JP2009089795A - Endoscope channel cleaning device and endoscope channel cleaning connector - Google Patents

Abstract

An endoscope capable of connecting a suction device and a pipe base without imposing a burden on an operator, and stably supplying a fluid sufficient for cleaning into the pipe and cleaning the pipe. To provide a pipe cleaning device.
An endoscope pipe cleaning device 1 includes a suction device 2 and a pipe connector 4. The pipe connector 4 includes a base body 5 and a base connection portion 8b. The base connection part 8b of the cylindrical body 8 includes a connection state adjustment part. The conduit connector 4 includes a base body 5, an urging member 7, a holding member 6 that is moved by the urging force of the urging member 7, and cylindrical members 8 and 9 that are elastic members. As the holding member 6 moves, the diameter of the tip communication hole 8d changes.
[Selection] Figure 3

Description

  The present invention relates to an endoscope conduit cleaning device for cleaning a fluid conduit provided inside an endoscope, and an endoscope conduit cleaning connector used in the device.

  An endoscope is inserted into a living body and used for inspection, treatment, and the like. Therefore, the endoscope after use is used in a clean state when it is reused by washing with a washing liquid, autoclave sterilization with high-temperature steam, and the like. The endoscope includes various fluid conduits such as an air supply conduit for supplying air, a water supply conduit for supplying water, and a suction conduit for suction. Cleaning in these pipes is more difficult than cleaning the outer surface of the endoscope. When cleaning the inside of these pipe lines, for example, an endoscope pipe cleaning apparatus is used. FIG. 21 is a diagram for explaining a configuration example of a conventional pipe cleaning apparatus.

  For example, the washing apparatus 100 shown in FIG. 21 includes a suction side conduit 101, a syringe 102 as a supply device, and a plurality of liquid supply side conduits 103, 104, and 105. In the cleaning apparatus 100, by operating the syringe 102, the cleaning liquid is sent to the liquid feeding side pipe 103 via the suction side pipe 101. The washing liquid sent to the liquid supply side pipe 103 is branched and sent to the air / water supply port side pipe 104 and the suction port side pipe 105 via the branch portion 106.

  The washing liquid sent to the air / water supply port side conduit 104 branches at the air / water supply port 107 and is sent to the insertion portion side conduit 108a and the universal cord side conduit 108b. Similarly, the cleaning liquid sent to the suction port side pipe line 105 branches at the suction port 109 and is sent to the insertion part side pipe line 110a and the universal cord side pipe line 110b. However, the flow rate balance differs depending on the diameter of each of the pipes 108a, 108b, 110a, 110b. For this reason, it has been difficult to stably supply the same amount of fluid such as cleaning liquid to the pipes 108a, 108b, 110a, and 110b.

  In order to solve this problem, in a recent pipe cleaning apparatus, as shown in FIG. 22, syringes 114, 115,... Corresponding to pipe caps 112, 113,. The cleaning liquid is fed into the pipe lines 110b and 110a and the pipe lines 108b and 108a for cleaning. FIG. 22 is a diagram illustrating a cleaning state in which a cleaning liquid is sent from the base side toward the opening at the tip using a syringe.

  Accordingly, it is possible to stably supply a washing liquid sufficient for washing from the side of the pipe caps 112 and 113 to the pipes 110b and 110a and the pipes 108b and 108a. However, the operation of operating the syringes 114 and 115 to discharge the washing liquid, that is, the washing liquid from the pipe caps 112 and 113, the pipes 108b and 110b in the universal cord, the ports 107 and 109 in the operation part, and the insertion part The work of feeding the pipes 108a and 110a to the tip openings 116 and 117 is a heavy labor for the female staff because the washing liquid must be fed against the resistance of the pipes.

  Further, along with the recent reduction in diameter of the endoscope insertion portion, the diameter of the pipe line is reduced and the number of pipe lines is increasing. For this reason, the pipe cleaning work is a burdensome work for the staff.

  In order to solve these problems, it has been proposed to use a suction device to clean the inside of the pipe, for example, instead of washing using a syringe to supply the washing liquid into the pipe. In cleaning using a suction device, the pipe mouthpiece provided in the endoscope connector and the suction port of the suction device are communicated, and in this state, the tip opening of the pipe is immersed in the cleaning liquid for suction. Do.

  Accordingly, the cleaning liquid is fed into the pipe line from the opening at the front end, and the cleaning liquid is discharged through the pipe base, thereby cleaning the inside of the pipe line. In the cleaning using the suction device, all the pipe caps provided in the endoscope connector and the suction port of the suction device are in communication with each other, and a plurality of pipes are cleaned at a time. It was common to do so.

  However, when cleaning a plurality of pipelines at a time using a suction device, the flow rate balance is uneven because the diameters of the plurality of pipelines provided in the endoscope differ for each application. become. As a result, the amount of cleaning liquid supplied to each pipe line may become unstable. The shape of the pipe base is substantially determined by the diameter of the pipe. For this reason, in order to connect the suction port of the suction device and each pipe cap, a dedicated connector corresponding to each pipe cap is required. The trouble of connecting the connector to the pipe cap becomes complicated.

  The present invention has been made in view of the above circumstances, and can connect the suction device and the pipe base without imposing a burden on the operator, and stably supply a fluid sufficient for washing into the pipe. It is an object of the present invention to provide an endoscope conduit cleaning apparatus that can clean the inside of a conduit.

  An endoscope duct cleaning device of the present invention is inserted into a suction device having a suction port, a first connecting portion that communicates directly or indirectly with the suction port, and an insertion portion of the endoscope. Endoscope pipe cleaning connector having a second connecting part having a connecting state adjusting part connected to a pipe base having a different shape for each pipe line, which communicates with the opening of each arranged pipe line It is equipped with.

  According to this configuration, the second connecting portion can be connected to any of the pipe caps having different shapes. Therefore, the user is eliminated from the troublesome work of connecting the suction device and the pipe base.

