Patent application number | Description | Published |
20110009698 | ENDOSCOPE APPARATUS, ENDOSCOPE SYSTEM AND METHOD FOR CONTROLLING ENDOSCOPE APPARATUS - An endoscope apparatus includes an endoscope main body and an assisting drive unit. The endoscope main body includes an endoscope insertion portion having a curving portion on the leading end side thereof, a curving operation portion operating or curving the curving portion, and a curving drive portion driving or curving the curving portion according to an operation force applied to the curving operation portion. The assisting drive unit generates a drive force assisting a curving drive operation to be carried out by the curving drive portion. Curving information regulated at each curving angle corresponding to curving amount of the curving portion is stored previously. The curving amount θa of the curving portion is detected. The drive force is generated from the assisting drive unit using the curving information corresponding to the detected curving amount θa. | 01-13-2011 |
20110065994 | ENDOSCOPE - The endoscope is equipped with: a curving manipulation unit provided on the main body manipulating unit, for performing a manual operation which causes the curving portion; a curving drive unit for coupling the curving manipulation unit to the curving portion so as to curve the curving portion in response to a manipulation performed by the curving manipulation unit; a manipulating force detecting unit for detecting a manipulating force applied to the curving manipulation unit; a manipulation assisting power calculating unit for calculating manipulation assisting power corresponding to the manipulating force detected by the manipulating force detecting unit; and a rotation driving force generating unit for applying a driving force via a driving force transferring mechanism to the curving drive unit, so as to generate the manipulation assisting power calculated by the manipulation assisting power calculating unit; in which the rotation driving force generating unit is arranged in an appendix unit. | 03-17-2011 |
20110282150 | GUIDE ASSEMBLY FOR ENDOSCOPE - A self-propelled type of guide assembly for an endoscope includes a barrel for receiving an elongated tube of the endoscope in an axial direction. A rubber ring retains the barrel to the elongated tube in a form with a clearance space defined between the barrel and the elongated tube. The barrel includes a barrel sleeve, having a first inner diameter according to an outer diameter of the elongated tube. An end cup is formed to extend from an end of the barrel sleeve, has a second inner diameter larger than the first inner diameter, for allowing the steering device in the elongated tube to steer. Furthermore, a movable endless track device has an annular surface, movable on an endless track outside the barrel, for pushing a wall of a body cavity for propulsion in the axial direction. A drive roller moves the endless track device relative to the barrel. | 11-17-2011 |
20120165607 | GUIDE ASSEMBLY FOR ENDOSCOPE - A guide assembly for an endoscope having an elongated tube includes a first inner sleeve, a first outer sleeve, an endless track device, engagement rollers, a second inner sleeve and idler rollers. The endless track device has an annular surface, is supported around the first outer sleeve, for endlessly moving in an axial direction of the elongated tube in contact with a wall of the body cavity, for propulsion of the elongated tube. A setting device as second outer sleeve is shiftable between a set position and a release position, for pressing the idler roller on the engagement roller when in the set position, to nip the endless track device therewith, and for retracting the idler roller from the engagement roller in an outward direction when in the release position, to facilitate removal of the endless track device from the first outer sleeve. | 06-28-2012 |
20120178993 | GUIDE ASSEMBLY AND ENDOSCOPE - A guide assembly for an endoscope has an elongated tube for entry in a body cavity. Plural endless belts move in an axial direction of the elongated tube in contact with a cavity wall of the body cavity, to propel the elongated tube. A driving device is engaged with a first belt surface of the belts, for rotating to drive the belts. A pressure roller has a smaller width than a width of the belts in a transverse direction crosswise to the axial direction, for pressing the belts by contacting a second belt surface reverse to the first belt surface, to apply tension thereto together with the driving device. A regulating projection is formed to project from the second belt surface and to extend in the axial direction, for contacting a side surface of the pressure roller in the transverse direction, to prevent lateral misalignment of the belts. | 07-12-2012 |
