JP2013220253A - Air/water sending nozzle of endoscope - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an easily exchangeable air sending/water sending nozzle of an endoscope having stable jet properties.SOLUTION: An air sending/water sending nozzle 130 of an endoscope includes a nozzle body 131 formed of a hard member having a fluid jet orifice 131a, and a nozzle support member 133 formed of a soft member for supporting the nozzle body 131. The nozzle body 131 is joined to an air sending/water sending opening 123c and an air sending/water sending through-hole 121c through the nozzle support member 133 so as to ensure water tightness.

Description

  The present invention relates to an air / water supply nozzle of an endoscope that ejects fluid.

  The insertion portion of the endoscope has an observation window and an air / water supply nozzle (hereinafter referred to as a nozzle) disposed at the distal end portion of the insertion portion. The nozzle ejects fluid to the observation window in order to clean the observation window.

In order to prevent fluid such as body fluid from entering the inside of the insertion portion from the outside of the insertion portion on the tip end side of the nozzle, it is required that water tightness is ensured.
Further, in order to prevent the cleaning fluid from unintentionally flowing from the inside of the insertion portion to the outside of the insertion portion on the base end side of the nozzle, it is required that water tightness be secured.
In addition, the nozzle is required to be easily replaceable for repair.

  Such a nozzle is disclosed in Patent Document 1, for example. The nozzle disclosed in Patent Document 1 is easy to perform maintenance such as cleaning, repair, and replacement, and is formed of an elastic body such as rubber.

JP-A-9-75297

  In Patent Document 1, since the nozzle is an elastic body, the ejection position of the nozzle is not stable, and the ejection position changes with the aging of the elastic body, and there is a possibility that stable ejection performance cannot be obtained.

  The present invention has been made in view of these circumstances, and an object of the present invention is to provide an air / water supply nozzle for an endoscope that has stable ejection performance and can be easily replaced.

  In order to achieve the object, the present invention is an air supply / water supply nozzle of an endoscope that is fitted into a distal end portion of an insertion portion of an endoscope and ejects a fluid to an observation window disposed at the distal end portion. A nozzle body formed by a hard member having a jet port for ejecting fluid to the observation window, and a nozzle support member formed by a soft member that supports the nozzle body. The section provides an air supply / water supply nozzle for an endoscope, which is closely fixed to the distal end portion via the nozzle support member so as to ensure water tightness.

  According to the present invention, it is possible to provide an air / water supply nozzle for an endoscope that has stable ejection performance and can be easily replaced.

FIG. 1 is a schematic configuration diagram of an endoscope according to a first embodiment of the present invention. FIG. 2A is a front view of the distal end hard portion. 2B is a cross-sectional view taken along line 2B-2B shown in FIG. 2A. FIG. 2C is a diagram illustrating the sizes of the nozzle body, the nozzle support member, the air / water supply opening, and the air / water feed through hole. FIG. 2D is a diagram illustrating assembly of the air / water supply nozzle. FIG. 2E is a diagram illustrating assembly of the air / water supply nozzle. FIG. 2F is a diagram illustrating water tightness on the tip side of the air / water supply nozzle. FIG. 2G is a diagram illustrating water tightness on the base end side of the air / water supply nozzle. FIG. 3 is a diagram illustrating an air / water supply nozzle in the first modification. FIG. 4A is a diagram illustrating assembly of an air / water supply nozzle according to a second modification. FIG. 4B is a diagram illustrating assembly of the air / water supply nozzle in the second modification. FIG. 4C is a diagram illustrating assembly of the air / water supply nozzle in the second modification. FIG. 5A is a diagram illustrating assembly of the air / water supply nozzle in the third modification. FIG. 5B is a diagram illustrating assembly of the air / water supply nozzle in the third modification. FIG. 5C is a diagram illustrating assembly of the air / water supply nozzle in the third modification.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[First Embodiment]
[Constitution]
The first embodiment will be described with reference to FIGS. 1, 2A, 2B, 2C, 2D, 2E, 2F, and 2G. Note that in some drawings, illustration of some members is omitted for clarity of illustration.

[Endoscope 10]
As shown in FIG. 1, the endoscope 10 includes an elongated insertion portion 20 that is inserted into a body cavity of a patient, and an operation portion 30 that is connected to the proximal end portion of the insertion portion 20 and operates the endoscope 10. Have.

