JP2590317C - - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to an endoscope in which a plurality of water passages are provided in an insertion portion. [Related Art] In general, for example, an ultrasonic transducer for transmitting and receiving ultrasonic waves is attached to a distal end hard portion of an insertion section of an endoscope, and the ultrasonic transducer of the distal end hard portion scans ultrasonic waves to, for example, a body cavity. 2. Description of the Related Art There is known an ultrasonic endoscope for obtaining a tomographic image of the inside. By the way, in this type of ultrasonic endoscope, when an ultrasonic wave is scanned by an ultrasonic vibrator at a distal end hard portion to obtain, for example, a tomographic image of a body cavity wall, a liquid is scanned rather than scanning an ultrasonic wave through an air layer. When scanning is performed through the through hole, a good tomographic image with less attenuation can be obtained. In view of the above, for example, a configuration shown in, for example, JP-A-58-65148 has been developed. As shown in FIGS. 8 and 9, the ultrasonic transducer c is mounted on the outer peripheral surface of the distal end hard portion b of the ultrasonic endoscope a, and the observation optical system is mounted on the distal end surface of the distal end hard portion b. ing. The periphery of the ultrasonic transducer c is covered by a balloon d having both ends fixed to the outer peripheral surface of the distal end hard portion b, and cleaning water for cleaning the observation optical system is supplied into the main body of the ultrasonic endoscope a. A water supply passage e and a balloon water supply passage e for supplying water into the balloon d are provided. Water is injected into the balloon d through the water injection passage e for the balloon, and the ultrasonic wave is scanned through the water in the balloon d. In FIGS. 8 and 9, f denotes a hand operation unit of the ultrasonic endoscope a. A sub-operation unit h is connected between the hand operation unit f and the insertion unit g, and the sub-operation unit h is provided with a liquid feed port i and a suction operation valve j. Further, the insertion portion g is configured such that the distal end hard portion b is connected to the distal end of the flexible portion k via the curved portion 1. Further, an endoscope connector n is connected to the proximal side f via a universal cord m, and an electric connector p is connected via a signal cable o. The endoscope connector n is connected to a light source device, and the electric connector p is connected to an ultrasonic observation device. In this case, a water supply tank is connected to the endoscope connector n, and water is supplied from the water supply tank to the water supply passage of the washing water of the observation optical system. During operation of the ultrasonic vibrator c, a liquid feeding cylinder is connected to the liquid feeding port body i of the sub-operation unit h, and the liquid feeding cylinder is sequentially connected to the liquid feeding port body i and the balloon water injection passage e. Water is injected into the balloon d. Here, q is a balloon suction hole for sucking air in the balloon d, and r is a suction port formed in the endoscope connector n. [Problems to be Solved by the Invention] In the conventional configuration described above, when the ultrasonic vibrator c is operated, a liquid sending syringe is connected to the liquid sending port i of the sub-operation unit h. Since water is injected into the balloon d from the syringe through the liquid supply port i and the balloon water supply channel e in sequence, the liquid is supplied to the sub-operation unit h during use of the ultrasonic endoscope a. A troublesome operation of manually attaching and detaching the liquid-feeding syringe to and from the mouth body i is required, and there is a problem that operability is poor. Further, a liquid feed pipe connected to a pump for automatic liquid feed is connected to a liquid feed port i of the sub-operation unit h, and the balloon d is sequentially passed through the liquid feed port i and the balloon water injection passage e by this pump. Although it is conceivable to automatically inject water into the inside, in this case, there is a possibility that the liquid supply pipe connected to the liquid supply port i may obstruct the operation of the ultrasonic endoscope a, and the operability is improved. There was a problem in planning. The present invention eliminates troublesome work of connecting a syringe or the like and a plurality of suction tubes, etc., to the water supply / suction operation of an endoscope having a plurality of water supply openings and a plurality of suction openings at the distal end of the insertion section, and prevents erroneous operation. It is an object of the present invention to provide an endoscope that can improve operability. [Means for Solving the Problems] The present invention provides an operation section on the hand side of the insertion section, and a distal end hard section provided at the distal end of the insertion section, an ultrasonic transducer for transmitting and receiving ultrasonic waves. the air outlet towards the surface of the observation optical system, a balloon injection port toward a direction different from that of the observation optical system, the observation
A suction / forceps port near the optical system, and a balloon suction port near the balloon water inlet.
