JPH06138397A - Image pickup device for endoscope - Google Patents

Abstract

PURPOSE:To easily and safely change an optical low pass filter. CONSTITUTION:A camera head part 2 connected to the ocular part of an endoscope is divided to be freely connected to an image pickup unit 6 and a cable unit 7 through an electric connector 13, and the optical low pass filter 14 is incorporated on the side of the image pickup unit 6, and the image pickup unit is prepared for every optical low pass filter having different constitution. In the case of changing the endoscope to be used, the image pickup unit 6 having the optimum filter 14 suitable for the endoscope is selected and connected to the cable unit 7. Since the filter 14 is changed by exchanging the unit 6 itself, exchanging work is simplified. In the case of exchange, the filter 14 itself is not taken out, so that dust does not enter the inside of an optical system, and the exchange is safely performed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image pickup device for an endoscope in which an optical low-pass filter can be easily and safely changed according to the type of endoscope used.

[0002]

2. Description of the Related Art In recent years, by inserting an elongated insertion portion into a body cavity through an oral cavity or the like, it is possible to observe or diagnose an affected area in the body cavity without making an incision, or to perform medical treatment using a treatment tool. The endoscope is widely used. Also,
In the industrial field, an industrial endoscope is used for inserting into a lumen of a plant or the like for the presence or absence of a damaged portion on the inner wall or for inspecting adhered matter on the inner wall.

As an endoscope of this type, an endoscope (hereinafter referred to as "fiberscope") for transmitting an endoscope image incident on the tip of the endoscope to a hand side through a fiber image guide, and a fiber image. An endoscope that transmits an endoscopic image to the proximal side without using a guide (hereinafter referred to as "hard endoscope")
However, in any of the endoscopes, an endoscopic image can be observed at an endoscope eyepiece provided on the near side.

As a means for observing the endoscopic image, other than the case of observing directly with the naked eye from the endoscope eyepiece section,
An image pickup device for an endoscope may be attached to the endoscope eyepiece and observed on a monitor.

This image pickup apparatus for an endoscope includes a camera head section having a built-in image pickup element for converting an endoscope image from the endoscope eyepiece section into an electric signal, and an electrical section extending from the camera head section. Connected to the cable via an electrical connector,
It is composed of a camera controller section for processing the electric signal obtained by the camera head section and outputting it as a video signal to the monitor.

By the way, in the above-mentioned fiberscope, the array of fibers forming the image guide and the image pickup device on the camera head side, the color separation filter or the TV horizontal scanning line interfere with each other and the moire fringes appear on the endoscopic image on the monitor. May occur.

In order to reduce the moire fringes, an optical low-pass filter is built in the camera head section, and an endoscopic image emitted from the endoscope eyepiece section is passed through the optical low-pass filter. An image is formed on the image pickup device.

The configuration of the optical low-pass filter that is optimal for removing the moire fringes differs depending on the type of endoscope used, and the optimal optical low-pass filter for the rigid endoscope is the fiber. It has a different structure from the optical low-pass filter used in the scope.

As described above, when using an endoscope, it is always necessary to select an optimum optical low-pass filter. Conventionally, this optical low-pass filter is selected according to the type of endoscope used. As means for selecting, for example, as disclosed in US Pat. No. 4,687,312, only an optical low-pass filter is taken out from an image pickup device and replaced, and an endoscope as disclosed in JP-A-2-289810. An optimal optical low-pass filter is attached to the eyepiece side, or JP-A-3-
As disclosed in Japanese Patent Publication No. 92127, several kinds of optical low-pass filters are built in the camera head in advance so that the optical low-pass filters can be selectively used according to the type of endoscope used. There are things to do.

There is also one in which several types of camera heads each having an optical low-pass filter having different characteristics are prepared and the entire camera heads are sequentially replaced according to the type of endoscope used.

[0011]

Problems to be Solved by the Invention US Patent No. 46873
In the technique disclosed in No. 12, dust or the like easily enters the inside of the image pickup apparatus when the optical low-pass filter is replaced, and easily adheres to the image pickup element or the internal optical system. In order to prevent this, when replacing the optical low-pass filter, a special technique for preventing dust or the like or a place requires a complicated handling and a new capital investment is required.

Further, in the technique disclosed in Japanese Patent Laid-Open No. 2-289810, the image quality when an endoscope is directly observed with the naked eye from the eyepiece of the endoscope is deteriorated by the optical low pass filter. There's a problem.