[Insertion section 20]
The insertion portion 20 has a distal end hard portion 21, a bending portion 23, and a flexible tube portion 25 from the distal end side of the insertion portion 20 toward the proximal end portion side of the insertion portion 20. The proximal end portion of the distal rigid portion 21 is connected to the distal end portion of the bending portion 23, and the proximal end portion of the bending portion 23 is connected to the distal end portion of the flexible tube portion 25.
The distal end hard portion 21 is the distal end portion of the insertion portion 20 and is hard and does not bend. The detailed configuration of the distal end hard portion 21 will be described later.
The bending portion 23 is bent in a desired direction, for example, up, down, left, and right, by an operation of a bending operation unit 37 described later. When the bending portion 23 is bent, the position and orientation of the distal end hard portion 21 change, illumination light (not shown) is illuminated on the observation object, and the observation object is captured in the observation field of view.
The flexible tube portion 25 has desired flexibility. Therefore, the flexible tube portion 25 is bent by an external force. The flexible tube portion 25 is a tubular member that extends from a main body portion 31 described later in the operation portion 30.

[Operation unit 30]
The operation unit 30 is connected to a main body part 31 from which the flexible tube part 25 extends, a gripping part 33 that is connected to a proximal end part of the main body part 31, and is gripped by an operator who operates the endoscope 10. And a universal cord 41 connected to the portion 33.

[Main unit 31]
The main body 31 has a treatment instrument insertion port 35a. The treatment instrument insertion port 35a communicates with a proximal end portion of a treatment instrument insertion channel (not shown). The treatment instrument insertion channel is disposed inside the insertion portion 20 and is disposed from the flexible tube portion 25 to the distal end hard portion 21. The distal end portion of the treatment instrument insertion channel communicates with a distal end opening portion 35b (see FIG. 2A) disposed in the distal end rigid portion 21. The treatment tool insertion port 35a is an insertion port for inserting an endoscope treatment tool (not shown) into the treatment tool insertion channel. An endoscope treatment instrument (not shown) is inserted into the treatment instrument insertion channel from the treatment instrument insertion port 35a and pushed into the distal end rigid portion 21 side. And the treatment tool for endoscope protrudes from the front-end | tip opening part 35b.

[Grip part 33]
The gripping part 33 has a bending operation part 37 that performs a bending operation on the bending part 23, and a switch part 39.

[Bending operation unit 37]
The bending operation section 37 includes a left / right bending operation knob 37a for bending the bending section 23 left and right, a vertical bending operation knob 37b for bending the bending section 23 up and down, and a fixed knob for fixing the position of the curved bending section 23. 37c.

[Switch section 39]
The switch unit 39 includes a suction switch 39a, an air / water supply switch 39b, and various switches 39c for endoscopic photography. The suction switch 39a, the air / water supply switch 39b, and the various switches 39c are operated by the operator's hand when the grip portion 33 is gripped by the operator.
The suction switch 39a is operated when the endoscope 10 sucks mucus, fluid, or the like from the distal end opening 35b that also serves as the suction opening through the treatment instrument insertion channel that also serves as the suction channel.
The air supply / water supply switch 39b supplies fluid from an air supply channel (not shown) and an air supply / water supply channel 140 (see FIG. 2B) in order to secure an observation field of view of the imaging unit 21b in the distal end hard portion 21 shown in FIG. 2A. The operation is performed when air is supplied and when a fluid is supplied from a water supply channel (not shown) and the air / water supply channel 140. The proximal end of the air / water supply channel 140 is divided into two forks, and one is connected to communicate with the air supply channel, and the other is connected to communicate with the water supply channel. The fluid includes water and gas.
The suction channel, the air supply channel, the water supply channel, and the air / water supply channel 140 are connected from the insertion portion 20 to the universal cord 41 through the main body portion 31 and the grip portion 33 inside the endoscope 10. It is arranged.

[Universal code 41]
The universal cord 41 has a connection connector (not shown) that connects to a control device (not shown), a display device (not shown), and a light source device (not shown).

[Detailed Configuration of the Hard Tip 21]
As shown in FIG. 2A, the distal end hard portion 21 includes a distal end opening 35b communicating with a treatment instrument insertion channel (not shown), a pair of illumination units 21a for emitting illumination light, and an imaging unit for imaging the inside of a body cavity. 21b and an air / water supply nozzle 130 for ejecting fluid.

