JP3373168B2 - connector - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example, a treatment tool for an endoscope which is mounted on an insertion opening of a treatment tool insertion channel in an endoscope, and which is inserted into the treatment tool insertion channel. The present invention relates to a connector for inserting an insertion object in a sealed state. 2. Description of the Related Art In general, a connector for inserting an insertion tool such as a treatment tool for an endoscope into an insertion port of a treatment tool insertion channel in an endoscope in a sealed state through the treatment tool insertion channel. Is installed. As this type of connector, for example, JP-A-6-125869 and JP-A-6-304130 have a valve element for opening and closing an insertion passage through which a treatment tool and the like are inserted. There is shown a configuration in which the insertion passage is moved in a closing direction by various operation means arranged outside to prevent liquid leakage from a gap between the insertion object and the valve body. [0004] In the above-mentioned conventional structure, since the entire valve body of the connector is housed inside the connector, operation means outside the connector and treatment in the endoscope are performed. There is a problem that the open / closed state of the insertion passage by the valve body of the connector cannot be distinguished at a glance simply by looking at the appearance of the insertion opening of the tool insertion channel. For this reason, the valve body is damaged when the insertion object is pulled out while the insertion passage of the valve element is closed, or the insertion object is inserted while the insertion path is closed. There is a problem that there is a possibility. The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a connector in which the open / close state of a valve element housed inside the connector can be easily determined at a glance from the appearance. is there. SUMMARY OF THE INVENTION The present invention provides a connector body having an insertion passage through which an insertion object is inserted, and a communication with the insertion passage.
Communication passage, and one end of the connector
A generally cylindrical shape formed by an elastic material connected to the body
Elastic in the direction to reduce the inner diameter of the valve body and the communication passage
An elastically deformable portion provided on the deformable valve body; and a substantially attached to the connector body for elastically deforming the elastically deformable portion in a direction to reduce an inner diameter of the communication passage.
A bottom cylindrical operating body, and the operation housing the entire valve body.
A valve housing formed inside the crop, and a bottom of the operating body
A circular hole having a diameter smaller than that of the valve body accommodation portion formed in the portion;
Outside diameter is set smaller than the inside diameter of the circular hole.
Before being inserted into the circular hole with the loose fit inserted.
A cylindrical protrusion provided on the other end side of the valve body,
When the insertion object is not inserted into the insertion passage, the communication
A slide provided on the protrusion to keep the road closed
And an elastically deformable portion of the valve body.
When not formed, the communication path is held open.
Together with the protruding portion housed inside the circular hole
And the elastic deformation of the elastic deformation portion by the operating body.
In the shape, the protruding portion protrudes outward from the end face of the circular hole
And displaying the elastic deformation state of the elastic deformation portion . When the elastically deformable portion of the valve body is not elastically deformed, the valve body is held in a state in which the projecting portion of the valve body is housed inside the connector, and the elastically deformable portion of the valve body is elastically deformed by operating the operating body. Sometimes,
The projecting portion of the valve body projects outside the connector to indicate the elastic deformation state of the valve body. A first embodiment of the present invention will be described below with reference to FIGS. 1A and 1B and FIG.
FIGS. 1A and 1B show a schematic configuration of a case where the connector of the present invention is applied to, for example, a forceps insertion adapter 1 with a cock attached to an insertion opening of a treatment instrument insertion channel in an endoscope. . The forceps insertion adapter 1 with a cock according to the present embodiment is provided with a substantially cylindrical adapter body (connector body) 2. An insertion passage 6 through which an insertion object such as an endoscope treatment tool (not shown) is inserted is formed in the axial center portion of the adapter body 2. A large-diameter portion 2a having the largest diameter is formed on the outer peripheral surface of the adapter body 2 at a substantially central portion of the adapter body 2 in the axial direction. FIG. 1 shows the large diameter portion 2a.
