and a heat ray cut filter (not shown) is provided in front of the halogen lamp 6 and the reflecting mirror 12 as necessary. No.) can be provided.

Here, the electronic component storage portion 8 and the light source storage portion 9
Are communicated with each other through the ventilation hole 11 formed in the heat insulating partition 7, so that by driving the fan 15, the outside air is introduced from the air inlet 10, and the electronic component storage 8 and the light source storage 9 are introduced. An air flow path 16 that passes through the air outlet port 14 and is discharged from the air outlet port 14 is formed, and the CCD control unit 5 and the CCD element 4 arranged in the electronic component housing portion 8
Alternatively, the halogen lamp 6 arranged in the light source housing 9 is air-cooled.

In the optical head 2, an objective lens 18 having a desired magnification is attached to a mount 17 which is detachably mounted on the front side of the camera body 3, and a light receiving section 19 is provided at a position facing the light projecting section 13. A bundle fiber 20 for irradiating the subject with the illumination light incident from the light receiving portion 19 from the outer periphery of the objective lens 18 is wired, and the optical axes of the image and the illumination light are the optical axis of the camera body 3. It is mounted so that it matches exactly in position. Therefore,
As the objective lens 18, for example, a plurality of optical heads 2 each having a single focus lens with different magnification, a zoom lens capable of changing magnification, a polarizing lens and the like having different types attached to the mount 17 are prepared. By exchanging 2, the whole objective lens 18 can be exchanged.

Further, the light receiving section 19 is provided with a diaphragm 21 for adjusting the amount of light incident on the bundle fiber 20. The diaphragm 21 is formed, for example, by forming a large number of radial slits 23, 23 ... In a rotating disc 22 with different widths, and rotating the rotating disc 22 to change the width of the slit 23 through which light passes. , The amount of light is changed. Reference numeral 28 denotes an outside air introduction port formed on the front side of the light source housing 9 for cooling the halogen lamp 6 more effectively.

The above is the configuration example of the present invention, and its operation will be described below. First, the desired optical head 2 is attached to the camera body 3, and the camera body 3, the battery pack 24, and the small liquid crystal monitor 25 are connected to the electric cables 26 and 2.
Connect via 7. Then, for example, the battery pack 24 is attached to the waist, the liquid crystal monitor 25 is held in the left hand, and the camera body 3 is held in the right hand.

At this time, the light of the halogen lamp 5 arranged in the camera body 3 is guided from the light projecting section 13 to the light receiving section 19, propagates in the bundle fiber 20, and the objective lens 18
When the subject is irradiated from the outer periphery of the object and the amount of illumination light is large, the amount of light can be reduced by closing the diaphragm 21, and when the amount of light is insufficient, the amount of light can be increased by opening the aperture 21. In this way, the optimum amount of light can be obtained only by adjusting the diaphragm 21 without changing the brightness of the halogen lamp 5.

Then, the image of the subject is converted into an electric signal by the CCD element 4, and is output from the CCD control unit 5 as an image signal to the portable liquid crystal display device 25 through the electric cable 27, and an enlarged image of the subject is displayed. You can see. At this time, since the halogen lamp 5 is arranged in the light source storage portion 9, the heat thereof is difficult to be transmitted to the electronic component storage portion 8 partitioned by the heat insulating partition wall 7, and therefore, the CCD element 4 and the CCD. The control unit 5 is not heated by the heat.

Further, by driving the fan 15,
Outside air is introduced into the air flow path 16 from the air inlet 10,
Since the air is discharged from the air outlet 14 through the electronic component storage portion 8 and the light source storage portion 9, the CCD control unit 5 and the CCD element 4 arranged in the electronic component storage portion 8 are disposed.
In addition, the halogen lamp 6 arranged in the light source storage 9 is air-cooled, and the heat of the halogen lamp 6 is not transferred to the electronic component storage 8 through the ventilation hole 11. Further, the outside air is introduced from the outside air introduction port 26 formed on the front side of the light source storage portion 9, and the halogen lamp 5 is directly cooled.

Further, since the light of the halogen lamp 6 is guided to the periphery of the objective lens 18 via the bundle fiber 20, the halogen lamp 5 can be arranged away from the objective lens 18 and its optical axis, and therefore, , The halogen lamp 5 can be easily exchanged by simply opening the lid (not shown) of the light source storage unit 9, and the CC
It does not damage other parts such as the D element 3.