Is provided, and the outlet and the balloon water inlet are provided in the insertion portion.
A plurality of water passages communicating with the suction / forceps port and the balloon suction port.
And a plurality of suction passages passing therethrough, and a balloon fixed to an outer peripheral surface of the distal end hard portion.
In an endoscope that covers the periphery of the ultrasonic vibrator with a water channel, the water channel is provided between a water channel from an endoscope connector and a plurality of water channels in the insertion portion, and water is supplied to the outlet and the water channel is formed. A water supply switching means for selectively switching water supply to the balloon water inlet is provided in the operation unit, and is provided between a suction path from the endoscope connector and a plurality of suction paths in the insertion section. The operation unit is provided with suction switching means for selectively switching between suction from the suction / forceps port and suction from the balloon suction port. [Function] By selectively switching the water supply switching means at the operation unit, the water supply to the outlet and the water supply to the balloon water inlet are selectively switched, and the suction switching means is selected at the operation unit. By selectively performing the switching operation, the suction from the suction / forceps port and the suction from the balloon suction port are selectively switched. Thereby, the troublesome work of connecting a syringe or a plurality of suction tubes or the like at the time of water supply / suction operation of an endoscope having a plurality of water supply openings and a plurality of suction openings in the distal end hard portion of the insertion portion is omitted, Further, the operation of switching between water supply and suction can be performed without the operator releasing the hand from the operation unit. [Embodiment] An embodiment of the present invention will be described below with reference to FIGS. In FIG. 2, reference numeral 11 denotes an ultrasonic endoscope. The ultrasonic endoscope 11 has an operation unit on the hand side of the insertion unit 13, and the operation unit includes a hand operation unit 12 and a sub operation unit 14. Further, a universal cord 15 is connected to the hand operation unit 12. An endoscope connector 16 is attached to a distal end of the universal cord 15. An electric connector 18 is connected to the endoscope connector 16 via an electric cable cord 17. The endoscope connector 16 of the universal cord 15 is connected to the light source device L, and the electric connector 18 of the electric cable cord 17 is connected to an ultrasonic observation device (not shown). Further, a hard distal end 21 is connected to the distal end of the flexible portion 19 via a curved portion 20 to the insertion portion 13. An array type ultrasonic transducer 23 is mounted on the distal end hard portion 21 on the outer peripheral surface of the distal end hard portion main body 22. In this case, the distal end surface of the distal end hard portion main body 22 is formed to be inclined at an appropriate angle Θ (about 15 °) with respect to a direction orthogonal to the axial direction. The distal end surface of the distal end rigid portion main body 22 has a suction / forceps port as shown in FIG.
24 are formed, and the distal end face of the observation optical system 25 and the air / water supply nozzle 26
Are arranged respectively. Further, inside the insertion portion 13, a treatment instrument insertion channel 27, a light guide of the observation optical system 25, an optical fiber bundle 28 such as an image guide, an air / water pipe 29, and the ultrasonic transducer 2 are provided.
A bundle of 30 signal cables (AL shielded wires) 30 and the like are provided. Further, an air / water nozzle 26 disposed on the distal end surface of the second holding body 30 is connected to an air / water pipe 29. Further, the distal end surface of the observation optical system 25 is disposed between the suction / forceps port 24 and the air / water supply nozzle 26. The outlet 26a of the air / water nozzle 26 is disposed so as to face the distal end surface of the observation optical system 25. And
Water or air supplied through the air / water pipe 29 is the outlet of the air / water nozzle 26
Air is blown out from 26a toward the distal end surface of the observation optical system 25. Further, optical fiber bundles 28 such as light guides and image guides forming the observation optical system 25 are provided.