As shown in (B), a side hole 7 extending in a direction perpendicular to the insertion passage 6 is formed. A cock portion 5 described later protrudes from the side hole 7. Further, a substantially ring-shaped flange 8 is provided at one end of the adapter body 2, and a luer taper 9 which can be attached to a luer taper base (not shown) of the endoscope is provided at the other end. ing. On the outer peripheral surface of the adapter body 2, an operating body mounting portion 2b having a diameter smaller than the large diameter portion 2a and larger than the flange portion 8 is formed between the large diameter portion 2a and the flange portion 8. ing. A ring-shaped operating body guide portion 2c having an appropriate width smaller than the operating body mounting portion 2b and larger than the flange portion 8 is formed at the end of the operating body mounting portion 2b on the flange portion 8 side. ing. Further, the operation body mounting portion 2b has a male screw portion 1 at the end on the operation body guide portion 2c side.
0 is formed. A fixed knob mounting portion 2d having a smaller diameter than the large diameter portion 2a and a larger diameter than the luer taper portion 9 is formed between the large diameter portion 2a and the luer taper portion 9 on the outer peripheral surface of the adapter body 2. ing. A flange 2e having a diameter larger than that of the fixed knob attaching portion 2d protrudes from an end of the fixed knob attaching portion 2d on the luer taper portion 9 side. Further, a male screw portion 11 is formed on the flange portion 2e. An operating body 3 having a substantially cylindrical shape with a bottom is screwed to the male screw portion 10 on the flange portion 8 side of the adapter body 2. Inside the operation body 3, a valve body accommodating portion 18 having substantially the same diameter as the operation body guide portion 2c of the adapter body 2 is formed. Further, a circular hole 23 having a diameter smaller than that of the valve body accommodating portion 18 is formed at the bottom of the operation body 3 at the axis thereof. The valve body pressing portion 22 is formed by a step between the peripheral portion of the circular hole 23 at the bottom of the operation body 3 and the valve body housing portion 18. A large-diameter hole portion 3b having substantially the same diameter as the operation body mounting portion 2b of the adapter body 2 is provided on the opening end side of the operation body 3.
Are formed. Further, a female screw portion 20 to be screwed into the male screw portion 10 of the adapter body 2 is formed at the tip of the large diameter hole 3b. The operating body 3 is rotatably attached to the adapter body 2 in a state where the female screw portion 20 of the operating body 3 is screwed into the male screw portion 10 of the adapter body 2. The operating body 3 is driven by the screwing operation of the operating body 3, that is, the screwing operation in the screwing direction and the screwing operation in the rotating direction opposite to the screwing direction in FIG. 1.
The valve body can be moved in the central axis direction between a valve body set release position shown in (A) and a valve body set position shown in FIG. A substantially cylindrical valve body 13 having a communication passage 12 communicating with the insertion passage 6 of the adapter body 2 is housed in a valve body housing portion 18 of the operation body 3. This valve 13
Is formed of an elastic material such as silicon rubber.
Here, the outer diameter dimension of the valve body 13 is the valve body accommodating portion 1 of the operation body 3.
8, the valve body 13 is accommodated in the valve body accommodating portion 18 of the operating body 3 in a loose fit state. A groove 14 is formed on the inner peripheral surface of one end of the valve body 13 so as to engage with the flange 8 of the adapter body 2. The valve body 13 is detachably connected to the adapter body 2 in a state where the groove 14 on one end side is detachably engaged with the flange 8 of the adapter body 2. Further, a cylindrical projection (projection) 16 having a smaller diameter than the other portions is provided at the other end of the valve 13. The outer diameter of the convex portion 16 is set to be smaller than the inner diameter of the circular hole 23 at the bottom of the operating body 3. Then, as shown in FIG. 1A, the convex portion 16 of the valve body 13 is held in the circular hole 23 of the operating body 3 with a loose fit inserted therein,
And a stepped portion 2 between the convex portion 16 of the valve body 13 and another portion.
Numeral 1 is held in a state of being in contact with the valve body pressing portion 22 of the operating body 3. A substantially hemispherical concave curved surface 15 is formed on the outer end surface of the convex portion 16 of the valve body 13. This concave surface 15
Is provided with a slit 17 through which an insertion object such as an endoscope treatment tool (not shown) is inserted. On the outer peripheral surface of the valve body 13, a convex portion 19 having a diameter larger than the inner diameter of the valve body accommodating portion 18 of the operation body 3 is provided near the groove 14. And this valve element 1
The operation body 3 is prevented from being inadvertently rotated by the press-contact portion between the projection 19 of the operation body 3 and the inner peripheral surface of the valve body accommodating portion 18 of the operation body 3. Further, the communication passage 12 is provided on the inner peripheral surface of the valve body 13.
