초록 ▼

A cylindrical proximal unit is disposed at the proximal end of an elongated insertion unit that has a CCD incorporated in a distal part thereof and that has a bending section. A light source unit, a circuit for producing a CCD driving signal in response to a signal received from an external unit by

A cylindrical proximal unit is disposed at the proximal end of an elongated insertion unit that has a CCD incorporated in a distal part thereof and that has a bending section. A light source unit, a circuit for producing a CCD driving signal in response to a signal received from an external unit by radio, and a motor unit for electrically driving the bending section are incorporated in the proximal unit. Thus, a light guide cable need not be led out of the proximal unit. This leads to easy operation. Moreover, by manipulating an operation unit separated from an endoscope, a motor included in the motor unit is driven by radio via a scope interface unit.

대표청구항 ▼

1. An endoscope comprising: a main body comprising an insertion unit that has a bending mechanism and includes a freely bendable bending section, and a proximal unit disposed proximally to said insertion unit; an objective optical system mounted in an imaging window formed in a distal part of said

1. An endoscope comprising: a main body comprising an insertion unit that has a bending mechanism and includes a freely bendable bending section, and a proximal unit disposed proximally to said insertion unit; an objective optical system mounted in an imaging window formed in a distal part of said insertion unit and a solid-state imaging device disposed at the position of the image plane of said objective optical system; an actuator, included in said proximal unit, for actuating said bending mechanism so as to bend said bending section; a light source unit, included in said proximal unit, for generating illumination light with which an object to be imaged by said solid-state imaging device is illuminated; a communication device, included in said proximal unit, for transmitting an image signal produced by said solid-state imaging device to an external signal processing unit by radio; and an operation unit separated from said main body and used to operate said actuator. 2. An endoscope according to claim 1, wherein: a scope interface unit receives an angling signal from said operation unit, produces an actuator driving signal, with which said actuator is driven, according to the angling signal, and transmits the actuator driving signal to said actuator; and the actuator driving signal sent from said scope interface unit is transmitted to said endoscope by radio. 3. An endoscope according to claim 2, wherein the angling signal sent from said operation unit is transmitted to said scope interface unit by radio. 4. An endoscope according to claim 1, wherein a driving power supply for delivering power to said light source unit, actuator, and solid-state imaging device. is included in said proximal unit. 5. An endoscope according to claim 1, wherein a motor that electrically rotates for driving is adopted as said actuator, and a driving power supply for delivering power to said light source unit, actuator, and solid-state imaging device is included in said proximal unit. 6. An endoscope according to claim 1, wherein a power cable which is routed to a driving power supply unit disposed outside said endoscope and over which driving power is delivered to said light source unit, actuator, and solid-state imaging device is led out of said endoscope while being aligned with the axis of insertion of said insertion unit. 7. An endoscope according to claim 1, wherein one or more fluid feeding channels that open upon the distal end of said bending section are included in said insertion unit, and connected to an electromagnetic valve unit, which controls feed or suction of a fluid over said fluid feeding channel and is disposed outside, by way of a plurality of soft tubes led out of said proximal unit. 8. An endoscope according to claim 7, wherein a fluid treating signal with which said electromagnetic valve unit is operated is transmitted by radio from said operation unit to said scope interface unit that controls said electromagnetic valve unit. 9. An endoscope according to claim 7, wherein said soft tubes are led out while being aligned with the axis of insertion of said insertion unit. 10. An endoscope according to claim 1, wherein said proximal unit disposed proximally to said insertion unit has an axis thereof nearly aligned with the axis of insertion of said insertion unit and has a shape that is substantially symmetrical with respect to the axis. 11. An endoscope according to claim 1, wherein the center of gravity of said proximal unit that is disposed proximally to said insertion unit and that contains built-in components is located on or near an extension of the axis of insertion of said insertion unit. 12. An endoscope according to claim 1, wherein when the center of gravity of said proximal unit that is disposed proximally to said insertion unit and that contains built-in components balances with gravity, the highest point in the upward direction in said bending section is an uppermost position in said bending section. 13. A n endoscope according to claim 12, wherein when the center of gravity of said proximal unit that is disposed proximally to said insertion unit and that contains built-in components balances with gravity, the point in said proximal unit corresponding to the highest point in the upward direction in said bending section is an uppermost position in said proximal unit. 14. An endoscope according to claim 1, wherein the center of gravity of said proximal unit that is disposed proximally to said insertion unit and that contains built-in components deviates from the center axis of said proximal unit in a direction corresponding to a downward direction of angling that is designated in bending said bending section. 15. An endoscope according to claim 1, wherein said operation unit includes a locking means in which said insertion unit is locked while being permitted to be unlocked freely. 16. An endoscope according to claim 15, wherein when said insertion unit is fitted in said locking means, said insertion unit is locked owing to an elasticity exerted by a deformed elastic member. 17. An endoscope according to claim 15, wherein said locking member opens or closes with manipulation of an opening/closing lever and clamps said insertion unit. 18. An endoscope according to claim 17, wherein said opening/closing lever has an axis thereof extended substantially in parallel with the longitudinal axis of said operation unit, and said operation unit and said opening/closing lever can be held together with one hand. 19. An endoscope according to claim 1, wherein said signal processing unit processes an image signal produced by said solid-state imaging device so as to produce a standard video signal. 20. An endoscope system comprising: an endoscope comprising: a main endoscope body having a bending mechanism, and including an insertion unit that has a bending section capable of bending freely, and a proximal unit disposed proximally to said insertion unit;an objective optical system mounted in an imaging window formed in the distal part of said insertion unit and a solid-state imaging device disposed at the position of the image plane of said objective optical system;an actuator, included in said proximal unit, for actuating said bending mechanism so as to bend said bending section;a light source unit, included in said proximal unit, for generating illumination light with which an object to be imaged by said solid-state imaging device is illuminated;a communication device, included in said proximal unit, for transmitting an image signal produced by said solid-state imaging device to an external signal processing unit by radio; andan operation unit separated from said main body and used to operate said actuator;a signal processing unit for processing an image signal produced by said solid-state imaging device so as to produce a video signal;a monitor on which an image picked up by said solid-state imaging device is displayed according to a video signal received from said signal processing unit; andan actuator drive unit for producing a driving signal, with which said actuator is driven, according to an operation signal sent from said operation unit. 21. An endoscope according to claim 1, wherein the actuator bends the bending section by an electric motive power. 22. An endoscope according to claim 20, wherein the actuator bends the bending section by an electric motive power.