Further, in the technique disclosed in Japanese Patent Application Laid-Open No. 3-92127, several types of optical low-pass filters are built in the camera head section in advance, so that a mechanism for switching the optical low-pass filters is required. However, there is a problem that the structure becomes complicated, the size of the camera head is increased, and the weight is increased.

In addition, it is costly as a whole to always prepare several types of camera heads incorporating optical low-pass filters having different characteristics according to the endoscope, and the camera controller is incorporated in the camera heads. Since the cable for connecting to is extended, it becomes bulky during storage, and it is necessary to secure a storage space in advance.

The present invention has been made in view of the above circumstances. When exchanging an optical low-pass filter, dust or the like does not enter the optical system without using a special technique or place, and Can be stored compactly,
It is an object of the present invention to provide an endoscope imaging apparatus that is relatively inexpensive and easy to handle.

[0016]

According to the present invention, an endoscope image from the endoscope eyepiece section is passed through an optical low pass filter to a camera head section which is detachable from the endoscope eyepiece section. In an endoscope imaging apparatus provided with an image sensor for capturing an image and a cable connected to the image sensor, the camera head unit includes a cable unit having at least the cable, at least the optical low-pass filter, and the image sensor. And an image pickup unit having a different optical low-pass filter.

[0017]

[Operation] In the above configuration, when the endoscope to be used is changed, the image pickup unit connected to the cable unit is replaced with another image pickup unit that incorporates an optimal optical low-pass filter suitable for the endoscope to be used. Exchange.

As a result, it is possible to monitor and observe an endoscopic image without Moire fringes even with a modified endoscope.

[0019]

Embodiments of the present invention will be described below with reference to the drawings.

1 to 4 show a first embodiment of the present invention,
1 is a sectional view of the camera head portion in a divided state, FIG. 2 is a sectional view of the camera head portion, FIG. 3 is a sectional view of an image pickup unit, and FIG. 4 is an overall configuration diagram of an endoscope image pickup apparatus.

Reference numeral 1 in the figure is an image pickup device for an endoscope, which is composed of a camera head section 2 and a camera controller section 3. A TV monitor 4 is connected to the camera controller section 3 via a video signal cable 5. It is connected.

The camera head section 2 is composed of an image pickup unit 6 and a cable unit 7. A cable 8 extends from the rear end of the cable unit 7, and the camera controller section is provided at the end of the cable 8. An electrical connector 9 that is detachably connected to 3 is connected.
On the other hand, a rear end of an optical adapter 11 including an optical system 10 is detachably attached to the front end of the image pickup unit 6 of the camera head section 2. Also, this optical adapter 11
Is attached to the endoscope eyepiece portion 12a of the endoscope 12 such as a fiberscope or a rigid endoscope by a mount member 11a in a detachable manner.

The rear end portion 6a of the image pickup unit 6 of the camera head portion 2 and the front end portion 7a of the cable unit 7 are freely fitted to each other.
A plug 13a and a receptacle 13b of an electric connector 13 which are freely connectable to each other are fixedly mounted on a and 7a.

Further, an optical low-pass filter 14 having a characteristic of adapting to the endoscope 12 and capable of removing moire fringes is built in at the tip side of the image-pickup unit 6, and an image-pickup element is provided behind the optical low-pass filter 14. The image pickup device 15 and the peripheral circuit board 16 provided behind the image pickup device 15 are connected to the plug 13a of the electrical connector 13 via a signal cable 17. The cable 8 is connected to the receptacle 13b of the cable unit 7.

On the other hand, FIG. 3 shows another image pickup unit 21 which can be fitted into the cable unit 7.

The image pickup unit 21 can be adapted to an endoscope having a structure different from that of the optical low-pass filter 14 built in the image pickup unit 6, that is, the type of endoscope different from the endoscope 12 can be applied to remove moire fringes. The optical low-pass filter 14a having the characteristics is built in, and the other configuration is the same as that of the image pickup unit 6, and the description thereof will be omitted.

Next, the operation of the embodiment having the above structure will be described.

When observing the endoscopic image, the endoscopic image transmitted from the endoscope 12 is transmitted from the optical system 10 built in the optical adapter 11 to the optical low-pass filter built in the image pickup unit 6 of the camera head section 2. After being incident on the image pickup device 14 to remove the moire fringes, an image is formed on the image pickup device 15 arranged behind the optical low-pass filter 14.