A small-diameter, substantially ring-shaped passage opening / closing portion (elastic deformation portion) 13a protruding inward is provided. And the operation body 3
1A is held at the valve element set release position shown in FIG. 1A, the passage opening / closing portion 13a of the valve element 13 is held without being elastically deformed. In this state, the communication path 12 of the valve body 13 is held in an open state, and the projection 16 of the valve body 13 is held in a state of being housed inside the circular hole 23 of the operation body 3. When the operating body 3 is screwed to the valve body setting position shown in FIG. 2, the step portion 21 of the valve body 13 is pressed by the valve body pressing portion 22 of the operating body 3 and the passage of the valve body 13 The opening / closing portion 13a is elastically deformed in a direction to reduce the inner diameter of the communication path 12. Further, when the valve 13 is elastically deformed by the operation body 3, the convex portion 16 of the valve 13 protrudes outside the circular hole 23 of the operation body 3 to display the elastic deformation state of the valve 13. I have. A substantially cylindrical fixing knob 4 is screwed to the male screw portion 11 on the luer taper portion 9 side of the adapter body 2. Here, a screw hole for screwing with the male screw 11 of the adapter body 2 is formed on the inner peripheral surface of the fixing knob 4. The fixed knob 4 is provided with a stopper ring 24 at one end and a cutout 25 at the other end. The outer peripheral surfaces of the operation body 3 and the fixed knob 4 are knurled. The cock portion 5 has a frame 27 made of a metal material such as stainless steel or a hard plastic.
And a cock female part 28 formed of a resin material such as PTFE into a substantially cylindrical shape, and a cock male part 29 formed of a metal material such as stainless steel. Here, the cock knife portion 28 is fitted and bonded to the frame 27. The frame 27 is provided with a base 31 having a passage 30 to which a syringe, a liquid feed tube or the like (not shown) can be connected. A communication passage 32 communicating with the insertion passage 6 of the adapter body 2 is provided at the axial center of the cock knife portion 28. Further, a circular hole 28 extending in a direction orthogonal to the communication passage 32 is formed in the cylindrical wall surface of the cock knife portion 28.
a is formed. The circular hole 28 of this cock female part 28
A cock male part 29 is inserted into a and is rotatably connected thereto. The cock male portion 29 has a communication passage 32 at a position corresponding to the communication passage 32 of the cock female portion 28.
A passage 33 having the same diameter as that of the passage 33 is provided. Further, a stopper 34 protrudes from the outer peripheral surface of the cock male portion 29. Then, the cock male part 29 is connected to the cock female part 28.
When the cock male part 29 is fitted into the circular hole 28a of the cock female part 28 until the stopper part 34 of the cock male part 29 comes into contact with the peripheral part of the circular hole 28a of the cock female part 28 And cock male part 2
9 has a length protruding from the circular hole 28a of the cock knife portion 28. Here, the distal end portion 35 of the cock male portion 29 is formed in a gently tapered shape. The cock 5 is fitted and bonded to the side hole 7 of the adapter body 2. Here, the adapter main body 2 is provided with an air vent hole 26 communicating with the side hole 7 as shown in FIG. Therefore, when the cock portion 5 is fitted and bonded to the side hole 7 of the adapter body 2, the cock portion 5
The air in the side hole 7 is expelled from the air vent hole 26 of the adapter body 2 in accordance with the operation of inserting the adhesive into the side hole 7 of the adapter body 2, so that the adhesive can be completely filled. The inner diameter of the circular hole 28a of the cock female part 28 and the cock female part 28 of the cock male part 29
