JP2002354300A - Head separation type camera storing various data in head - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a head separation type camera capable of grasping the using states of a camera head, especially the number of times of sterilizing treatment by which the camera head is kept under a severe condition. SOLUTION: Since the number of times of using the camera head 1 is almost equal to that of the sterilizing treatment, the number of times of sterilizing treatment can be grasped from the number of times of using the head 1. A camera head memory 8 has a head counter 8a for storing the number of times of using the head 1. When the head 1 is connected to a camera control unit 4 and power is supplied for prescribed time, a microcomputer(MC) 5 judges that the head 1 is used. The MC 5 reads out the number of times of using the head 1 which is stored in the counter 8a and adds '1' to the read value to update the number of times.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an imaging device such as a video camera or an electronic endoscope, and more particularly to a camera head of the imaging device and a camera control unit for controlling the camera head, which are connected to each other. Head-separated camera.

[0002]

2. Description of the Related Art Small and lightweight imaging devices such as endoscopes are widely used in medical and industrial applications. Many of such imaging devices have a configuration in which a camera head and a camera control unit that controls the camera head are separate bodies, and are connected by a cable.

FIG. 3 is a diagram showing a schematic configuration of such an image pickup apparatus. The camera head 1 is provided with an image pickup device 2 for picking up a subject image. The image sensor 2 provides an image signal corresponding to the subject image as an image sensor output signal. The image sensor output signal is supplied to the camera control unit 4 via the camera cable 3.

The camera control unit 4 includes a microcomputer 5, an EEPROM 6, and a video signal processing unit 7.
The microcomputer 5 controls the video signal processing unit 7 based on various data stored in the EEPROM 6. The video signal processing unit 7 processes an image sensor output signal supplied from the image sensor 2 via the camera cable 3 under the control of the microcomputer 5, and provides a video output signal.

Japanese Patent Application Laid-Open No. 7-79996 discloses an EEPR
A configuration in which an OM is provided in a camera head is disclosed. This publication discloses a technique in which characteristic information of a cable is stored in an EEPROM, a microcomputer reads the characteristic information, and corrects a video signal using the characteristic information.

[0006]

In the endoscope having the above-described structure, the camera head 1 is generally sterilized at a high temperature using steam after being used at the time of medical examination or surgery. During this sterilization process, the camera head 1 is in a high-temperature and high-humidity state, and an electronic device such as the imaging device 2 provided inside the camera head is subjected to severe conditions. Therefore, the life of the camera head 1 is greatly affected by the number of times of the sterilization process.

Conventionally, no data relating to the usage status of the camera head, such as how many times the sterilization process has been performed or how long the camera head has been used, has not been recorded in the imaging device. Therefore, for example, when a camera head breaks down, it cannot be immediately determined whether the cause of the breakdown is due to the life of the apparatus due to an extremely large number of sterilization processes or due to an incorrect usage. In addition, since no data on the usage status of the camera head is recorded, it is not possible to accurately grasp the correspondence between the number of sterilization processes or the usage time and the content of the failure.

Accordingly, an object of the present invention is to provide a head-separated camera capable of recording information on the use of a camera head such as the number of sterilization processes.

[0009]

According to the present invention, a camera head and a camera control unit for controlling the camera head have a separate structure and are connected to each other. A camera head memory for storing various data related to the camera head, and an image sensor for capturing an image of a subject, wherein the camera control unit controls the camera control unit and the camera head comprehensively; Under control of the control means, comprising a video signal processing means for processing a video signal provided from the imaging device,
The control unit includes a storage unit that determines a use state of the camera head and stores the use state in the camera head memory.

In the case of an endoscope used as a medical device,
After being used during an examination or surgery, the camera head is generally sterilized at high temperatures using steam. Therefore, the number of times the camera head is used is almost equal to the number of times of sterilization processing.

The control means determines that the camera head has been used when power has been supplied to the camera head for a predetermined time. The camera head memory has a head counter for storing the number of times the camera head has been used, and the control unit updates the number of times of use by adding 1 to the number of times of use stored in the head counter.

[0012]

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

FIG. 1 is a diagram showing the configuration of an embodiment of an imaging apparatus to which the present invention is applied. The camera head 1 has a camera head memory for storing various data, for example, an EEPROM (Electrically Erase) for storing data in a nonvolatile manner.
BLE Programmable ROM) and other non-volatile memory (hereinafter EE)
(PROM) 8 and an image sensor 2 for picking up a subject image. The imaging device 2 is generally constituted by a CCD of a solid-state imaging device. The EEPROM 8 stores data such as CCD white flaw address data, sensitivity data, black balance data, etc., and data such as adjustment data due to the cable 3 and a head counter 8a which indicates the number of times or time of use of the camera head. Have been.

In the case of an endoscope, a scope which is inserted into a narrow gap such as a body cavity in the body and takes in reflected light from a subject such as an affected part is connected to the camera head 1. Image sensor 2
Provides an image signal corresponding to the subject image as an image sensor output signal. The image sensor output signal is supplied to the camera control unit 4 via the camera cable 3.

The camera control unit 4 includes a microcomputer 5, an EEPROM 6, and a video signal processing unit 7.
The EEPROM 6 stores shooting conditions such as a shutter speed and ON / OFF of gamma correction or various data relating to the camera control unit 4. The microcomputer 5 controls the video signal processing unit 7 based on various data stored in the EEPROM 6. The video signal processing unit 7 processes an image sensor output signal supplied from the image sensor 2 via the camera cable 3 under the control of the microcomputer 5, and provides a video output signal.