20120184815 | GUIDE ASSEMBLY FOR ENDOSCOPE - An endoscope includes a section of an elongated tube for imaging an object by entry in a body cavity. For use with this, a guide assembly includes a shaft sleeve for mounting on the elongated tube by reception thereof. A housing sleeve is supported around the shaft sleeve. Three endless belts are secured to the housing sleeve, for endlessly moving in an axial direction of the elongated tube, and propelling the elongated tube by contacting a cavity wall of the body cavity. A drive sleeve is contained in the housing sleeve, for driving the endless belts. Side projections as side rail portions are disposed on the housing sleeve, for covering lateral side portions of each of the endless belts at least partially, to keep the endless belts slidable. Preferably, the side projections cause curving of a center portion of the endless belts outwards with respect to a transverse direction. | 07-19-2012 |
20120184816 | GUIDE ASSEMBLY FOR ENDOSCOPE - An endoscope has an elongated tube for entry in a body cavity. A guide assembly includes a shaft sleeve for mounting on the elongated tube. A housing sleeve is supported around the shaft sleeve. Three endless belts are secured to the housing sleeve, for endlessly moving in an axial direction of the elongated tube, and propelling the elongated tube by contacting a cavity wall of the body cavity. A driving device is contained in the housing sleeve, for driving the endless belts. Three curved walls constitute the housing sleeve, and support the endless belts movably and in a transversely curved state. Each of the endless belts includes an upper belt run, curved by the curved walls convexly outwards, for contacting the body cavity. A lower belt run is disposed inside, and tensioned between the driving device and the belt rollers. | 07-19-2012 |
20120238804 | PROPELLING DEVICE AND SELF-PROPELLABLE ENDOSCOPE - A propelling device includes a rotary body, an external cylinder for supporting a rotary body in a circulating manner, a first drive mechanism, and a second drive mechanism. The first drive mechanism has a torque wire and a pinion gear that are provided in a distal portion of the insertion part. The second drive mechanism has an internal cylinder mounted on the distal portion of the insertion part, a transmission gear rotatably supported outside the internal cylinder, and a housing cylinder provided outside the transmission gear. The transmission gear has a worm gear on the outer peripheral surface thereof, and a gear tooth portion that meshes with a pinion gear on an inner peripheral surface thereof. The housing cylinder has drive gears that mesh with the worm gear. Although the second mechanism is replaced at each inspection, the first mechanism provided at the insertion part is repeatedly used. | 09-20-2012 |
20120238807 | ENDOSCOPY SYSTEM - An endoscopy system includes a self-propelling endoscope attached with a self-propelling device, a drive source device for providing drive force to the self-propelling device, a controller connected to the drive source device and for controlling moving direction and speed of the self-propelling device, and a monitor for displaying a captured image. The drive source device transmits drive information such as forward movement, backward movement, stop, speed, load torque of the self-propelling device to a processing device. The processing device displays the drive information on the monitor with the captured image. | 09-20-2012 |
20120238813 | PROPULSION ASSEMBLY FOR ENDOSCOPE - A propulsion assembly is for an endoscope having an elongated tube for entry in a tube of a body cavity. The propulsion assembly includes endless belts for contacting a surface of the body cavity, for propulsion by turning around in an axial direction of the elongated tube. A support sleeve supports the endless belts movably. A distal cover frame is secured to a distal side of the support sleeve. An idler roller is contained in the distal cover frame, engaged with a distal end of the endless belts, for regulating the endless belts in the axial direction. A proximal cover frame is secured to a proximal side of the support sleeve. A driving roller is contained in the proximal cover frame, engaged with a proximal end of the endless belts, for regulating the endless belts in the axial direction. The driving roller drives the endless belts. | 09-20-2012 |