The illumination unit 21a is connected to an illumination cable (not shown). The illumination cable is disposed inside the endoscope 10 and is disposed from the insertion unit 20 through the operation unit 30 to the connection connector. The lighting cable is connected to the control device when the connection connector is connected to the control device. Thereby, the illumination unit 21a emits illumination light.
As shown in FIG. 2A, the illumination unit 21 a is disposed so as to sandwich the imaging unit 21 b in the planar direction of the distal end hard portion 21. That is, the illumination unit 21a is disposed symmetrically about the imaging unit 21b.

  As shown in FIG. 2B, the imaging unit 21b is formed by, for example, a CCD having an observation window 21c. The observation window 21c is disposed at the tip of the imaging unit 21b. As shown in FIG. 2B, the imaging unit 21b is connected to the imaging cable 21d. The imaging cable 21d is disposed inside the endoscope 10, and is disposed from the insertion unit 20 to the connection connector via the operation unit 30. The imaging cable 21d is connected to the control device when the connection connector is connected to the control device. Thereby, the captured image captured by the imaging unit 21b is displayed on the display device.

  As shown in FIGS. 2A and 2B, such a hard tip 21 is formed of a main body 121 formed of a hard member such as metal and a soft member such as a resin of the main body 121. And a cover part 123 that covers the tip part.

[Configuration of Main Body 121]
As shown in FIG. 2B, the main body 121 is fitted with an imaging insertion hole 121b into which the imaging unit 21b is inserted, an air supply / water supply nozzle 130, and an air supply / water supply channel 140 so as to communicate with each other. -It has a water supply through-hole part 121c.
As shown in FIG. 2B, the imaging insertion hole 121 b and the air / water supply through-hole 121 c penetrate the main body 121 in the axial direction of the main body 121. The air / water feed through hole 121c is disposed adjacent to the imaging insertion hole 121b in the radial direction of the main body 121.

  In addition, although illustration is abbreviate | omitted, the main-body part 121 communicates with the front-end | tip opening part 35b, a treatment tool through-hole part connected so that it may communicate with a treatment tool penetration channel, and a pair of illumination by which the illumination unit 21a is inserted And an insertion hole. The treatment instrument through-hole portion and the illumination insertion hole portion penetrate the main body 121 in the axial direction of the main body 121.

[Cover part 123]
As shown in FIGS. 2A and 2B, the cover 123 includes the imaging insertion hole 121 b, the air / water supply channel 140, the distal end of the illumination insertion hole and the treatment instrument through-hole, and the distal end surface of the main body 121. The front-end | tip part of the main-body part 121 containing these is covered.

As shown in FIG. 2A, the cover portion 123 is disposed at a position corresponding to the treatment instrument through-hole portion. When the cover portion 123 covers the distal end portion of the main body portion 121, the cover portion 123 is disposed between the outside and the treatment instrument through-hole portion. It has the front-end | tip opening part 35b which communicates, and a pair of illumination window 123a arrange | positioned in the position corresponding to the illumination unit 21a (illumination insertion hole part).
The distal end opening 35b is disposed so that the endoscope treatment tool protrudes outward from a treatment tool insertion channel indicating the inside of the endoscope 10.
As shown in FIG. 2A, the illumination window 123a is disposed so as to sandwich the observation window 21c. That is, the illumination window 123a is disposed symmetrically around the observation window 21c. The illumination window 123a may have a lens.

As shown in FIGS. 2B and 2C, the cover portion 123 is disposed at a position corresponding to the air / water feed through hole portion 121c. And an air / water feed opening 123c communicating with the air / water feed through hole 121c.
As shown in FIG. 2B and FIG. 2C, the air / water supply opening 123c is disposed adjacent to the observation window 21c in the radial direction of the main body 121.
As shown in FIG. 2B, the cover portion 123 has an opening so that the observation window 21 c is disposed on the cover portion 123.

[Air / water nozzle 130]
As shown in FIG. 2B and FIG. 2C, the air / water supply nozzle 130 is connected to the air / water supply channel 140 so that the distal end hard portion 21, which is the distal end portion of the insertion portion 20, in detail, the distal end hard portion. 21 is fitted into the air / water feed opening 123c and the air / water feed through hole 121c. The air / water supply nozzle 130 ejects a fluid to the observation window 21 c disposed in the hard tip portion 21.