  According to the present invention, it is possible to connect the suction device and the pipe base without imposing a burden on the operator, and to stably supply a fluid sufficient for washing into the pipe and to wash the pipe. An endoscope pipe cleaning device can be realized.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 to FIG. 9 relate to an embodiment of an endoscope conduit cleaning apparatus, FIG. 1 is a diagram illustrating the configuration of the endoscope conduit cleaning apparatus, and FIG. 2 is an exploded view illustrating the configuration of the conduit connector. FIG. 3 is a cross-sectional view illustrating the conduit connector, FIG. 4 is a diagram illustrating the conduit connector in a state where the tip communication hole is expanded, and FIG. 5 is a configuration example of the endoscope conduit. FIG. 6 is a diagram illustrating a state in which the pipe connector is aligned with the suction base, FIG. 7 is a diagram illustrating a state in which the pipe connector is connected to the suction base, and FIG. FIG. 9 is a diagram for explaining a state in which the connector is connected to the air supply cap, and FIG. 9 is a diagram for explaining the operation of the endoscope pipeline cleaning apparatus, and includes a suction pipeline, an air pipeline and a water pipeline. It is a figure explaining the inside washing state.

  As shown in FIG. 1, the endoscope conduit cleaning device 1 includes a suction device 2, a suction tube 3, and an endoscope conduit cleaning connector (hereinafter abbreviated as a conduit connector) 4. Configured.

  The suction device 2 is an aspirator having a substantially T-shape, for example, a connection portion 2a connected to a water tap, a tube connection portion 2c having a suction port 2b, water supplied from the water tap, and suction A discharge part 2e having a discharge port 2d through which a fluid such as a washing liquid sucked through the port 2b flows out is provided.

  One end of the suction tube 3 is detachably connected to the tube connection portion 2c. The suction tube 3 is a flexible tube body. At the other end of the suction tube 3, the base end of the base body 5 that constitutes the first connecting portion of the conduit connector 4 is integrally disposed by, for example, press fitting. The base end portion of the base body 5 may be integrally fixed to the suction tube 3 by adhesion or the like.

The pipe connector 4 shown in FIGS. 3 and 4 includes a base body 5 shown in FIG. 2, a pair of holding members 6, a pair of urging members 7 that are urging portions, a first cylindrical body 8, It is comprised with the 2nd cylinder 9. The holding member 6 and the biasing member 7 are fixed integrally. The biasing member 7 with which the holding member 6 is integrated is fixed to the base body 5. Further, the base body 5 in which the holding member 6 and the urging member 7 are integrated is fixed to the first cylindrical body 8, and the second cylindrical body 9 is fixed to the base body 5 and the first cylindrical body 8, thereby A road connector 4 is configured.
The conduit connector 4 will be described with reference to FIGS.

  The base body 5 is a metallic tubular member having a through hole 5a, and includes a fixing portion 5b formed of a flat surface for fixing the biasing member 7 on the distal end side. The fixing part 5b is provided to face each other.

  The pair of holding members 6 are made of metal and include a gripping portion 6a and a diameter-expanded portion 6b. The grip portion 6a is formed in a flat plate shape or a gently curved shape. The surface 6c of the gripping part 6a is a part to be gripped when the user moves the enlarged diameter part 6b against the biasing force of the biasing member 7. The rear surface of the gripping portion 6a is a biasing member fixing surface (hereinafter abbreviated as a fixing surface) 6d, and the biasing member 7 is integrally fixed by bonding, soldering, metal bonding such as welding.

The enlarged diameter portion 6b has a substantially half-pipe shape with a curved groove 6e. The outer surface 6f of the enlarged diameter portion 6b is disposed so that at least a part thereof is in contact with an inner surface constituting an internal space (see reference numeral 8a) described later of the first cylindrical body 8. A connecting portion, which will be described later, of the first cylindrical body 8 is disposed inside the curved groove 6e.

  The urging member 7 is a metal spring, for example, has a substantially triangular cross-sectional shape, and includes an urging portion 7a and attachment portions 7b and 7c having attachment surfaces. A positioning projection 7d is provided on the tip side of the mounting portions 7b and 7c.

The urging portion 7a is configured to have an urging force that causes the positioning protrusion 7d of the first attachment portion 7b and the positioning protrusion 7d of the second attachment portion 7c to contact each other with a predetermined pressing force. The first mounting portion 7b is integrally fixed to the fixing surface 6d of the holding portion 6a of the holding member 6 by, for example, bonding or metal bonding, and the second mounting portion 7c is bonded to the fixing portion 5b of the base body 5 by, for example, bonding or metal bonding. Are fixed integrally.
The positioning projection 7d of the first mounting portion 7b is disposed in a groove (see reference numeral 6g in FIG. 3) formed on the fixed surface 6d side of the gripping portion 6a.

  The 1st cylinder 8 is comprised with elastic members, such as rubber | gum and a resin member, and is provided with the internal space 8a of a predetermined shape. The 1st cylinder 8 has the nozzle | cap | die connection part 8b used as the 2nd connection part connected with the nozzle | cap | die (code | symbol 15, 16, 17, 18 of FIG. 5) mentioned later on the front end side. From the base end side of the base connection part 8b, a connecting part 8c having an elongated hole and an inner hole 8i, which is a through hole arranged in the through hole 5a of the base body 5, protrudes. The connecting portion 8c is fixed by applying an adhesive to the gap between the outer peripheral surface of the connecting portion 8c and the inner peripheral surface of the base body 5 in a state where the connecting portion 8c is disposed in the through hole 5a. As a result, the connecting portion 8 c of the first cylindrical body 8 is fixed to the base body 5 in a watertight state. The tip communication hole 8d extending from the base connection portion 8b to the connection portion 8c is a connection state adjusting portion, and is configured by, for example, a taper hole whose diameter gradually decreases from the outside toward the inside. The central axis of the tip communication hole 8d and the longitudinal axis of the first cylinder 8 are coaxial.