20120238814 | GUIDE ASSEMBLY FOR ENDOSCOPE - A guide assembly for an endoscope includes a shaft sleeve, barrel sleeve, support sleeve and endless track device for propulsion by endlessly moving in an axial direction of an elongated tube. A rotation wheel is supported on the barrel sleeve, for driving the endless track device by rotating. An idler roller is supported on the support sleeve in a rotatable manner, for keeping the endless track device movable in cooperation with the rotation wheel. A small diameter portion is formed with two axial ends of the rotation wheel by decreasing a wheel diameter thereof along a wheel axis, for allowing leaving of the idler roller from the rotation wheel upon rotationally shifting the support sleeve around the barrel sleeve, so that the endless track device is released from tight contact therewith, and separated from the barrel sleeve in the axial direction with the support sleeve. | 09-20-2012 |
20120238817 | SELF-PROPELLABLE APPRATUS - A propelling unit of a self-propellable apparatus is attached to a front end portion of an insert section of an electronic endoscope. The propelling unit includes feeding rollers disposed at its front. On each feeding roller, one end of a belt is wound. A winding roller and a worm wheel are provided behind each feeding roller. When the worm wheel rotates, the belt is drawn out from the feeding roller, and wound up onto the winding roller. The belts move while making contact with an interior wall of a body lumen, and hence produce propulsive force to the front end portion of the insert section. When the contact between the belts and the interior wall is insufficient, a balloon is inflated to press the belts against the interior wall. | 09-20-2012 |
20120265013 | PROPULSION ASSEMBLY FOR ENDOSCOPE - A propulsion assembly for an endoscope having a section of an elongated tube for entry in a tube of a body cavity is provided. The propulsion assembly includes a shaft sleeve, an endless track device, a support sleeve and a control wire. A first bevel gear is supported on the shaft sleeve, secured to a distal end portion of the control wire, for rotating about a first axis extending in an axial direction of the elongated tube upon rotation of the control wire. A second bevel gear is supported on the shaft sleeve in a rotatable manner about a second axis extending in a transverse direction of the elongated tube, meshed with the first bevel gear, engaged with the endless track device, for moving the endless track device in the axial direction. Preferably, the first bevel gear has a diameter smaller than a diameter of the second bevel gear. | 10-18-2012 |
20120271106 | SELF-PROPELLED DEVICE FOR ENDOSCOPE - A self-propelled device nips an endless belt between a worm wheel and a driven roller. The endless belt is circulated by rotating the worm wheel, and thereby an insertion section of an endoscope advances and retreats inside a body cavity. The driven roller has a width larger than the worm wheel, and is provided with a pair of flanges at both ends. The worm wheel is disposed between the pair of flanges. When the endless belt is nipped between the worm wheel and the driven roller, the endless belt is deformed by the pair of flanges. | 10-25-2012 |
20120271107 | SELF-PROPELLED DEVICE FOR ENDOSCOPE - A self-propelled device includes a mounting part mounted on an insertion part of an endoscope, a hollow toroidal rotary body, and a rotary body supporting tube that is arranged in the internal space of rotary body and supports the rotary body from the inside. The rotary body supporting tube is attached to the outside of the mounting part. The mounting part is provided with a worm wheel, and the rotary body supporting tube is provided with a driven roller. The rotary body is sandwiched between the worm wheel and the driven roller, and is circulated and moved with the rotation of the worm wheel. Wipers for closing the gap formed between the mounting part and the rotary body are provided at the front and rear ends of the mounting part, and thereby preventing entering of foreign body from the gap. | 10-25-2012 |
20120277530 | ENDOSCOPE INSERTION ASSISTING DEVICE - An insertion assisting device includes a rotary body in the form of toroid, and a support and drive part for supporting the rotary body in a rotatable manner and rotating it. The support and drive part has an approximately cylindrical supporting member for supporting the rotary body in a rotatable manner. The rotary body is provided with a convex portion for increasing the thickness to improve the strength thereof. A concave portion having a shape corresponding to the shape of the convex portion is formed on a portion of a front end surface of the supporting member, which is made in contact with the convex portion. The concave portion prevents the rotary body from stopping rotating, which may be caused by point contact between the convex portion and the supporting member. | 11-01-2012 |