The relationship between the outer diameter of the portion to be fitted to the circular hole 28a and the outer diameter of the portion is such that it is detachable in a temperature state at the time of use, but is tight enough to keep watertight. In addition, a shaft-shaped tool (not shown) having an outer diameter dimension that fits tightly with respect to the inner diameter dimension of the circular hole 28a of the cock female part 28 is provided, and the shaft part of this tool is inserted into the circular hole 28a of the cock female part 28. By rotating and polishing the axial tool in a press-fitted state, the inner peripheral surface of the circular hole 28a of the cock knife portion 28 is finished. Thereby, the inner diameter of the circular hole 28a of the cock female portion 28 necessary for ensuring watertightness between the circular hole 28a of the cock female portion 28 and the cock male portion 29 and the surface accuracy of the inner peripheral surface of the circular hole 28a are ensured. are doing. When such a cock portion configuration is adopted,
When the cock portion 5 is cooled, the outer diameter of the cock male portion 29 is reduced due to contraction due to thermal deformation. At this time,
Since the outer periphery of the cock knife portion 28 is restrained by fitting and bonding to the frame 27, the inner diameter of the circular hole 28a of the cock knife portion 28 increases due to contraction of the cock knife portion 28 due to thermal deformation. Here, since the cock knife portion 28 is made of a resin material such as PTFE having a high thermal deformation rate, the amount of increase in the inner diameter of the circular hole 28a of the cock knife portion 28 is further increased. Therefore, cock male part 2 at the time of washing etc.
When the cock 9 is pulled out, the cock portion 5 is cooled to loosen the fitting state between the cock male portion 29 and the circular hole 28a of the cock female portion 28, so that the cock male portion 29 can be easily pulled out, and disassembly and cleaning become easy. . Next, the operation of the above configuration will be described.
The forceps insertion adapter 1 with a cock according to the present embodiment is used in a state where the luer taper portion 9 of the adapter body 2 is attached to a luer taper base (not shown) of the endoscope. When the forceps insertion adapter 1 with a cock according to the present embodiment is used, the operating body 3 is usually in the state shown in FIG.
Is held at the valve element set release position shown in FIG. In this state, since the passage opening / closing portion 13a of the valve body 13 is held in a state where it is not elastically deformed, the communication passage 12 of the valve body 13 is held in an open state, and the projection 16 of the valve body 13 is operated. Body 3
Are held in a state of being accommodated in the circular hole 23 of the above. Normally, when the forceps are not inserted into the insertion passage 6 of the adapter body 2, the communication passage 12 of the valve 13 is closed by the slit 17 of the projection 16 of the valve 13. Will be retained. Therefore, in a state where the forceps are not inserted into the insertion passage 6 of the adapter main body 2 and the perfusion liquid is perfused into the treatment tool insertion channel of the endoscope while observing with the endoscope, the treatment instrument is inserted. The perfusate in the channel does not leak out. When the surgeon inserts forceps into the insertion passage 6 of the adapter body 2 through the slit hole 17 of the valve body 13,
When the forceps are thin, or when the communication path 12 of the valve 13 has deteriorated due to friction with the forceps, the operating body 3 is screwed. At this time, the operating body 3 is moved by the screwing operation of the operating body 3 as shown in FIG.
(A), when it moves to the right, the pressing portion 2 of the operating body 3
2 presses the step 21 of the valve 13. Then, the valve element 1
1 (A) from the step portion 21 of FIG. 3 is compressed in the axial direction of the valve body 13 and the outer peripheral surface of the valve body 13 is restrained by the operating body 3. The inner peripheral surface of the passage opening / closing portion 13a in the communication passage 12 of the body 13 is elastically deformed in a direction to reduce. Therefore, the inner peripheral surface of the passage opening / closing portion 13a is pressed against the forceps, so that the seal between the forceps and the passage opening / closing portion 13a of the valve 13 is reliably performed. Further, at this time, the convex portion 16 located on the left side of the step portion 21 of the valve body 13 in FIG.
2, the valve 13 protrudes outward from the end face of the circular hole 23 of the operating body 3 as shown in FIG.
Is displayed. Therefore, the above configuration has the following effects. That is, in the forceps insertion adapter 1 with a cock according to the present embodiment, the operation body 3 of the adapter body 2 is held at the valve body set release position shown in FIG.