  A holding member 6 and an urging member 7 are fixed to the base body 5. Reference numeral 8f is a first cylindrical body front end opening, and reference numeral 8r is a first cylindrical base end opening.

  The second cylinder 9 is integrally attached in a state of being disposed on the outer peripheral surface on the proximal end side of the first cylinder 8. The second cylinder 9 is made of an elastic member such as rubber or a resin member, and the second cylinder fixing portion 9a is thicker on the base end side than the side surface portion fixed to the base end portion of the base body 5. Have

  On the inner surface of the second cylinder fixing portion 9a, which is the bottom surface of the second cylinder 9, a fixing annular groove 9b, a meat stealing annular groove 9c, and a base attaching hole 9d are formed. The annular ring groove 9b for fixing is a groove for disposing the base end portion of the first cylinder 8, and the annular groove 9c for stealing meat is a groove for easily crushing the second cylinder fixing part 9a. is there. The base attachment hole 9d is a central through hole of the second cylindrical body fixing portion 9a. That is, it is coaxial with the central axis of the base attachment hole 9 d and the longitudinal axis of the second cylinder 9.

  The 1st cylinder 8 and the 2nd cylinder 9 are the state which has arrange | positioned the base end part of the 1st cylinder 8 in the annular groove 9b for fixation, and the outer peripheral surface of the 1st cylinder 8, and the 2nd cylinder 9 By applying an adhesive to the gap between the inner peripheral surface of the first member and the inner peripheral surface, the watertight state is maintained and the member is fixed integrally. Further, an adhesive is applied between the inner peripheral surface of the base attachment hole 9 d and the outer peripheral surface of the base body 5, so that the second cylinder 9 is kept in a watertight state at the base end portion of the base body 5 and is integrated. Secure to. This prevents the cleaning liquid described later from entering the internal space 8 a of the first cylinder 8.

  Reference numeral 9f denotes a finger pad, which is provided so as to protrude from the distal end surface of the second cylinder 9. The finger pad 9 f is a notification means for notifying the user of the position of the grip 6 a of the holding member 6 disposed in the internal space 8 a of the first cylinder 8. When the second cylinder 9 is integrally fixed to the first cylinder 8, the finger rest 9f is arranged corresponding to the position of the grip 6a.

  The user holds the conduit connector 4 configured as shown in FIG. 3 in a predetermined state as shown in FIG. That is, the user's fingers are placed on the finger rest 9f. Then, the gripping portion 6 a of the holding member 6 is pushed in toward the base body 5 against the urging force of the urging member 7 with the force of fingers. Then, as the gripping part 6a is moved toward the base body 5 direction, the enlarged diameter part 6b is moved away from the base body 5, and the outer surface 6f comes into contact with the inner surface constituting the internal space 8a. The diameter of the one cylinder tip opening 8f is gradually expanded. The diameter-expanded state shown in FIG. 4 is a state in which the tip communication hole 8d is expanded to the maximum.

  The configuration of the endoscope provided with a base to which the pipe connector 4 is connected during cleaning and disinfection will be described.

  As shown in FIG. 5, the endoscope 10 includes an elongated insertion portion 11, an operation portion 12, and a universal cord 13. An endoscope connector 14 is provided at the end of the universal cord 13.

  The endoscope 10 includes, as fluid lines, for example, a suction line 21 for performing suction, air supply lines 22 and 23 for performing air supply, and water supply lines 24 and 25 for performing water supply. I have. The suction conduit 21 includes a suction conduit distal end opening 21 a that opens at the distal end of the insertion portion 11 and performs suction. In addition, the air supply conduits 22 and 23 and the water supply conduits 24 and 25 communicate with each other via an air / water supply cylinder 26 in the operation unit 12. That is, the air supply conduit 23 and the water supply conduit 25 on the insertion portion 11 side are in communication with the air supply conduit 22 and the water supply conduit 24 that extend toward the universal cord 13 via the air / water supply cylinder 26. ing.

  Further, the air supply line 23 and the water supply line 25 merge at the distal end side of the insertion portion 11. A nozzle 27 is provided at the end of the joined pipe line. The outlet of the nozzle 27 faces the surface of the objective lens system 28.

  The suction conduit 21 disposed in the insertion portion 11 branches into two near the rear end of the insertion portion 11 or the front end of the operation portion 12. One extends to the operation unit 12 side, and the other communicates with the forceps base 29. A forceps plug 30 having an opening 30a is detachably attached to the forceps base 29.

  Further, the suction conduit 21 extending to the operation unit 12 side extends to the universal cord 13 side via the suction cylinder 31 in the operation unit 12. The suction cylinder 31 opens to the outside (atmosphere) at the opening. Further, the air / water supply cylinder 26 of the operation unit 12 is also opened to the outside (atmosphere) through the opening. A cylinder plug 32 is attached to the opening of the air / water supply cylinder 26 and the opening of the suction cylinder 31. Thus, each opening communicates with the outside through small gaps 33 and 34.

  The endoscope connector 14 includes a plurality of caps 15, 16, 17, and 18. Specifically, a suction base 15 that is a pipe base communicating with the proximal end opening of the suction pipe 21, a water supply base 16 that is a pipe base communicating with the proximal end opening of the water supply pipe 24, An air supply base 17 that is a pipe base that communicates with one base end side opening branched at the branch portion 22a of the air supply pipe line 22, and a pressure base 18 that is a pipe base that communicates with the other base end side opening. It is.

  The shapes of the bases 15 to 18 are different for each base. That is, the bases 15 to 18 have different diameter dimensions and height dimensions.

The operation of the conduit connector 4 will be specifically described.
In the present embodiment, the base end portion of the base body 5 constituting the conduit connector 4 is press-fitted into the end portion of the suction tube 3 that is a cleaning tube. That is, the suction tube 3 includes a conduit connector 4 at the end thereof.

  Therefore, for example, when the conduit connector 4 is attached to the suction cap 15, the user manually operates the conduit connector 4 according to the following procedure.