20120302830 | GUIDE ASSEMBLY FOR ENDOSCOPE - An endoscope includes a head assembly having a first central axis for entry in a body cavity. In combination with the endoscope, a guide assembly includes a shaft sleeve having a lumen, for mounting on the head assembly therewith. An endless track device is supported around the shaft sleeve, for endlessly moving along the first central axis, for propulsion of the head assembly inside the body cavity. A support sleeve is disposed between the shaft sleeve and the endless track device, having a second central axis different from the first central axis, for supporting the endless track device movably. Preferably, the endoscope includes an imaging window area formed in a distal surface of the head assembly and offset from the first central axis. A position shift between the first and second central axes is predetermined according to a position shift between the imaging window area and the first central axis. | 11-29-2012 |
20120302831 | GUIDE APPARATUS FOR ENDOSCOPE - An endoscope has a head assembly for entry in a body cavity. A guide apparatus for propulsion of the head assembly is provided, and includes a shaft sleeve, a support sleeve, a drive sleeve, drive gears, an endless track device, two intermediate gears, and a motor. Two wire devices are disposed to extend in an axial direction, have distal ends to which the intermediate gears are respectively secured, for transmitting rotation of the motor to the intermediate gears. In fail-safe control, if one of the wire devices is broken, the broken wire device is detected. When the broken wire device is detected, a limited mode is set for driving the endless track device with a normal one of the wire devices in limited performance relative to normal operation. In a preferred embodiment, the guide apparatus has a differential device and two brake devices. | 11-29-2012 |
20130006053 | ENDOSCOPE PROPELLING DEVICE - A propelling device includes a traveling body that rotates in a state of being brought into contact with an inner wall of an alimentary canal, an external cylinder around which the traveling body is wound, and a mounting cylinder on which a tip end portion of an endoscope is mounted. Three driven rollers are rotatably attached to the external cylinder. The traveling body is pinched between the driven rollers and driving gears. As the driving gears rotate, the traveling body travels in a circulating manner. A rotating shaft of the driven roller located at the center among the three driven rollers is held by a shaft hole that is made long in a gear arrangement direction in which the driving gears are disposed side by side. | 01-03-2013 |
20130036586 | ATTACHMENT JIG FOR ATTACHING SELF-PROPELLED DEVICE TO ENDOSCOPE - An attachment jig includes a cylinder portion at one end of which a ring portion for fixing a self-propelled device to an endoscope is provided, and a handle portion which is provided at the other end of the cylinder portion and is gripped so as to rotate the cylinder portion. An O ring is brought into press-contact with the outer periphery of an insertion section of the endoscope, such that the self-propelled device is fixed to the insertion section. When the handle portion is further turned, a thin-walled breaking portion is broken, and the ring portion is separated from the cylinder portion. When the handle portion is rotated in an opposite direction, the cylinder portion is taken out from the insertion section, while the ring portion remains in the fixed position. | 02-14-2013 |
20130158349 | INSERTION AND EXTRACTION ASSISTING DEVICE AND ENDOSCOPE SYSTEM - An insertion and extraction assisting device of an endoscope has a promotion unit attached on the front end side of the endoscope and a transmission section whose one end is connected to a promotion unit, and the other end is drawn along the endoscope, and an outside unit. The other end of the transmission section is connected to the outside unit, and rotational force or a turn signal from the outside unit is transmitted to the promotion unit, so that driving force is generated by the promotion unit. When the other end of the transmission section is connected to, the outside unit reads an ID code expressing a kind of the promotion unit and controls the rotational force or the turn signal to send to the promotion unit. | 06-20-2013 |
20130172679 | ENDOSCOPE INSERTION ASSISTING DEVICE - If an instruction indicating advance is input, first and second motors are driven to rotate first and second torque wires. A rotary body is circulated by the rotation of the first and second torque wires, and a propelling unit advances. The first and second TGs detect the rotating speeds of the first and second torque wires. If disconnection of the first torque wire is detected by a disconnection detecting section, a motor control section stops driving of the first motor coupled to the disconnected first torque wire, and rotates the second motor coupled to the second torque wire that is not disconnected at a low speed to rotate the second torque wire at a low speed. Through the low-speed rotation of the second torque wire, the propelling unit advances at a low speed or retreats at a low speed. | 07-04-2013 |