In the state where the passage opening / closing portion 13a of No. 3 is not elastically deformed,
The convex portion 16 of the valve body 13 is held in a state of being housed inside the circular hole 23 of the operation body 3. When the operating body 3 is screwed in the direction of the valve body setting position shown in FIG. 2, the inner peripheral surface of the passage opening / closing portion 13a in the communication passage 12 of the valve body 13 is elastically deformed in a direction to be reduced, and this valve is As shown in FIG. 2, the convex portion 16 of the body 13 projects outward from the end face of the circular hole 23 of the operation body 3 to display the elastic deformation state of the valve body 13. Therefore, by visually observing the protruding state of the valve body 13 protruding outward from the end surface of the circular hole 23 of the operating body 3, the open / closed state of the valve body 13 housed inside the operating body 3 is viewed in an invisible manner. At a glance, it can be easily distinguished from the appearance of the insertion opening of the treatment instrument insertion channel in the mirror. As a result, as in the related art, since the insertion opening of the valve body is not closed and the damage to the valve body is not accelerated by trying to pull out the inserted object,
The life of the valve body 13 is extended, and it is economical. Further, since there is no need to insert the inserted object while the insertion opening is closed, damage to the inserted object, buckling, etc., and damage to the valve body 13 due to excessive insertion of the inserted object can be prevented. it can. Further, the present invention is not limited to the above-described embodiment, and it goes without saying that various modifications can be made without departing from the spirit of the present invention. Next, other characteristic technical matters of the present application will be additionally described as follows. (Additional Item 1) A valve body made of a main body having an insertion passage, an elastic member having an insertion passage extending in the longitudinal direction of the insertion passage and having an opening, and an operation body capable of reducing the insertion passage inner diameter of the valve body. In a connector having a valve body, in a state where the inner diameter of the insertion passage of the valve body is not reduced, the entire valve body is inside the connector, and in a state where the inner diameter of the insertion passage of the valve body is reduced,
A connector characterized in that the valve body is arranged such that at least a part of the valve body projects outside the connector. (Additional Item 2) In the connector according to Additional Item 1, the valve body has a convex portion at one end, and the valve body is provided at an end of an insertion passage of the main body, and the operating body is provided at one end. A cylindrical portion having a pressing portion capable of pressing the valve body, and having an opening in the center of the pressing portion capable of fitting with the convex portion of the valve body, wherein the inner diameter of the insertion passage of the valve body is reduced. Without it,
In the state where the end surface of the convex portion and the opening portion are the same surface and the inner diameter of the insertion passage of the valve body is reduced, the valve body is arranged so that the convex portion protrudes from the end surface of the opening portion. Connector. (Additional Item 3) In the connector according to additional items 1 and 2, the operating body has a pressing portion capable of pressing the valve body at one end, and the operating body connects the valve body to a shaft of the valve body. A connector provided so as to be able to be pressed in a direction. (Additional Item 4) In the connector according to Additional Items 1, 2 and 3, the operating body is rotatably screwed to a base end of the main body, and the operating body is operated to rotate. A connector characterized in that the inner diameter of the insertion passage of the valve body is variable. (Prior Art of Supplementary Items 1 to 4) The prior art is disclosed in Japanese Utility Model Publication No. 57-53523 and Japanese Patent Application Laid-Open No. H6-1258.