  First, the user arranges the first cylindrical body tip opening 8 f of the conduit connector 4 in the vicinity of the suction cap 15. Next, as shown in FIG. 4, the user pushes the gripping portion 6 a toward the base body 5 against the urging force of the urging member 7 with the fingers through the cylinders 8 and 9, The tip communication hole 8d is brought into a desired diameter expansion state. Then, as shown in FIG. 6, the user covers the periphery of the suction base 15 with the tip communication hole 8 d in the diameter-enlarged state so that the base connection portion 8 b faces the outer peripheral surface of the suction base 15.

  Next, when the user confirms that the tip communication hole 8d is arranged at a desired position, the user gradually weakens the force of the finger holding the holding portion 6a. Then, the gripping portion 6a is moved by the urging force of the urging member 7, and the diameter of the tip communication hole 8d in the diameter-expanded state gradually decreases with the movement.

  Then, in the state where the user's finger is removed from the gripping portion 6a as shown in FIG. 7, the base connection portion 8b is biased to the outer peripheral surface of the suction base 15 and the elastic force of the base connection portion 8b. Will be in close contact with each other. As a result, the connection of the conduit connector 4 to the suction cap 15 is completed.

  When the user continues to clean another pipe, the user removes the pipe connector 4 from the suction base 15 and attaches it to the air supply base 17, for example. In this case, the pipe connector 4 is removed from the suction cap 15 by a procedure opposite to the procedure described above, and then the tip communication hole 8d is expanded in diameter by the procedure described above. The base connection portion 8 b is opposed to the outer peripheral surface of the air supply base 17 so as to cover the periphery of the air supply base 17 with 8 d.

  Thereafter, the user gradually weakens the force of the finger holding the holding part 6a. Then, the gripping portion 6a is moved by the biasing force of the biasing member 7, and the tip communication hole 8d in a diameter-expanded state is gradually reduced in diameter, so that the user's fingers are removed from the gripping portion 6a as shown in FIG. In this state, the base connection portion 8b is in close contact with the outer peripheral surface of the air supply base 17 by the urging force of the urging member 7 and the elastic force of the base connection portion 8b. As a result, the connection of the conduit connector 4 to the air supply cap 17 is completed.

  The air supply cap 17 has a straight pipe shape, whereas the suction cap 15 has a so-called bamboo shoot shape having a tube removal prevention stepped portion at the end.

  As described above, in the conduit connector 4 of the present embodiment, the tip communication hole 8d including the base connection portion 8b changes from the reduced diameter state to the enlarged diameter state or vice versa in accordance with the operation of the grip portion 6a. To do. And the base connection part 8b opposes the outer peripheral surface of a nozzle | cap | die by arrange | positioning the front-end | tip communication hole 8d of a diameter expansion state so that a desired nozzle | cap | die may be covered. For this reason, when the tip communication hole 8d is changed from the expanded diameter state to the reduced diameter state, the base connection portion 8b abuts on the outer peripheral surface of the base in the reduced diameter action state, so that the base connection portion 8b is biased. 7 and the elastic force of the base connection portion 8b are in close contact with the outer peripheral surface of the base. That is, the pipe connector 4 and a plurality of types of caps having different outer shapes can be connected.

  With reference to FIG. 9, the operation of the endoscope channel cleaning apparatus will be described.

  When cleaning the endoscope 10, first, the user attaches the plug member 20 having the communication path 20 a indicated by the two-dot chain line in the drawing to a predetermined position of the endoscope connector 14. As a result, the water supply cap 16 and the pressure cap 18 are in communication with each other via the communication passage 20a.

  Next, the conduit connector 4 provided in the suction tube 3 constituting the endoscope conduit cleaning apparatus 1 is connected to, for example, the suction cap 15 in the above-described procedure. Thereafter, the insertion portion 11 and the operation portion 12 of the endoscope 10 are immersed in the cleaning liquid 40. As a result, the suction pipe front end opening 21a is arranged in the washing liquid.

  In this state, the user supplies water to the aspirator 2 with the water tap open. Then, the suction port 2b of the tube connection portion 2c enters the suction state and starts suction. That is, the cleaning liquid 40 enters the suction pipe 21 on the insertion portion side through the suction pipe tip opening 21 a and the opening 30 a of the forceps plug 30. The cleaning liquid 40 is supplied from the suction pipe 21 on the insertion portion side to the suction cylinder 31, the suction pipe 21 on the universal coat side, the suction base 15, the inner hole 8 i of the connecting portion 8 c of the first cylindrical body 8, the base body. 5 passes through the through hole 5a, the through hole of the suction tube 3, and the suction port 2b, and is discharged from the discharge port 2d of the aspirator 2.

  When the user confirms that the cleaning liquid has been sucked continuously for a predetermined time, the user determines that the cleaning of the suction pipe 21 has been completed, and puts the water tap into a closed state. As a result, the supply of water to the aspirator 2 is stopped and the suction into the suction pipe 21 is stopped.

  Thereafter, the user removes the conduit connector 4 from the suction cap 15 according to a predetermined procedure, and connects the conduit connector 4 to, for example, the air supply cap 17. After the connection of the pipe connector 4 is completed, the staff opens the water tap again. As a result, the cleaning liquid 40 is sucked through the nozzle 27 and cleaning of the air supply pipes 23 and 22 and the water supply pipes 25 and 24 is started. That is, the cleaning liquid 40 is sucked from the nozzle 27 and then flows into the air supply line 23 and the water supply line 25. Then, the cleaning liquid that has flowed into the air supply pipe 23 is supplied to the air supply / water supply cylinder 26, the air supply pipe 22, the branch portion 22 a, the air supply pipe 22, the inner hole 8 i of the connecting portion 8 c of the first cylinder 8, and the base body 5. The through hole 5a, the through hole of the suction tube 3, and the suction port 2b are discharged from the discharge port 2d of the aspirator 2. On the other hand, the washing liquid that has flowed into the water supply pipe is supplied to the air / water supply cylinder 26, the water supply pipe 24, the water supply base 16, the communication path 20 a of the plug member 20, the pressure base 18, the branch part 22 a, the air supply pipe 22, The first cylindrical body 8 passes through the inner hole 8i in the connecting portion 8c, the through hole 5a of the base body 5, the through hole of the suction tube 3, and the suction port 2b, and is discharged from the discharge port 2d of the aspirator 2.