Patent application number | Description | Published |
20100286479 | INTERNAL PRESSURE DETECTING DEVICE FOR INFLATING AND DEFLATING MEMBER AND ENDOSCOPE APPARATUS - An internal pressure detecting device can accurately detect an internal pressure of the inflating and deflating member such as a balloon which is provided at an intracavital insertion tool such as an endoscope, an endoscope auxiliary tool or an endoscope treatment tool, is provided. The internal pressure detecting device has: a pressure detection conduit line which is provided separately from a supply and exhaust conduit line through which a fluid is supplied to or exhausted from an inside of an inflating and deflating member provided at an intracavital insertion tool, and which communicates with the inside of the inflating and deflating member; and a pressure detecting device which is connected to the pressure detection conduit line and detects an internal pressure of the inflating and deflating member. | 11-11-2010 |
20100292536 | FLUID CONTROL DEVICE AND FLUID CONTROL METHOD, AND ENDOSCOPE APPARATUS - A fluid control device which controls a flow rate of a fluid supplied or sucked to or from an inflation and deflation member, includes: a first pipe system connected to the inflation and deflation member, wherein the fluid flow of a predetermined flow rate is supplied to the first pipe system; a second pipe system connected to the inflation and deflation member, wherein a fluid flow of a flow rate lower than the predetermined flow rate is supplied to the second pipe system; a device which switches the first pipe system to the second pipe system when a predetermined amount of fluid is supplied or sucked to or from the inflation and deflation member through the first pipe system; and a device which controls the pressure in the inflation and deflation device by using the second pipe system based on a pressure in the second pipe system. | 11-18-2010 |
20100292537 | INNER PRESSURE DETECTION DEVICE AND INNER PRESSURE DETECTION METHOD FOR INFLATION AND DEFLATION MEMBER, AND ENDOSCOPE APPARATUS - An inner pressure detection device for an inflation and deflation member includes: a pressure detection device which detects a pressure of a fluid at a first position in a proximal end side of a tube for supplying a fluid to an inflation and deflation member and exhausting a fluid from the inflation and deflation member, the inflation and deflation member included in an insertion portion configured to be inserted in a body cavity; a pressure loss calculation device which calculates a pressure loss of the fluid in the tube between the first position and a position in a distal end side of the tube where the inflation and deflation member is provided; and an inner pressure calculation device which calculates an inner pressure of the inflation and deflation member based on the pressure loss calculated by the pressure loss calculation device and the pressure detected by the pressure detection device. | 11-18-2010 |
20100292538 | ENDOSCOPE - A front end rigid portion constitutes a front end of an endoscope insertion unit in an endoscope. The front end rigid portion is provided with an illumination optical system irradiating an observation target area with illumination light and an imaging optical system having an imaging element imaging the observation target area. The endoscope includes a heat emission member which is connected to the front end rigid portion and extends in the longitudinal direction of the endoscope insertion unit. The heat emission member is formed by mixing fiber-piece-shaped fillers with a resin material. | 11-18-2010 |
20110004063 | BALLOON CONTROL APPARATUS AND CONTROL METHOD THEREOF - A balloon control apparatus, comprising:
| 01-06-2011 |
20110190583 | MEDICAL FIXED BALLOON, ACTUATOR FOR INTRADUCTAL MOVING BODY, AND ENDOSCOPE - A medical fixed balloon disposed in an insertion portion to be inserted into a body cavity so as to fix the insertion portion to the inside of the body cavity, comprising:
| 08-04-2011 |