No. 69 and Japanese Patent Application Laid-Open No. 6-304130. (Problems to be Solved by Additional Items 1 to 4)
JP-A-57-53523, JP-A-6-1258
Japanese Patent Application Laid-Open No. 69-304130 and Japanese Patent Application Laid-Open No. Hei 6-304130 all disclose a method of reducing the inner diameter of an insertion passage of a valve body having an insertion passage through which a treatment tool or the like is inserted by various means, and leaking liquid from a gap between the inserted object and the valve body. Although the open / closed state of the insertion passage inner diameter cannot be discerned at a glance from the external appearance, the valve body is accelerated when trying to pull out the inserted object with the insertion passage closed,
There is a problem that the valve body and the insert are damaged when trying to insert the insert while the insertion passage is closed. (Purpose of Supplementary Items 1 to 4) Provided is a connector capable of determining the open / closed state of the inner diameter of the insertion passage of the valve at a glance from the appearance. (Means for Solving the Problems of Additional Items 1 to 4) A main body having an insertion passage, a valve body including an elastic member having an insertion passage extending in the longitudinal direction of the insertion passage and opening, and the valve In a connector having an operating body capable of reducing the insertion passage inner diameter of the body, in a state where the insertion passage inner diameter of the valve body is not reduced, the entire valve body is inside the connector,
The connector is characterized in that the valve element is arranged such that at least a part of the valve element projects outside the connector when the inner diameter of the insertion passage of the valve element is reduced. Then, when the operating body is operated to reduce the inside diameter of the insertion passage of the valve body, at least a part of the valve body projects outside the connector. (Effects of Additional Items 1 to 4) According to the configuration described in Additional Item 1, at least a part of the valve body projects outside the connector when the inner diameter of the insertion passage of the valve body is reduced. Therefore, the operator can determine the open / closed state of the inner diameter of the valve body at a glance from the external appearance, and it is not necessary to accelerate the damage of the valve body by trying to pull out the inserted object while the insertion port is in the closed state. Long life and economical. In addition, since it is not necessary to insert the insertion object while the insertion opening is closed, damage to the insertion object due to excessive insertion of the insertion object,
There is no buckling. According to the present invention, when the elastically deformable portion of the valve body is not elastically deformed, it is accommodated inside the connector, and when the elastically deformable portion of the valve body is elastically deformed by the operating body, the connector is not deformed. The valve body has a protruding part that protrudes outside to indicate the elastic deformation state of the elastic deformation part of the valve body, so the open / closed state of the valve housed inside the connector can be easily identified at a glance from the appearance it can. Therefore, it is not necessary to accelerate the damage of the valve body by trying to pull out the inserted object with the insertion port closed, and the life of the valve element is extended, economical, and the insertion object is used with the insertion port closed. Therefore, there is an effect that damage to the inserted object, buckling, and the like due to excessive insertion of the inserted object are eliminated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a first embodiment of the present invention.
(A) is a side view showing a part of the connector in cross section,
(B) is a sectional view taken along line BB of (A). FIG. 2 shows the state of elastic deformation of the elastically deformable portion of the valve element when the elastically deformable portion of the valve element of the connector according to the first embodiment projects the elastically deformable portion of the valve element when the elastically deformable portion of the valve element projects out of the connector. The longitudinal section of the important section showing a state. [Description of Signs] 2 Adapter body (connector body) 3 Operation body 6 Insertion passage 13 Valve 13a Passage opening / closing part (elastic deformation part) 16 Convex part (projection part)

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-5-293111 (JP, A) JP-A-6-304130 (JP, A) JP-A-6-125869 (JP, A) JP-A-5-125869 49597 (JP, A) Japanese Utility Model 63-151101 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) A61B 1/00-1/32

Claims (1)

(57) [Claim 1] A connector body having an insertion passage through which an insertion object is inserted, and a communication passage communicating with the insertion passage, and one end of the connector main body has
Formed by an elastic material connected to the connector body
A substantially cylindrical valve body that is, elastically deformable in a direction to reduce the inner diameter of the communication passage
And Do the valve body elastically deformable portion provided on said elastically deformable in a direction to reduce the inner diameter of the communication passage
Attached to the connector body to elastically deform the part
A substantially bottomed cylindrical operation member has, formed inside the operating body for accommodating the entirety of the valve body
And a valve body receiving portion formed at the bottom of the operating body.
The diameter of the circular hole is set to be smaller than the inner diameter of the circular hole.
Before being inserted into the circular hole with the loose fit inserted.
A cylindrical protrusion provided on the other end side of the valve storage element, and in a state where the insertion object is not inserted into the insertion passage,
Provided on the projection to maintain the communication passage closed
And the elastically deformable portion of the valve body is not elastically deformed.
In this state, the communication path is held open and the
The projection is held in a state of being housed inside the circular hole,
When the elastic deformation portion is elastically deformed by the operating body,
The protrusion protrudes outward from the end face of the circular hole and
A connector for displaying an elastic deformation state of a deformation portion .