  After confirming that the cleaning liquid has been continuously sucked for a predetermined time, the user determines that the cleaning of the air supply pipes 23 and 22 and the water supply pipes 25 and 24 is completed, and turns the water tap on. Put it in a blocked state. As a result, the supply of water to the aspirator 2 is stopped, and suction into the air supply conduit 23 and the water supply conduit 25 is stopped.

  As described above, the suction tube connected to the tube connection portion of the aspirator is a single pipe line having a mouthpiece connection portion provided with a suction base provided in the endoscope and a connection state adjusting portion that can be attached to and detached from the air supply base. Connector. For this reason, when attaching the connector for pipe lines to the plurality of caps provided in the connector for pipe lines, the user can perform the mounting work without feeling troublesome.

  In addition, the user confirms whether or not a predetermined time has passed, the cleaning of a plurality of pipes of the endoscope, the work of attaching pipe connectors to the base, the work of supplying tap water to the aspirator By repeatedly performing the operation of stopping the supply of tap water and the operation of attaching the connector for the pipe line to another base, it is possible to wash all the pipe lines.

  By these things, cleaning liquid sufficient for cleaning can be sent to each pipe line. Therefore, the difference in the diameter of the pipe line, that is, the washing trouble due to the fluctuation of the flow rate balance is solved. In addition, the physical burden on the user when washing the endoscope duct is greatly reduced.

  In addition, in the above-described embodiment, the endoscope pipe cleaning device 1 after use also includes the pipe connector 4, the base body 5, the pair of holding members 6, the pair of urging members 7, It is composed of a single cylinder 8 and a second cylinder 9, and the pipe connector 4 can be connected to a base having a different shape and is detachable. However, the configuration of the conduit connector 4 is not limited to this. The configurations shown in FIGS. 10 to 17 may be used.

  10 to 13 relate to another configuration example of the pipe connector, FIG. 10 is a diagram illustrating another configuration example of the pipe connector, FIG. 11 is a cross-sectional view taken along line AA in FIG. FIG. 13 is a diagram for explaining a state in which the conduit connector is connected to the air supply base, and FIG. 13 is a diagram for explaining a state in which the conduit connector is connected to the suction base.

  As shown in FIGS. 10 and 11, the pipe connector 4 </ b> A includes a base body 41 and a connecting portion body 42. The base body 41 constitutes a first connecting portion. The connection part main body 42 is a main body part that constitutes the second connection part, and is made of a resin or rubber, which is an elastic member, and has a rectangular parallelepiped shape.

  The base body 41 is a tubular member made of, for example, a resin, and includes a tube connection portion 41 a in which the suction tube 3 is disposed, and a fixing portion 41 b that is bonded and fixed to the coupling portion main body 42. .

  The connecting portion main body 42 includes a concave portion 43 and slits 44 and 45. The recess 43 is a round hole, and includes a cap hole 43a in which the fixing portion 41b is disposed and a suction hole 43b. The diameter of the cap hole 43a is larger than the diameter of the suction hole 43b. Therefore, the protruding amount of the tube connecting portion 41a constituting the base body 41 is set by the depth dimension of the base hole 43a. The suction hole 43b may be a hole having a bottom surface.

  The slits 44 and 45 are second connection parts and are connection state adjustment parts. The slit 44 can be deformed into an open state in which the slit 44 is brought into close contact with the elastic force of the connecting portion main body 42 and a closed state in which the slit 44 is pushed out against the elastic force. The opened slits 44 and 45 communicate the suction hole 43b with the outside. The width w of the slit 44 is set on the basis of the diameter of the narrow base, and the slit 45 is set on the basis of the diameter of the base having a width wider than w and larger than the base.

  Reference numerals 46a and 46b are guide portions which serve as a guide for discriminating the type of cap. The 1st guide part 46a is a spherical recessed part, and the 2nd guide part 46b is a round hole provided with a spherical recessed part. L1 which is the distance from the end face of the connecting portion main body 42 to the suction hole 43b is set based on the height dimension of the narrow base, and L2 is based on the height dimension of the base having a diameter larger than that of the base. Set to

  Here, the operation of the conduit connector 4A will be specifically described.

  In the present embodiment, the tube connection portion 41a of the base body 41 constituting the conduit connector 4A is press-fitted into the end portion of the suction tube 3 that is a cleaning tube.

  When the user attaches the conduit connector 4 </ b> A to the air supply base 17, for example, the user places the first guide portion 46 a in the vicinity of the air supply base 17. And it is confirmed whether the front-end | tip part of the air supply nozzle | cap | die 17 is arrange | positioned in the spherical recessed part of the 1st guide part 46a. When arranged in the first guide portion 46 a, the user pushes the connecting portion main body 42 toward the air supply cap 17. Then, the tip end portion of the air feeding base 17 is pressed by the spherical concave portion of the first guide portion 46a, and the first guide portion 46a side of the slit 44 which is in a closed state by the elastic force of the connecting portion main body 42 is gradually pushed. It will be expanded.

  When the user further pushes in the connecting portion main body 42, the open portion of the slit 44 is pushed and widened by the distal end portion of the air feeding base 17, and the distal end portion of the air feeding base 17 is used for suction as shown in FIG. It reaches into the hole 43b. At this time, the slit 44 portion of the connecting portion main body 42 is brought into close contact with the outer peripheral surface of the air feeding base 17 by the elastic force of the connecting portion main body 42. As a result, the connection of the pipe connector 4A to the air supply cap 17 is completed.