A ring-shaped light guide portion 31b is provided at an outer peripheral portion of the image guide portion 31a, and the image guide portion 31a and the light guide portion 31b are formed in one optical fiber bundle 28, respectively. In this case, the objective lens 32 is disposed at the tip of the observation optical system 25 so as to face the tip of the image guide 31a of the optical fiber bundle 28, and the light guide 31b of the optical fiber bundle 28 The distal end portion extends to the outer peripheral position of the objective lens 32. Then, light transmitted through the light guide portion 31b of the optical fiber bundle 28 is directed from the distal end surface of the light guide portion 31b to the mounting surface side of the ultrasonic vibrator 23 in a direction orthogonal to the axial direction of the distal end hard portion main body 22. To the appropriate angle Θ (15 °
(Degree) Irradiation is performed in an inclined state. In addition, ring-shaped balloon mounting grooves 33a are provided at both ends of the outer peripheral surface of the distal end rigid portion main body 22.
33b is provided. In this case, for example, O-ring portions are formed at both ends of the balloon 34 formed of an elastic material having elasticity such as rubber.
The O-ring portions of the balloon 34 are respectively mounted in the balloon mounting grooves 33a and 33b, and the entire outer peripheral surface of the distal end hard portion main body 22 is covered by the balloon 34. A recessed communication groove 35 extending in the circumferential direction is formed on the outer peripheral surface of the distal end hard portion main body 22 between the mounting portion of the ultrasonic transducer 23 and the balloon mounting groove 33b. Further, on the proximal end side of the distal end rigid portion main body 22, one end of the balloon water injection hole 36 connected to the communication groove 35, and the balloon water injection hole 36
Are formed respectively. In this case, one ends of a balloon water injection pipe 38 and a balloon suction pipe 39 are connected to the other ends of the balloon water injection holes 36 and the balloon suction holes 37, respectively. Then, water is supplied from the balloon water injection pipe 38, the balloon water injection hole 36 to the inside of the communication groove 35 through the balloon water injection hole 36a between the balloon water injection hole 36 and the communication groove 35. Water is supplied to the inside of the balloon 34 via the air inlet 35, and when water is supplied to the inside of the balloon 34, air in the balloon 34 flows into the communication groove 35 and the suction hole for the balloon.
The suction is performed through a balloon suction hole 37a and a balloon suction tube 39 in this order from the balloon suction hole 37a. In addition, a bending operation knob 40 for bending the bending portion 20 of the insertion portion 13, an eyepiece 41, an air / water supply piston 42, and a suction piston 43 are provided on the hand operation portion 12 of the operation portion. In this case, a release switch 44 for remotely controlling a device such as a camera and a freeze switch 45 for stopping an image on a monitor television or the like of an ultrasonic observation apparatus are provided near the air / water supply piston 42 and the suction piston 43, respectively. A treatment instrument insertion opening 46 is provided at a position near the connecting portion of the operating portion with the sub-operating portion 14 and is protruded. Further, the piston body 42a of the air / water supply piston 42 and the piston body of the suction piston 43 are mounted in the cylinder so as to be movable in the axial direction. In this case, a water inlet 47, an air inlet 48, a water outlet 49, and an air outlet 50 are respectively formed in the cylinder 42b of the air / water supply piston 42, and air is supplied to the piston body 42a of the air / water supply piston 42. A discharge hole 51 is formed. As shown in FIG. 3, the water inlet 47 and the water outlet 49 are closed, the air inlet 48 and the air outlet 50 are in a state where the piston body 42a of the air / water supply piston 42 is held at the protruded normal position. Are held open, and the air exhaust hole 51 of the piston body
The water supply piston 42 is held in a state of being communicated with an air passage in the cylinder 42b. Further, as shown in FIG. 7, when the air / water supply piston body 42a is pushed from the protruded normal position, the air inlet 48 and the air outlet 50 are closed, and the water inlet 47 and the water outlet 49 are respectively closed. The operation is switched to the open state. The cylinder of the suction piston 43 has an inlet and an outlet. Then, in a state where the piston body of the suction piston 43 is held in the protruding normal position, the space between the introduction port and the outlet port is held in a closed state, and from the normal position where the piston body of the suction piston 43 protrudes. In the state where the push-in operation is performed, the operation between the inlet and the outlet is switched to the communication state. Further, a water supply mouthpiece 52, a suction mouthpiece 53, an electric contact and the like are provided on the outer peripheral surface of the endoscope connector 16, respectively. The connection end of the guide part 31b and the air supply pipe 54 are provided in a protruding manner, respectively. When the endoscope connector 16 is connected to the light source device L, the connection end of the light guide portion 31b is connected to the light leading end of the light source device L, and
4 is connected to an air supply mechanism in the light source device L. In addition, 52
, A suction tank 56 is connected to the water supply tank 55, and a suction device 56 is connected to the suction base 53, respectively. In this case, the water supply mouthpiece 52 is connected to the water supply passage 57 provided in the universal cord 15.