The diaphragm 21 may be provided not only in the optical head 2 but also in the light projecting section 13 of the camera body 6. In addition, the cooling fan 15 is the air outlet 1
Not only when it is installed in 4, but if there is no problem in space,
Air flow path 16 from the air inlet 10 to the air outlet 14
It can be provided at any place inside.

[0026]

As described above, according to the present invention, the light source accommodating portion for accommodating the heat generating light source and the electronic component accommodating portion for accommodating the heat-dissipating electronic components are partitioned by the heat insulating partition wall. The heat of the light source is difficult to transfer to the electronic components, and the cooling fan forcibly introduces the outside air into the air flow path from the electronic component storage section to the light source storage section, and the components stored in each storage section are air-cooled. Since the electronic components such as the CCD element are not damaged by the heat of 1., it is possible to store the required electronic components in the camera body and reduce the size to a portable size.

If the camera body, the monitor and the battery are separately constructed and are connected to each other via electric cables, the weight of the camera body can be reduced, so that the battery pack is relatively heavy. It has the effect of being able to take an image of a subject while holding it on the waist, holding the LCD monitor in the left hand, and operating the camera body with the right hand.

[Brief description of drawings]

FIG. 1 is a sectional view showing an example of a portable CCD microscope with objective illumination according to the present invention.

FIG. 2 is an explanatory view showing a conventional device.

FIG. 3 is an explanatory view showing a conventional device.

[Explanation of symbols]

 1 ... Portable CCD microscope with objective illumination 2 ... Optical head 3 ... Camera body 4 ... CCD element 5 ... CCD control unit 6 ... Halogen lamp (light source) 7 ... Thermal insulation partition 8 ... Electronic component storage 9 ... Light source storage 10 ... Air inlet 11 ... Vent hole 13 ... Projector 14 ... Air outlet 15 ... Cooling fan 16 ... Air flow path 18 ... Objective lens 19 ... Light receiving part 20 ... Bundle fiber 21 ... Aperture 24 ... Portable battery pack 25 ... Small liquid crystal monitor

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yuyuki Morito 3-14-14 Jingumae, Shibuya-ku, Tokyo Inside Moritex Co., Ltd.

Claims (3)

[Claims] 1. A camera body (3) to which an optical head (2) equipped with an objective lens (18) is detachably mounted, and an image of a subject formed by the objective lens (18) is converted into an electric signal. CCD element (4) for conversion and CCD control unit (5) for driving the CCD element (4)
And a light source (6) of illumination light for illuminating an object through the interchangeable lens (2), and the inside of the camera body (3) is provided with the CCD device (4) and The storage part (8, 9) is partitioned into an electronic component storage part (8) for storing the CCD control unit (5) and a light source storage part (9) for storing the light source (6), and each storage part (8, 9) is divided into a camera body (3). ) Is formed so as to open toward the front surface of the electronic component storage section (8) and the light source storage section (9), and an air inlet (10) and an air outlet (14) are formed on A ventilation hole (11) communicating with each storage section (8, 9) is formed on the front side of the heat insulation partition (7), and the air inlet (10) is formed.
The outside air introduced from the air inlet (10) is introduced into the air flow path (16) from the electronic component housing (8) and the light source housing (9) to the air outlet (14). ) To cool the inside of each compartment (8, 9) by air.
And a light projecting portion (13) for emitting the illumination light emitted from the light source (6) is formed in the front opening of the light source housing portion (9), and the optical head (2) is provided with A portable CCD microscope with an objective illumination, characterized in that a bundle fiber (20) for guiding the illumination light emitted from the light projecting portion (13) and irradiating the subject is wired. 2. The optical head (2) has a light receiving portion (19) of the bundle fiber (20) which receives light from a light source (6) arranged in the camera body (3), The portable CCD microscope with objective illumination according to claim 1, further comprising a diaphragm (21) for adjusting the aperture. 3. A portable battery pack (24) comprising a portable liquid crystal display device (25) for inputting an image signal from a CCD control unit (5) to the camera body (3) and a battery for driving them. ) Is connected via an electric cable (26, 27), the portable microscope with objective illumination according to claim 1.