  When the user subsequently removes the pipe connector 4A from the air supply base 17 and attaches it to the suction base 15, the pipe connector 4A is removed from the air supply base 17 in the reverse procedure to that described above. Thereafter, as shown in the above-described procedure, the first guide portion 46 a is disposed in the vicinity of the suction cap 15.

  And it is confirmed whether the front-end | tip part of the suction nozzle 15 is arrange | positioned in the spherical recessed part of the 1st guide part 46a. When it is confirmed that the first guide part 46a is not disposed, the user places the second guide part 46b in the vicinity of the suction cap 15.

  The user pushes the connecting portion main body 42 toward the suction cap 15. Then, the tip end portion of the suction cap 15 is pressed by the spherical concave portion of the second guide portion 46b, and the second guide portion 46b side of the slit 45, which is in a closed state by the elastic force of the connecting portion main body 42, is gradually expanded. It will be.

  When the user further pushes in the connecting portion main body 42, the open portion of the slit 45 is pushed and widened by the distal end portion of the suction base 15, and the distal end portion of the suction base 15 enters the suction hole 43b as shown in FIG. To reach. At this time, the slit 45 portion of the connecting portion main body 42 is brought into close contact with the outer peripheral surface of the suction cap 15 by the elastic force of the connecting portion main body 42. As a result, the connection of the pipe connector 4A to the suction cap 15 is completed.

  Thus, in the conduit connector 4A of the present embodiment, the slits 44 and 45 change from the closed state to the open state or vice versa. Then, the base is pushed into the slit 44 or the slit 45 so that the tip portion reaches the suction hole 43b, so that the slit 45 portion of the connecting portion main body 42 is brought into contact with the outer peripheral surface of the base by the elastic force of the connecting portion main body 42. In close contact. That is, the pipe connector 4A and the desired base can be connected. As a result, as described above, a washing liquid sufficient for washing can be sent to each pipe line.

  In the above-described embodiment, the slits 44 and 45 are provided in the connecting portion main body 42 formed of the elastic member of the conduit connector 4A. However, you may make it comprise the connector 4B for pipelines as shown below.

  FIGS. 14 to 16 relate to another configuration example of the pipe connector, FIG. 14 is a longitudinal sectional view illustrating a configuration example of the pipe connector having a valve portion, and FIG. FIG. 16 is a diagram illustrating a state where the pipe connector is connected to the suction cap, and FIG. 16 is a diagram illustrating a state where the pipe connector is connected to the suction cap.

  As shown in FIG. 14, the connecting portion main body 42A of the present embodiment includes a recess 43, a first insertion port 47 having a communication hole 47a, and a second insertion port 48 having an insertion hole 48a. The 1st insertion port 47 is a connection state adjustment part by the 2nd connection part. The communication hole 47a is formed so as to communicate with the suction hole 43b. The diameter of the communication hole 47a is formed so as to be in close contact with the outer peripheral surface of the air supply cap 17 with a predetermined pressing force, for example.

  The insertion port 48 is a connection state adjustment part by the 2nd connection part. A valve portion 49 is provided between the insertion hole 48a and the suction hole 43b. The thickness dimension of the valve portion 49 is set so that the valve portion 49 is broken by the suction cap 15 inserted into the insertion hole 48 a through the insertion port 48. That is, by pushing the suction cap 15 inserted through the insertion port 48 deeper into the insertion hole 48a, the valve portion 49 is destroyed, and the suction cap 15 reaches the suction hole 43b. The diameters of the insertion hole 48a and the suction hole 43b are formed so as to be in close contact with the outer peripheral surface of the suction base 15 with a predetermined pressing force, for example.

  In the present embodiment, the dimension L3 is a value set in consideration of the insertion amount of the suction cap 15. That is, when the suction cap 15 is inserted and disposed in the suction hole 43b through the insertion hole 48a, the distal end surface of the suction cap 15 passes through the communication hole 47a by a predetermined distance and is closely attached to the suction hole 43b. It is like that. Other configurations are substantially the same as the above-described conduit connector 4A, and the same members are denoted by the same reference numerals and description thereof is omitted.

  Here, the operation of the conduit connector 4B will be specifically described.

  In this embodiment, the tube connection portion 41a of the base body 41 constituting the conduit connector 4B is press-fitted into the end portion of the suction tube 3 which is a cleaning tube.

  When the user cleans the pipeline of the endoscope 10, first, the pipeline connector 4 </ b> B is attached to the air supply base 17. That is, as shown in FIG. 15, the air supply cap 17 is press-fitted and arranged in the communication hole 47 a through the first insertion port 47. At this time, the inner peripheral surface of the communication hole 47 a is brought into close contact with the outer peripheral surface of the air feeding base 17 by the elastic force of the connecting portion main body 42. As a result, the connection of the conduit connector 4B to the air supply base 17 is completed.

  When the user subsequently removes the pipe connector 4B from the air supply base 17 and attaches it to the suction base 15, the pipe connector 4B is removed from the air supply base 17 in the reverse procedure to that described above. Thereafter, the user attaches the pipe connector 4 </ b> B to the suction cap 15.

  At that time, the user pushes the suction cap 15 into the insertion hole 48 a through the second insertion port 48 against the elastic force. Then, the front end surface of the suction cap 15 comes into contact with the bottom of the insertion hole 48a, that is, the valve portion 49, and the forward movement is temporarily stopped. Here, the user pushes the suction cap 15 against the urging force of the valve portion 49 in order to destroy the valve portion 49. Then, the valve part 49 is destroyed and the suction cap 15 enters the suction hole 43b. Here, the user pushes the suction cap 15 to a predetermined position in the suction hole 43b against the elastic force. This completes the connection of the conduit connector 4B to the suction cap 15 as shown in FIG. At this time, the inner peripheral surface of the insertion hole 48 a and the inner peripheral surface of the suction hole 43 b are in close contact with the outer peripheral surface of the suction base 15 by the elastic force of the connecting portion main body 42. By arranging the suction cap 15 in the insertion hole 48a, the communication hole 47a is closed with respect to the suction hole 43b.