  As shown in FIGS. 2B and 2C, the air / water supply nozzle 130 includes a nozzle main body 131 formed by a hard member having an ejection port 131a for ejecting fluid, an air / water supply opening 123c, and an air supply. The nozzle body 131 is fitted into the water feed through hole 121c, and after being fitted, has a cylindrical nozzle support member 133 formed by a soft member that supports the nozzle body 131.

[Nozzle body 131]
As shown in FIG. 2B, the nozzle body 131 has a bent portion 131 b that is disposed at the tip of the nozzle body 131 and is bent in a direction perpendicular to the longitudinal axis of the nozzle body 131. Yes. The jet nozzle 131a is arranged on the substantially same straight line as the observation window 21c in the radial direction of the nozzle main body 131, and fluid flows straight from the jet nozzle 131a in the radial direction of the nozzle main body 131. It arrange | positions at the bending part 131b so that it may be ejected toward 21c. The nozzle body 131 is supported by the nozzle support member 133 so that the fluid is ejected linearly from the ejection port 131a toward the observation window 21c in the radial direction of the body 121. The nozzle body 131 is closely fixed to the air / water feed opening 123c and the air / water feed through hole 121c via the nozzle support member 133 so as to ensure water tightness.

  2B, 2C, 2D, and 2E, the nozzle body 131 is press-fitted into the nozzle support member 133 so that the nozzle body 131 communicates with the air / water supply channel 140. Thus, the nozzle body 131 is formed as a core member of the nozzle support member 133.

  The nozzle body 131 is formed of a hard member including, for example, metal or hard resin. As shown in FIG. 2C, the outer diameter of the nozzle body 131 is D1.

[Nozzle support member 133]
As described above, in the nozzle support member 133 fitted into the air / water supply opening 123c and the air / water supply through hole 121c, as shown in FIG. 2C, the outer diameter d2 of the nozzle support member 133 is -It is larger than the inner diameter d3 of the water supply opening 123c and the inner diameter d4 of the air / water supply through hole 121c. The inner diameter d3 is smaller than the inner diameter d4. Therefore, as shown in FIG. 2B, FIG. 2C, FIG. 2D, and FIG. 2E, the nozzle body 131 allows the nozzle support member 133 to be fitted into the air / water feed opening 123c and the air / water feed through hole 121c. It is formed of a soft member that can be freely deformed. Such a soft member has rubber | gum, soft resin, and an elastic body, for example.

  2D, after the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water feed through hole 121c, the main body 121 is provided so that the nozzle main body 131 is watertight. When the nozzle support member 133 is in close contact with the cover portion 123, the positions of the nozzle support member 133 in the radial direction and the axial direction are determined.

  As shown in FIG. 2C, the nozzle support member 133 has a recess 133 a that is recessed in the outer peripheral surface of the nozzle support member 133. The recess 133a has a ring shape, and is disposed over the entire outer periphery of the nozzle support member 133. As shown in FIG. 2D, the concave portion 133a is formed by the cover portion 123 in the air / water supply opening 123c when the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water supply through-hole 121c. It engages with the convex part 123e corresponding to the inner peripheral edge of. The recess 133a engages with the protrusion 123e to position the nozzle support member 133 in the longitudinal axis direction of the nozzle support member 133. The convex portion 123e is formed by forming the air / water supply opening 123c so that the inner diameter d3 is smaller than the inner diameter d4.

  2C, in the cylindrical nozzle support member 133 into which the nozzle body 131 is press-fitted, the inner diameter D5 of the nozzle support member 133 is smaller than the outer diameter D1 of the nozzle body 131 for press-fitting. Therefore, in the present embodiment, the nozzle support member 133 is, for example, a nozzle support so that the nozzle main body 131 pushes the nozzle support member 133 outward in the radial direction of the nozzle support member 133 and is press-fitted into the nozzle support member 133. The member 133 is formed of the above-described soft member that can expand and contract in the radial direction. In other words, the nozzle support member 133 is pressed to spread outward in the radial direction of the nozzle support member 133 when the nozzle body 131 is press-fitted into the nozzle support member 133.

  In this embodiment, as shown in FIG. 2D, after the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water feed through hole 121c, the nozzle body 131 is attached to the nozzle support member 133. Press fit. Therefore, as described above, the nozzle support member 133 is inserted into the air / water feed opening 123c and the air / water feed through hole 121c by the press-fitting of the nozzle body 131 as described above. It is pressed toward the outside. The nozzle support member 133 ensures water tightness by pressing, and the nozzle support member 133 is in close contact with the main body portion 121 and the cover portion 123 of the distal end hard portion 21 that is the distal end portion of the insertion portion 20. 133 is formed of a soft member.