20120035419 | ELECTRONIC ENDOSCOPE SYSTEM - An electronic endoscope system is composed of an electronic endoscope, a light source apparatus, and a temperature converter. The electronic endoscope has a CMOS sensor in a distal portion of an insert section to be inserted into a patient's body cavity. Illumination light from the light source apparatus is applied to the body cavity through the distal portion. The temperature converter obtains an average pixel value of an optical black (OB) region out of an imaging signal from the CMOS sensor, and converts the average OB pixel value into a temperature of the CMOS sensor on a frame-by-frame basis with the use of data in a temperature conversion table. The table represents a relationship between the average OB pixel value and the temperature of the CMOS sensor. Light quantity of the illumination light is adjusted in accordance with the temperature of the CMOS sensor to prevent deterioration of image quality. | 02-09-2012 |
20120271105 | ENDOSCOPE INSERTION ASSISTING DEVICE - An insertion assisting device includes a rotary body formed in a toroidal shape, and a support and drive unit that rotatably supports and rotates the rotary body. The support and drive unit has two supports, a first support and a second support. The first support is formed in a substantially cylindrical shape, and rotatably supports the rotary body. The second support is formed in a substantially triangular tubular shape, is arranged inside the first support, and supports driving gears that transmit a driving force to the rotary body. The second support is shorter than the first support, and is arranged so that front and rear end portions thereof are located inside front and rear end portions of the first support. | 10-25-2012 |
20130137927 | PROPULSION ASSEMBLY FOR ENDOSCOPE AND DRIVING METHOD - A propulsion assembly includes a support sleeve for mounting on a tip device of an endoscope. An endless track device is supported on the support sleeve in an endlessly movable manner, for contacting a wall of a body cavity, for propulsion of the tip device relative to the body cavity. A drive sleeve drives the endless track device. First and second torque wire devices have proximal and distal end portions, the proximal end portion being rotated by a motor, the distal end portion actuating the drive sleeve. Plural helical windings of a first group constitute the first wire device, and are so wound as to increase tightness thereof upon moving the endoscope in a distal direction. Plural helical windings of a second group constitute the second wire device, and are so wound as to increase tightness thereof upon moving the endoscope in a proximal direction. | 05-30-2013 |
20130144123 | PROPULSION ASSEMBLY FOR ENDOSCOPE AND FASTENING METHOD - A propulsion assembly for an endoscope includes a support sleeve and an endless track device. A clamping sleeve is contained in the support sleeve. Male and female threads cooperate for moving the clamping sleeve between operative and non-operative states upon rotation of the clamping sleeve. The operative state is on a side of a proximal direction from the non-operative state along a central axis. A sealing device is contained in the support sleeve, has a C-shape in a resiliently deformable manner, is disposed around the endoscope and between the clamping sleeve and a receiving surface. The sealing device is pushed by the clamping sleeve when the clamping sleeve is in the operative state, for squeezing the endoscope by radially compressing thereabout, and released from push of the clamping sleeve when the clamping sleeve is in the non-operative state, for releasing the endoscope by radially returning to expand thereabout. | 06-06-2013 |
20130158353 | PROPULSION ASSEMBLY FOR ENDOSCOPE - A propulsion assembly for an endoscope includes a support sleeve and a barrel unit. An endless track device is disposed to extend along inner and outer surfaces of the barrel unit, for endlessly moving in an axial direction of an elongated tube of the endoscope, and contacting a wall of a body cavity, for propulsion of the elongated tube. Worm wheels are disposed on the support sleeve, for driving the endless track device by engagement therewith. Plural idler rollers are disposed on the inner surface of the barrel unit in a rotatable manner, for keeping the endless track device movable in driving of the worm wheels. An guide projection is formed on the endless track device. A guide groove is formed in the barrel unit, for receiving the guide projection, to guide the endless track device on the barrel unit in the axial direction. | 06-20-2013 |
20130197307 | PROPULSION APPARATUS AND DRIVE APPARATUS FOR ENDOSCOPE - A propulsion apparatus for an endoscope includes a propulsion assembly for mounting on a tip device of the endoscope, for propulsion in a body cavity. First and second wire devices are disposed to extend from the tip device in a proximal direction, having a coil winding, for rotating to drive the propulsion assembly. First and second motors are connected with proximal ends of respectively the first and second wire devices, for rotating the first and second wire devices. A timer is actuated if a speed difference between rotational speeds of the first and second motors becomes equal to or more than a reference speed value, for measuring an elapsed time. A break detector detects breakage of the first wire device if the elapsed time becomes equal to or longer than a predetermined time. A controller controls the first and second motors in response to an output of the break detector. | 08-01-2013 |