  Thus, in the conduit connector 4B of the present embodiment, the slits 44 and 45 change from the closed state to the open state or vice versa. Then, the base is pushed into the slit 44 or the slit 45 so that the tip portion reaches the suction hole 43b, so that the slit 45 portion of the connecting portion main body 42 is brought into contact with the outer peripheral surface of the base by the elastic force of the connecting portion main body 42. In close contact. That is, the pipe connector 4A and the desired base can be connected. As a result, as described above, a washing liquid sufficient for washing can be sent to each pipe line.

  FIGS. 17 to 20 relate to another configuration example of the pipeline connector, FIG. 17 is a diagram illustrating another configuration example of the pipeline connector, and FIG. 18 is a cross-sectional view illustrating the configuration of the pipeline connector. FIG. 19 is a diagram for explaining a state in which the connection state adjusting portion of the pipe connector is set to a small diameter and arranged in the pipe of the base, and FIG. 20 is an enlarged view of the connection state adjusting portion of the pipe connector. It is a figure explaining the state which the elastic film part contact | adhered to the inner surface of the pipe line.

  As shown in FIGS. 20 and 18, the conduit connector 4 </ b> C includes a base body 51, a mesh tube portion 52, and an elastic membrane portion 53.

  The base body 51 constitutes a first connecting part. The base body 51 is a tubular member made of resin, for example, and includes a flange portion 51a at the center. The upper side in the figure from the flange portion 51a is a tube connection portion 51b in which the suction tube 3 is disposed. Below the flange 51a in the figure is a mesh tube fixing portion 51c to which the mesh tube portion 52 is attached.

  The mesh tube portion 52 is configured by forming a fine wire made of resin or metal into a mesh shape and forming a tubular shape. The net-like tube portion 52 has a configuration that can be expanded and contracted. By pulling the both ends so as to be separated from each other, the mesh tube portion 52 is in an extended state as indicated by a two-dot chain line. One end of the mesh tube portion 52 is integrally fixed to the mesh tube fixing portion 51c.

  The elastic film part 53 is configured by an elastic film member that can be expanded and contracted. The elastic membrane portion 53 is integrally covered with the mesh tube portion 52. The inner diameter dimension of the elastic film portion 53 is substantially the same as the outer diameter dimension of the mesh tube portion 52. Therefore, in the covering state shown by the solid line in FIG. 18, the shape of the mesh tube portion 52 is not deformed by the elastic force of the elastic film portion 53. The reticulated tube portion 52 is covered with an elastic membrane portion 53 to form a connection state adjusting portion 54. The outer diameter dimension of the connection state adjustment part 54 is φa.

  And as shown in FIG. 18, the connection state adjustment part 54 of the connector 4C for pipes is extended, and changes with connection state adjustment part 54a, 54b, 54c. The connection state adjustment unit 54a has a diameter φb smaller than φa, the connection state adjustment unit 54b has a diameter φc smaller than φb, and the connection state adjustment unit 54c has a diameter φd smaller than φc.

  Here, the operation of the conduit connector 4C will be specifically described.

  In the present embodiment, the tube connection portion 51b of the base body 51 constituting the conduit connector 4C is press-fitted into the end portion of the suction tube 3 that is a cleaning tube.

  When the user attaches the conduit connector 4C to the suction cap 15, for example, the user arranges the connection state adjusting portion 54 of the conduit connector 4C in the vicinity of the suction cap 15. And the connection state adjustment part 54 is extended against the elastic force of the elastic film part 53, and the connection state adjustment part 54c is formed. Here, the user holds the connection state adjusting portion 54c so that the diameter dimension does not change to a large diameter due to the elastic force of the elastic film portion 53. Then, as shown in FIG. 19, the connection state adjusting portion 54 c is inserted into the pipe line 16 a of the water supply base 16 or into the pipe line 14 a of the endoscope connector 14 on the back side in consideration of the contact pressure.

  Thereafter, the process waits for the diameter of the connection state adjusting portion 54c to change to a large diameter due to the elastic force of the elastic film portion 53. Then, as shown in FIG. 20, the connection state adjusting part 54 is expanded in diameter by the elastic force of the elastic film part 53, and the elastic film part 53 is arranged in close contact with the inner peripheral surfaces of the conduits 14a and 15a. As a result, the connection of the pipe connector 4A to the suction cap 15 is completed.

  When the user subsequently removes the pipe connector 4C from the suction cap 15 and attaches it to the air feed cap 17, the pipe connector 4C is pulled toward the hand side to reduce the diameter of the connection state adjusting portion 54d, The conduit connector 4C is removed from the suction cap 15. Thereafter, as shown in the above-described procedure, the diameter dimension of the connection state adjusting unit 54 is made smaller than the pipe line of the air supply cap 17 and is inserted into the pipe line.

  After that, it waits for the diameter dimension of the connected state adjusting portion to change to a large diameter due to the elastic force of the elastic film portion 53. Then, the elastic film part 53 of the expanded connection state adjusting part 54 is disposed in close contact with the inner peripheral surface of the pipe, and the connection of the pipe connector 4C to the air supply base 17 is completed.

  As described above, in the conduit connector 4C of the present embodiment, the connection state adjusting portion 54 is configured by covering the mesh tube portion 52 with the elastic film portion 53. And the diameter dimension of the connection state adjustment part 54 is made smaller than the inner diameter of the pipe, the connection state adjustment part 54 having the smaller diameter is inserted into the pipe line of the base, and the elastic film part 53 of the connection state adjustment part 54 is connected to the base. Adhere closely to the inner peripheral surface. That is, the pipe connector 4C and the desired base can be connected. As a result, as described above, a washing liquid sufficient for washing can be sent to each pipe line.

  The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the invention.