In the case of an endoscope used as a medical device,
After being used during a medical examination or surgery, the camera head 1 is generally sterilized at high temperatures using steam. Therefore, the number of times of use of the camera head 1 and the number of times of sterilization are almost equal. During this sterilization process, the camera head 1 is in a high-temperature and high-humidity state, so that the sterilization process has an adverse effect on electronic devices such as the imaging device 2 provided therein. Therefore, the life of the camera head 1 is greatly affected by the number of times of use.

The camera head 1 of the present invention has a head counter 8a for recording the number of times of use.
8. When the camera head 1 breaks down,
The service person reads the number of times of use recorded in the head counter 8a using a dedicated device. If the number of times of use exceeds, for example, 100 times, the service person can determine that the life of the device is the main cause of the failure. The relationship between the number of uses of the apparatus recorded in the head counter 8a and the cause of failure corresponding to the number of uses is important information as service data and product development data.

FIG. 2 is a flowchart showing the operation of updating the value of the head counter 8a. When power is turned on, the microcomputer 5 of the camera control unit 4 determines whether the camera head 1 is connected to the camera control unit 4 via the cable 3 (step S1).
That is, in step S1, the microcomputer 5 determines whether power is supplied to the camera head. When the camera head is connected, the microcomputer 5 starts time measurement by a built-in timer (step S2).

When a timer interrupt occurs after a predetermined time has elapsed, the microcomputer 5 reads the value of the head counter 8a of the camera head 1 and increments the value, that is, adds the value "1" to the value, as in step S4. (Step S
5). Further, the microcomputer 5 stores the incremented value in the head counter 8a, thereby controlling the head counter 8a.
The value of a is updated (step S6). Therefore, the cumulative number of times of use is recorded in the head counter 8a.

The predetermined time is, for example, 10 minutes. That is, the microcomputer 5 determines that the camera head 1 has been used once after 10 minutes have passed since the camera head 1 was connected to the camera control unit 4 and turned on.
In this embodiment, the number of uses of the camera head 1 is recorded in the head counter 8a, but the accumulated use time may be recorded together with the number of uses. When recording the cumulative use time, the EEPROM 8 is provided with a cumulative use time recording area, and the timer measures time while the camera head 1 is connected to the camera control unit 4, and periodically records the cumulative use time. The contents of the area are updated.

As described above, in the present invention, the number of times the camera head 1 has been used is recorded in the head counter 8a, and the approximate number of times the camera head 1 has been sterilized at high temperature and high humidity can be ascertained. The data of the failure content corresponding to the number of uses can be used as service data or product development data.

An EEPROM is mounted not only in the camera control unit 4 but also in the camera head 1.
By storing adjustment data for the camera head 1 such as CD white scratch address data, sensitivity data, and black balance data and adjustment data for the cable 3 in the EEPROM, it is not necessary to readjust the data when the head is replaced. .

In the above description, the configuration in which the camera head 1 and the camera control unit 4 are connected by the cable 3 has been described. However, the configuration is not necessarily wired, but may be a configuration in which the camera head 1 and the camera control unit 4 are connected by wireless communication. .

[0024]

According to the present invention, the number of times of sterilization processing in which the camera head is subjected to severe conditions can be grasped as the number of times of use, and the number of times of use and the data of the failure corresponding to the number of times of use can be used for service data or product development. Can be used as data.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an imaging device according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating an operation of updating the number of times the camera head has been used.

FIG. 3 is a diagram showing a schematic configuration of an endoscope.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Camera head 2 ... Image sensor 3 ... Camera cable 4 ... Camera control unit 5 ... Microcomputer 6, 8 ... Non-volatile memory

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) G02B 23/26 G02B 23/26 D // H04N 7/18 H04N 7/18 MH04N 101: 00 101: 00

Claims (4)

[Claims] A camera head and a camera control unit that controls the camera head are separate structures and are separated head cameras connected to each other, wherein the camera head stores various data related to the camera head. A camera head memory, and an image sensor for imaging a subject image, wherein the camera control unit controls the camera control unit and the camera head, and the image sensor under the control of the controller. Video signal processing means for processing a video signal provided from the control device, the control means determines a use state of the camera head, and has a storage means for storing the use state in the camera head memory Head-separated camera. 2. The camera head memory according to claim 1, wherein said camera head memory has a head counter for storing the number of times the camera head has been used, and said control means is configured such that said camera head is connected to a camera control unit and power is supplied for a predetermined time. 2. The head-separated camera according to claim 1, further comprising: means for judging that the camera head has been used when the camera head has been used, and means for reading out and updating the number of times of use stored in the head counter. 3. The image pickup device is a CCD image pickup device,
The data stored in the camera head memory includes the C
3. The head-separated camera according to claim 1, wherein address data, sensitivity data, and black balance data of a CD are included. 4. A method for recording the number of times the camera head has been used in a head-separated camera connected to each other, wherein a camera head having an image sensor and a camera control unit for controlling the camera head are separate structures. And determining whether the camera head is connected to the camera controller.If the camera head is connected to the camera controller, start time measurement.After a predetermined time has elapsed, the camera head Updating the camera head usage count by reading the camera head usage count information from the provided camera head memory, adding 1 to the usage count information, and storing the addition result in the camera head memory; A recording method, comprising: