JP4512391B2 - Electronic endoscope device - Google Patents

Description

  The present invention relates to an electronic endoscope apparatus including an electronic endoscope and a video processor.

  In an electronic endoscope apparatus, an electronic endoscope having a built-in solid-state image pickup device is generally connected to a video processor, and the video processor uses an endoscope observation imaged by the solid-state image pickup device. A signal processing unit for processing an image pickup signal and an output circuit for outputting a video signal output from the signal processing unit to a monitor are incorporated in one housing.

However, for electrical safety, it is necessary to insulate the so-called patient side circuit connected to the circuit in the electronic endoscope that comes into contact with the patient and the so-called secondary side circuit connected to the external circuit. An insulation circuit is arranged in the front stage or the rear stage of the signal processing unit, and the circuits before and after the circuit are insulated (for example, Patent Document 1).
JP-A-63-318927

  However, in a configuration in which an insulation circuit is arranged before or after the signal processing unit in the video processor, it is included in the video processor including the insulation circuit when performing system expansion such as function enhancement of the signal processing unit. The financial burden was very large because it was necessary to replace all existing systems.

  Therefore, an object of the present invention is to provide an electronic endoscope apparatus that can easily perform system expansion such as function enhancement of a signal processing unit without a large economic burden.

  In order to achieve the above object, an electronic endoscope apparatus according to the present invention is output from a solid-state image pickup device in which an electronic endoscope having a solid-state image pickup device for picking up an endoscopic observation image is detachably connected. The signal processing unit for processing the imaging signal to be processed is not insulated from the circuit on the electronic endoscope side, and the video signal output from the signal processing unit is output to the monitor And an insulating circuit unit provided with an insulating circuit for insulating between the output unit and the signal processing unit. The signal processing unit and the insulating circuit unit are independent of each other. It is configured to be separated and housed in the body so that it can be connected and disconnected.

  Note that the patient-side power source, which is the power source of the signal processing unit, is arranged in a state of being insulated from the output unit in the housing that houses the insulating circuit unit, and the patient-side power source and the signal processing unit are connected and It may be configured to be separable.

  The insulating circuit unit may include an analog video signal input terminal, a digital video signal input terminal, and a timing signal input terminal for the digital video signal.

  According to the present invention, when performing system expansion such as function enhancement of the signal processing unit, only the signal processing unit is replaced, and the insulation circuit unit can be used as it is. Expansion and the like can be easily performed with a small economic burden.

  Further, since all the power sources including the patient-side power source are arranged on the insulating circuit unit side, it is not necessary to replace the power source when the system is expanded.

  An electronic endoscope having a solid-state image sensor for capturing an endoscope observation image is detachably connected, and a signal processing unit for processing an image signal output from the solid-state image sensor is provided on the electronic endoscope side. The signal processing unit provided without being insulated from the circuit, the output unit for outputting the video signal output from the signal processing unit to the monitor, and the output unit and the signal processing unit are insulated. The signal processing unit and the insulating circuit unit are separated and housed in separate housings so that they can be connected and disconnected.

Embodiments of the present invention will be described with reference to the drawings.
In FIG. 1, reference numeral 1 denotes an electronic endoscope having a solid-state image sensor 2 built in the distal end of an insertion portion. ing.

  The signal processing unit 10 to which the connector unit 3 is detachably connected is provided in a housing 11 that is completely independent of an insulating circuit unit 20 described later, and analog signals obtained by imaging with the solid-state imaging device 2 are obtained. In addition, it is converted into a digital video signal and output, and is not electrically insulated from a circuit on the electronic endoscope 1 side such as the solid-state imaging device 2.

  An image signal processing circuit 12 for processing an image signal picked up by the solid-state image sensor 2 is provided in the signal processing unit 10 first, and after the video signal is extracted, the analog signal is converted into a digital signal. The gamma correction processing and the like are performed.

  The image signal divided and outputted from the imaging signal processing circuit 12 into three color components of R (red), G (green), and B (blue) is temporarily stored in the image memory 13 for each color, and then the video image processing circuit 14. Are converted to analog, for example, NTSC video signals and output via the analog video output buffer 15.

  The R, G, B image signals stored in the image memory 13 for each color are output as they are from the image memory 13 via the digital video output buffer 16 for digital processing in the signal processing unit 10. The timing signal from the timing circuit 17 used is also output along with the digital video signal.

  Reference numeral 20 denotes an insulating circuit unit provided in a housing 21 completely independent of the signal processing unit 10, and inputs analog and digital video signals and timing signals output from the signal processing unit 10 side. Input terminals 22a, 22b, and 22c are provided so that the signal connector cable 30 for signal transmission can be separably connected to both the signal processing unit 10 and the insulating circuit unit 20. Is provided. Reference numeral 23 denotes an input signal amplification amplifier for amplifying the analog video signal input to the input terminal 22a.

  The insulating circuit unit 20 further includes output buffers 25a, 25b, and 25c (output units) for outputting video signals and the like input from the input terminals 22a, 22b, and 22c to a monitor (not shown), and Insulation circuits 24a, 24b, and 24c are provided to insulate the output buffers 25a, 25b, and 25c from the input signal amplifier 23 and the input terminals 22b and 22c.

  Further, the secondary power source 26 for driving the output buffers 25a, 25b, and 25c and the patient power source 27 for driving the input signal amplification amplifier 23 are insulated from each other in the insulating circuit unit 20. Is provided.

  And the electric power which drives the circuit in the signal processing part unit 10 is provided in the insulation circuit unit 20 by the power connector cable 40 connected to both the signal processing part unit 10 and the insulation circuit unit 20 in a separable manner. Supplied from the patient-side power source 27. The power connector cable 40 may be provided along with the signal connector cable 30.

  With such a configuration, the output buffers 25a, 25b, and 25c that are secondary circuits connected to an external monitor and the like and the circuit in the signal processing unit 10 that is a patient circuit are completely insulated, When expanding the system such as improving the function of the circuit for processing the video signal, replace only the signal processing unit 10 and use the insulation circuit unit 20 including the entire power supply as it is. Can do.

  Therefore, it is not necessary to update the devices such as the insulation circuits 24a, 24b, 24c and the relatively expensive power supplies 26, 27 every time the system is expanded, and the system expansion can be easily performed with a small economic burden.

  The insulation circuit unit 20 includes an analog video signal input terminal 22a, a digital video signal input terminal 22b, and a timing signal input terminal 22c for the digital video signal. The signal processing unit 10 can be used in a wide range of applications.

It is a block diagram which shows the structure of the electronic endoscope apparatus of the Example of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Electronic endoscope 2 Solid-state image sensor 3 Connector part 10 Signal processing part unit 11 Case 12 Imaging signal processing circuit (signal processing part)
13 Image memory (signal processor)
14 Video image processing circuit (signal processing unit)
DESCRIPTION OF SYMBOLS 15 Analog video output buffer 16 Digital video output buffer 17 Timing circuit 20 Isolation circuit unit 21 Case 22a, 22b, 22c Input terminal 24a, 24b, 24c Insulation circuit 25a, 25b, 25c Output buffer (output part)
26 Secondary power supply 27 Patient power supply

Claims (2)

An electronic endoscope having a solid-state imaging device for capturing an endoscope observation image is detachably connected, and a signal processing unit for processing an imaging signal output from the solid-state imaging device includes the electronic endoscope A signal processing unit provided without being insulated from a circuit on the side, an output unit for outputting a video signal output from the signal processing unit to a monitor, its output unit, and the signal processing unit, And an insulating circuit unit provided with an insulating circuit for insulating between,
The signal processing unit and the insulating circuit unit are separated and housed in separate housings, and are configured to be connectable and separable .
A patient-side power source, which is a power source for the signal processing unit, and an amplification amplifier for amplifying an analog video signal among the video signals output from the signal processing unit are provided on the housing side housing the insulating circuit unit. Arranged in an insulated state from the output part,
An electronic endoscope apparatus characterized in that power for driving the signal processing unit and power for driving the amplification amplifier are both supplied from the patient-side power source . Above the insulation circuit unit, an electronic endoscope apparatus according to claim 1 Symbol mounting an input terminal of the timing signal is arranged for the input terminals and digital video signal input terminal and a digital video signal of the analog video signal.

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