Is connected to a water inlet 47 of the air / water supply piston 42 through an air supply pipe 54.
Air inlet of air supply / water supply piston 42 through air supply path 58 in universal cord 15
Connected to 48. Further, the suction base 53 is connected to the suction path 59 in the universal cord 15.
Is connected to the outlet of the suction piston 43 via the. Also universal code
One end of a branch pipe 60 is connected to the air supply path 58 in the pipe 15, and the other end of the branch pipe 60 is inserted into the water supply tank 55. Then, the air sent from the air supply source in the light source device L to the hand operation unit 12 through the endoscope connector 16 and the universal cord 15 by the air supply / water supply piston 42 is discharged by the air supply / water supply piston 42. The normal position where the air is released to the outside through the hole 51, the air discharge hole 51 of the air / water supply piston 42 is closed by the user's finger or the like, and the endoscope connector 16 and the universal cord are connected from the air supply source in the light source device L. Air supply path within 15
The air supply position or the air discharge hole 51 of the air supply / water supply piston 42 that supplies the air sent to the hand operation unit 12 side to the air supply / water supply pipe 29 side in the insertion unit 13 via the user's finger is The air supply / water supply piston 42 is pushed in with the air supply / water supply piston 42 closed in such a manner as to close the air supply passage 58 in the universal cord 15, and the air supplied from the air supply source in the light source device L is supplied to the endoscope connector 16. Into the water supply tank 55 connected to the water supply mouth 52, pressurizes the water supply tank 55, and supplies the water supplied from the water tank 55 to the universal cord.
A water supply position to be supplied to the air supply / water supply pipe 29 side in the insertion section 13 is selectively switched to an operation through a water supply path 57 in the apparatus 15 and a water supply path in the hand operation section 12. The suction piston 43 opens and closes the suction path. On the other hand, a water supply switching cock (water channel switching means) 61, a suction switching cock 62, and a luer lock base 63 are provided in the sub-operation section 14 of the operation section. in this case,
The water supply switching cock 61 and the suction switching cock 62 are provided with cock bodies 61a, 62a and rotating members 61b, 62b rotatably mounted in the cock bodies 61a, 62a, respectively. Further, the first, second, and third connecting end portions 64, 65, and 66 are provided on the cock body 61a of the water supply switching cock 61, and the fourth, fifth, and sixth are provided on the cock body 62a of the suction switching cock 62. Each connection end 67, 68, 69 is formed respectively. Then, between the first connection end 64 of the water supply switching cock 61 and the water outlet 49 of the air / water supply piston 42, between the second connection end 65 and the air / water supply pipe 29, and the third Connection end
66 and the balloon water pipe 38 are connected to each other, and between the fourth connection end 67 of the suction switching cock 65 and the inlet of the suction piston 43, and the fifth connection end.