In the image pickup device 15, the formed endoscopic image is converted into an electric signal and transmitted to the camera controller section 3 via the cable 8 extending from the cable unit 7 via the electric connector 13.

The camera controller 3 processes the electric signal transmitted from the image pickup device 15 and outputs it as a video signal to the TV monitor 4 via the video signal cable 5, and an endoscopic image is displayed on the TV monitor 4. Project.

On the other hand, when changing the endoscope to be used, it is necessary to select an optical low-pass filter suitable for the changed endoscope. For example, the imaging unit 21 shown in FIG.
When the optical low-pass filter 14a built into the camera has a configuration adapted to the changed endoscope, the image pickup unit 6 of the camera head unit 2 is removed from the cable unit 7, and the image pickup unit 21 is connected to the cable. Connect to unit 7.

When selecting an optical low-pass filter suitable for the changed endoscope, the optical low-pass filter 14 is selected.
(Or 14a) as the imaging unit 6 (or 21)
Since it is not necessary to directly take out from the optical low-pass filter 14 (or 14a), the space 18 between the optical low-pass filter 14 (or 14a) and the image pickup device 15 does not enter dust and the like, which is easy to handle and safe.

Further, since only the image pickup unit 6 (or 21) needs to be replaced, the cable unit 7 can be used in common, and therefore, the cost reduction can be realized by at least the common use of the cable unit 7. it can. Further, since it is not necessary to prepare a plurality of cable units 7, storage and management become easy.

FIG. 5 is a cross-sectional view of essential parts of an endoscope imaging apparatus according to the second embodiment of the present invention.

In the image pickup unit 31 shown in this embodiment,
The optical adapter 11 is integrally assembled.

According to the image pickup unit 31, the entire image pickup unit 31 can be replaced even if it is necessary to change the optical system 10 for changing the magnification. It is safe because dust etc. does not enter the inside.

In each of the above embodiments, the plug 13a of the electrical connector 13 is provided on the image pickup unit side and the receptacle 13b is provided on the cable unit side. However, the receptacle 13b is on the image pickup unit side and the plug 13a is on the cable unit side. It may be provided in.

[0038]

As described above, according to the present invention,
Since the configuration of the optical low-pass filter can be changed simply by replacing the image pickup unit, dust or the like does not enter the inside of the optical system of the image pickup device at the time of replacement, and therefore the dust or the like is prevented from entering. Not only does it require no special technology or space, the equipment cost can be reduced, but it can be replaced safely and easily.

Further, since the optical low-pass filter is provided on the image pickup unit side, the image quality when the endoscope is observed with the naked eye directly from the eyepiece of the endoscope is deteriorated by the optical low-pass filter. It is possible to always obtain good image quality.

Furthermore, since the structure of the optical low-pass filter is changed by replacing the image pickup unit itself, the structure of the camera head section is simplified and the overall size and weight of the camera head section can be reduced. You can

Also, since the cable unit side is shared, the cost can be reduced and the storage and management can be simplified and the storage can be made compact as compared with the conventional one in which the entire camera head is replaced. It becomes easy to handle.

[Brief description of drawings]

FIG. 1 is a sectional view of a divided state of a camera head portion according to a first embodiment.

FIG. 2 is a sectional view of the camera head section.

FIG. 3 is a sectional view of the imaging unit.

FIG. 4 is an overall configuration diagram of the endoscope imaging apparatus.

FIG. 5 is a cross-sectional view of essential parts of an endoscope imaging apparatus according to a second embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Imaging device for endoscopes 2 ... Camera head part 6, 21 ... Imaging unit 7 ... Cable unit 8 ... Cable 12a ... Endoscope eyepiece part 14, 14a ... Optical low pass filter 15 ... Imaging element

Claims (1)

[Claims] 1. An image pickup device for picking up an endoscopic image from the endoscope eyepiece through an optical low-pass filter on a camera head which is detachable from the endoscope eyepiece, and the image pickup device. In an endoscope imaging apparatus provided with a cable connected to an element, the camera head section is divided into a cable unit having at least the cable, and an imaging unit having at least the optical low-pass filter and the imaging element. However, the image pickup apparatus for an endoscope is replaceable with an image pickup unit having a different optical low-pass filter.