1 to 9 relate to an embodiment of an endoscope conduit cleaning apparatus, and FIG. 1 is a diagram illustrating the configuration of the endoscope conduit cleaning apparatus. Exploded perspective view for explaining the configuration of the connector for pipes Sectional drawing explaining connector for pipes The figure explaining the connector for pipes in the state where the front-end communication hole expanded The figure explaining the structural example of the pipe line of an endoscope The figure which shows the state which has aligned the connector for pipe lines with the suction cap The figure explaining the state which connected the connector for pipelines to the suction cap The figure explaining the state which connected the connector for pipelines to the air supply mouthpiece It is a figure explaining the effect | action of an endoscope pipe line washing | cleaning apparatus, Comprising: The figure explaining the washing | cleaning state in the pipe line of an aspiration pipe line, an air supply pipe line, and a water supply pipe line 10 to 13 relate to another configuration example of the pipe connector, and FIG. 10 illustrates another configuration example of the pipe connector. AA line sectional view of FIG. The figure explaining the state which connected the connector for pipelines to the water supply cap The figure explaining the state which connected the connector for pipelines to the suction cap FIGS. 14 to 16 relate to another configuration example of the pipe connector, and FIG. 14 is a longitudinal sectional view illustrating a configuration example of the pipe connector having a valve portion. FIG. 3 is a diagram for explaining a state in which the pipe connector is connected to the air supply base. FIG. 3 is a diagram for explaining a state in which the pipe connector is connected to the suction cap. 17 to 20 relate to another configuration example of the pipe connector, and FIG. 17 is a diagram illustrating another configuration example of the pipe connector. Sectional drawing explaining the structure of the connector for pipelines The figure explaining the state which set the connection state adjustment part of the connector for pipe lines to the small diameter, and has arrange | positioned in the pipe line of a nozzle | cap | die The figure explaining the state which the connection state adjustment part of the connector for pipe lines expanded, and the elastic film part contact | adhered to the inner surface of the pipe line The figure explaining the example of 1 structure of the conventional pipe washing apparatus FIG. 6 is a diagram for explaining a cleaning state in which a cleaning liquid is sent from the base side toward the opening of the tip using a syringe.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Endoscope pipe washing apparatus 2 ... Suction apparatus 4 ... Pipe line connector 5 ... Base body 5a ... Through-hole 6 ... Holding member 6a ... Holding part 6b ... Expanding part 7 ... Energizing member 8 ... 1st cylinder Body 8a ... Internal space 8b ... Base connection part 8c ... Connection part
8d ... tip communication hole 8i ... inner hole 9 ... second cylinder

Claims (12)

A suction device comprising a suction port;
A first connecting portion that communicates directly or indirectly with the suction port, and a plurality of passages arranged in the insertion portion of the endoscope, each having a shape for each duct. An endoscope conduit cleaning connector having a second connecting portion having a connection state adjusting portion connected to a different conduit cap;
An endoscope duct cleaning apparatus comprising: The connection state adjustment unit is
A base body constituting the first connecting portion;
An urging portion fixed to the base body;
A holding member fixed to the urging portion and moved by the urging force of the urging portion;
A first cylindrical body made of an elastic member, having a base connection part configured with a communication hole whose diameter changes with the movement of the holding member;
A second cylinder composed of an elastic member fixed to the base end of the first cylinder and the base end of the base body;
The endoscope conduit cleaning apparatus according to claim 1, comprising:   3. The internal view according to claim 2, wherein the communication hole of the base connection part is a connection state adjustment part, and is a tapered hole whose diameter gradually decreases from the outside toward the inside. Mirror tube cleaning device.   3. The base connection part according to claim 2, wherein a base part of the base connection part is provided with a connecting part that is elongated and has a base end part disposed in a through hole of the base body. Endoscope washing device. The connection state adjustment part is a main body part formed of an elastic member having a recess in which the first connection part is disposed,
2. The endoscope channel cleaning apparatus according to claim 1, wherein the main body portion has a slit portion that is openable and closable and communicates the concave portion with the outside. 3. The connection state adjustment unit is
One end portion is fixed to the base body constituting the first connecting portion, and a mesh-like tube portion configured to be stretchable in a net-like manner with a fine wire made of resin or metal,
An elastic membrane portion covering the mesh tube portion;
The endoscope conduit cleaning apparatus according to claim 1, comprising: A first connecting portion that communicates directly or indirectly with the suction port of the suction device;
A second connecting portion disposed in a pipe base having a different shape for each pipe line, which communicates with the opening of each pipe line that is inserted and arranged in the insertion section;
A connection state adjusting portion for bringing the second connection portion into a connected state with respect to the pipe base to be disposed;
An endoscope conduit cleaning connector comprising: The connection state adjustment unit is
A base body constituting the first connecting portion;
An urging portion fixed to the base body;
A holding member fixed to the urging portion and moved by the urging force of the urging portion;
A first cylindrical body made of an elastic member, having a base connection part configured with a communication hole whose diameter changes with the movement of the holding member;
A second cylinder composed of an elastic member fixed to the base end of the first cylinder and the base end of the base body;
The endoscope conduit cleaning connector according to claim 7, further comprising:   9. The internal view according to claim 8, wherein the communication hole of the base connection part is a connection state adjustment part, and is a tapered hole whose diameter gradually decreases from the outside toward the inside. Connector for cleaning a mirror line.   9. The base connection part according to claim 8, wherein the base connection part is provided with an elongated connecting part in which the base end part is disposed in the through hole of the base body on the base end side of the base connection part. Endoscope conduit cleaning connector. The connection state adjustment part is a main body part formed of an elastic member having a recess in which the first connection part is disposed,
8. The endoscope conduit cleaning connector according to claim 7, wherein the main body portion has a slit portion that is openable and closable and communicates the concave portion with the outside. The connection state adjustment unit is
One end portion is fixed to the base body constituting the first connecting portion, and a mesh-like tube portion configured to be stretchable in a net-like manner with a fine wire made of resin or metal,
An elastic membrane portion covering the mesh tube portion;
The endoscope conduit cleaning connector according to claim 7, further comprising:

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