20130261391 | PROPULSION ASSEMBLY FOR ENDOSCOPE - A propulsion assembly for mounting on a tip device of an endoscope includes a barrel sleeve having inner and outer surfaces. A flexible endless track device is disposed to extend along the inner and outer surfaces of the barrel sleeve, for endlessly moving in an axial direction, for propulsion by contacting a wall of a body cavity. A drive gear is engaged with the endless track device, for moving the same. A driving mechanism rotates the drive gear. Engaging teeth are formed on the endless track device at a predetermined pitch, arranged serially, moved by the drive gear in mesh therewith. A peripheral surface of the engaging teeth is curved without a sharp form. Furthermore, a support sleeve is disposed between the driving mechanism and the endless track device, for supporting the drive gear in a rotatable manner. | 10-03-2013 |
20130310646 | DRIVING FORCE TRANSMISSION DEVICE FOR ENDOSCOPE AND AUXILIARY THRUST DEVICE COMPRISING THEREOF - An auxiliary thrust device includes a membrane, a carrier tube, and a drive cylinder. First and second insertion holes into which first and second torque wires are inserted are formed in a wire sheath. First and second gears are fixed to tip portions of the torque wires, which protrudes from a tip of the wire sheath, respectively. The first gear fixed to the first torque wire meshes with a spur gear portion of the drive cylinder, and the second gear connected to the second torque wire meshes with the first gear. Since the respective torque wires are inserted into one wire sheath and are bent in the same shape, a frictional force generated between the first torque wire and the inner surface of the wire sheath is substantially the same as that generated between the second torque wire and the inner surface of the wire sheath. | 11-21-2013 |
20140012086 | SELF-PROPELLING DEVICE - A self-propelling device includes a turning unit and a supporter. The supporter includes a first support sleeve, a second support sleeve and a cover formed respectively cylindrically. A drive wheel is secured to the first support sleeve in a rotatable manner. A pair of follower rollers are secured to the second support sleeve together. The cover is fitted on an outer surface of the second support sleeve externally, and disposed in the turning unit together with the second support sleeve. The turning unit is pressed by the follower rollers to the drive wheel. When the drive wheel rotates, the turning unit is circulated around the second support sleeve in a longitudinal direction of the first support sleeve. An inner wall of a body cavity will not be damaged, as the follower rollers are covered by the cover and do not appear externally even if the turning unit breaks. | 01-09-2014 |
20140046133 | SELF-PROPELLING DEVICE - A self-propelling device includes a drive unit and a toroid unit supported thereabout. The toroid unit includes a track structure of a toroid shape and a roller support sleeve inside the track structure. Three belt portions are provided in the track structure with high rigidity. The drive unit includes an inner sleeve for mounting on an introducer of an endoscope, and an outer sleeve supported around the inner sleeve. An inner surface of the roller support sleeve and an outer surface of the outer sleeve extend triangularly. Drive wheels are disposed upstream and downstream of respectively flat portions of the outer sleeve. Two follower rollers are disposed on respectively each of flat portions of the roller support sleeve. The drive wheels and follower rollers nip the belt portions of the track structure to move the track structure endlessly. | 02-13-2014 |
20140107419 | ASSIST ASSEMBLY FOR PROPULSION OF ENDOSCOPE - An assist assembly for propulsion of a tip device of an endoscope in a body cavity includes an attachment sleeve and a support sleeve. A deformable circulation device is disposed to extend over inner and outer surfaces of the support sleeve, for endlessly moving in an axial direction of the tip device. Plural rollers are disposed on the support sleeve in a rotatable manner, for pressing an inner surface of the circulation device. An alignment projection is formed on the inner surface of the circulation device to project at a height L | 04-17-2014 |