68 between the instrument insertion channel 27 and the sixth connection end 69 and the balloon suction tube
And 39 are connected respectively. Further, as shown in FIG. 3, a first connecting passage 70 for connecting between a first connecting end 64 and a second connecting end 65 and a second connecting passage 70 are provided on the rotating member 61b of the water supply switching cock 61. As shown in FIG. 7, the rotation member 61b is set at a predetermined angle from the optical system washing position where the first connection end 64 and the second connection end 65 are connected via the first connection passage 70. Second connecting passages 71 are formed to connect between the first connecting end 64 and the third connecting end 66 in the rotated state, and the second connecting passages 71 are formed for the turning operation of the turning member 61b. The operation can be selectively switched from the optical system cleaning position to the water injection position in the balloon where the first connection end 64 and the third connection end 66 are connected via the second connection passage 71. ing. A connecting member is provided between the second connecting end 65 of the water supply switching cock 61 and the air / water supply pipe 29.
An air supply / water supply pipe 29 and the air outlet 50 of the air supply / water supply piston 42 are connected via the connection member 72. Further, as shown in FIG. 3, a third connecting passage 73 connecting the fourth connecting end 67 and the fifth connecting end 68 to the rotating member 62b of the suction switching cock 62, 3
From the endoscope suction position in which the fourth connection end 67 and the fifth connection end 68 are connected via the connection passage 73, the rotation member 62b is set at a predetermined angle as shown in FIG. Fourth connection passages 74 are formed to connect between the fourth connection end 67 and the sixth connection end 69 in the rotated state, respectively. From the endoscope suction position to the suction position in the balloon where the fourth connection end 67 and the sixth connection end 69 are connected via the third connection passage 73. Has become. Further, the luer lock base 63 is connected to the water injection pipe 38 for a balloon. in this case,
The luer lock base 63 is provided with a syringe fitting portion 76 into which a syringe 75 for manual water supply in the balloon 34 can be inserted, and as shown in FIG. A check valve 77 is provided, which holds the space between the syringe and the valve 38 in a closed state, and opens in response to the water supply pressure from the syringe 75 fitted to the syringe fitting portion 76. When using the ultrasonic endoscope 11, the insertion section 13 is inserted into the body cavity, and the distal end hard section is inserted.
With the 21 guided to the target portion, the rotating member 61b of the water supply switching cock 61 of the sub-operation unit 14 of the operating unit is rotated to the water injection position in the balloon, and the rotating member 62b of the suction switching cock 62 to the suction position in the balloon. The water supply that is operated while pushing the piston body 42a of the air / water supply piston 42 in a state where the air discharge hole 51 of the air / water supply piston 42 of the hand operation unit 12 of the operation unit is closed by a user's finger or the like. Position, suction piston 43
The operation is switched to the suction position where the piston body has been pushed in, and water is injected into the balloon 34. Then, ultrasonic waves are scanned by the ultrasonic vibrator 23 in a state where the balloon 34 is filled with water so that a tomographic image of, for example, a body cavity wall is obtained. Therefore, in the above configuration, the rotating member 61b of the water supply switching cock 61 of the sub-scanning section 14 is rotated to the water injection position in the balloon, and the rotating member 62b of the suction switching cock 62 is rotated to the suction position in the balloon. In addition, the air supply / water supply piston of the operation unit 12
Switching operation between the water supply position where the piston main body 42a of the air / water supply piston 42 is pushed and operated and the suction position where the piston main body of the suction piston 43 is pushed and operated with the air discharge hole 51 of 42 closed by the user's finger or the like. The water tank 55
The water inside can be injected into the balloon 34 through the water supply path 57, the air / water supply piston 42, the water supply switching cock 61, and the balloon water supply pipe 38 in the universal cord 15 in that order. For this reason, the water in the water supply tank 55, which was conventionally blown out from the air outlet 26a of the air / water supply nozzle 26 toward the objective lens 32 side of the observation optical system 25 and is used only for cleaning the objective lens 32, is supplied to the balloon 34. Since it can also be used for water injection into the inside, a syringe for liquid supply is connected to the liquid supply port body of the sub-operation unit 14 of the operation unit during use of the ultrasonic endoscope 11 as in the related art, The troublesome operation of manually injecting the liquid supply syringe into the balloon 34 can be eliminated, and the operability can be improved. In addition, all the components such as the water supply path 57, the air / water supply piston 42, the water supply switching cock 61, and the water injection pipe 38 for the balloon in the universal cord 15, which guides the water in the water supply tank 55 into the balloon 34, are inside the ultrasonic wave. Since the liquid feed tube is mounted in the main body of the endoscope 11, there is no possibility that the liquid feeding pipe will obstruct the operation of the ultrasonic endoscope 11, which is advantageous in improving operability. It should be noted that the present invention is not limited to the above-described embodiment, and it is needless to say that various modifications can be made without departing from the spirit of the present invention. [Effects of the Invention] According to the present invention, a water supply passage from an endoscope connector and a plurality of water supply passages in the insertion portion are interposed between the water supply passage and the balloon water supply opening. A water supply switching means for selectively switching operation between the suction and forceps provided between the suction path from the endoscope connector and the plurality of suction paths in the insertion section. Suction switching means for selectively switching between suction from the mouth and suction from the balloon suction port is provided in the operation unit, so that the operation of switching between water supply and suction by the water supply switching means and the suction switching means is substantially omitted. The same operation procedure can be used. Therefore, at the time of water supply / suction operation of an endoscope having a plurality of water supply openings and a plurality of suction openings at the distal end of the insertion portion, a troublesome operation of connecting a syringe or the like and a plurality of suction tubes or the like is omitted. The operation of switching between water supply and suction can be performed without the operator releasing the hand from the operation unit, malfunction can be prevented, and operability can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural view of a main part of an endoscope, FIGS. 2 to 7 show one embodiment of the present invention, and FIG. 2 is an ultrasonic endoscope. FIG. 3 is a plan view of the entire external appearance, FIG. 3 is a schematic configuration diagram showing a piping state in the ultrasonic endoscope, FIG. 4 is a longitudinal sectional view showing an internal configuration of a sub-operation unit, and FIG. FIG. 6 is a cross-sectional view taken along the line VI-VI of FIG. 4, FIG. 7 is a schematic configuration diagram showing a state of water injection into the balloon, and FIGS. 8 and 9 show a conventional example. FIG. 8 is a plan view showing the entire appearance of the ultrasonic endoscope, and FIG. 9 is a longitudinal sectional view of a hard distal end portion. 13 insertion section, 16 endoscope connector, 21 rigid tip section, 24 suction / forceps port, 25 observation optical system, 26a outlet, 27 channel for treatment tool insertion ( (Suction path)
, 29… Air / water pipe (water channel), 36a… Balloon water inlet, 37… Balloon suction hole, 38… Balloon water pipe (water channel), 39… Balloon suction pipe ( Suction path),
61 ... Water supply switching cock, 62 ... Suction switching cock.

Claims (1)

Claims: (1) An operation unit is provided on the hand side of an insertion unit, and an ultrasonic vibrator for transmitting and receiving ultrasonic waves to a hard distal end disposed at the distal end of the insertion unit, and an observation optical system. An outlet directed toward a surface, a balloon water inlet directed in a direction different from the observation optical system, and the observation optical system
A suction / forceps port in the vicinity and a balloon suction port in the vicinity of the balloon water inlet are provided.
And in the insertion portion, communicate with the outlet and the balloon water inlet.
And a plurality of water passages to communicate with the suction / forceps port and the balloon suction port.
A plurality of suction paths are provided, and a balloon fixed to an outer peripheral surface of the distal end hard portion is provided.
In the endoscope that covers the periphery of the ultrasonic vibrator , the endoscope is interposed between a water passage from an endoscope connector and a plurality of water passages in the insertion portion, and supplies water to the outlet. A water supply switching means for selectively switching water supply to the balloon water inlet is provided in the operation unit, and is provided between a suction path from the endoscope connector and a plurality of suction paths in the insertion section. An endoscope provided with a suction switching means for selectively switching between suction from the suction / forceps port and suction from the balloon suction port. (2) The endoscope of the claims claim 1 wherein the said balloon for water injection port and the balloon suction port, characterized in that provided at a position to be within the balloon.