  Further, as shown in FIG. 2E, the nozzle support member 133 is further brought into close contact with the main body 121 and the cover 123 by press-fitting the nozzle main body 131.

  As shown in FIG. 2E, when the nozzle body 131 is press-fitted into the nozzle support member 133, the nozzle body 131 is pressed into the nozzle support member 133 so that the nozzle body 131 has a radial direction and an axial direction. The position is determined. Further, when the nozzle body 131 is press-fitted into the nozzle support member 133, the position of the nozzle body 131 in the longitudinal axis direction is determined by the bent portion 131b coming into contact with the nozzle support member 133. The nozzle support member 133 supports the nozzle main body 131 so that the nozzle main body 131 communicates with the air / water supply channel 140.

  The nozzle support member 133 has substantially the same length as the nozzle main body 131. Further, the nozzle support member 133 is configured so that the air / water feed channel 140 can be fitted into the air / water feed through hole 121c when the nozzle support member 133 is fitted into the air / water feed through hole 121c. It has a shorter length than the air / water feed through hole 121c.

[Assembly method]
The nozzle support member 133 is deformable because it is formed of a soft member. Therefore, even if the nozzle support member 133 has an outer diameter d2 larger than the inner diameter d3 and the inner diameter d4, as shown in FIG. 2D, the nozzle support member 133 has an air / water feed opening 123c and an air / water feed through. It fits into the hole 121c. At this time, the nozzle support member 133 is in close contact with the main body 121 and the cover 123. Thereby, the nozzle support member 133 ensures watertightness. This water-tightness prevents fluid such as body fluid from entering the insertion portion 20 from the outside of the insertion portion 20 on the tip side of the air / water supply nozzle 130 as shown in FIG. 2F, as shown in FIG. 2G. Fig. 6 shows that the cleaning fluid is prevented from unintentionally flowing from the inside of the insertion portion 20 to the outside of the insertion portion 20 on the base end side of the nozzle.

As shown in FIG. 2D, the nozzle support member 133 is in close contact with the main body 121 and the cover 123.
As shown in FIG. 2D, when the nozzle support member 133 is fitted into the air / water feed opening 123c and the air / water feed through-hole 121c, the concave 133a engages with the convex 123e.

  As shown in FIG. 2D, in the nozzle support member 133 that is fitted into the air / water supply opening 123c and the air / water feed through hole 121c and is in close contact with the main body 121 and the cover 123, the nozzle main body The nozzle 131 is press-fitted into the nozzle support member 133 so that the nozzle 131 a is arranged on the same straight line as the observation window 21 c in the radial direction of the nozzle main body 131 and the nozzle main body 131 communicates with the air / water supply channel 140. Is done.

  Although the inner diameter D5 is smaller than the outer diameter D1, since the nozzle support member 133 is formed of a soft member, the nozzle body 131 can be press-fitted into the nozzle support member 133. At this time, the nozzle support member 133 is spread outward in the radial direction of the nozzle support member 133 by the press-fitted nozzle body 131. That is, the nozzle support member 133 is pressed by the nozzle body 131. As a result, the nozzle support member 133 is pressed outward by the press-fitting of the nozzle body 131 while being fitted into the air / water supply opening 123c and the air / water feed through-hole 121c, The main body 121 and the cover 123 are further closely attached so as to ensure the above. Therefore, the nozzle support member 133 further ensures watertightness. As described above, this water tightness prevents fluid such as body fluid from entering the inside of the insertion portion 20 from the outside of the insertion portion 20 on the tip side of the air / water feeding nozzle 130 as shown in FIG. FIG. 2G shows that the cleaning fluid is prevented from unintentionally flowing from the inside of the insertion portion 20 to the outside of the insertion portion 20 on the base end side of the nozzle as shown in FIG. 2G.

The nozzle support member 133 is further brought into close contact with the main body 121 and the cover 123 by press-fitting the nozzle main body 131.
The concave portion 133a is further engaged with the convex portion 123e by press-fitting the nozzle main body portion 131.
Further, the press-fitting of the nozzle body 131 determines the positions of the nozzle body 131 in the radial direction and the axial direction with respect to the nozzle support member 133. Further, when the bent portion 131b contacts the nozzle support member 133, the position of the nozzle body 131 in the longitudinal axis direction is determined.

  When the air / water supply nozzle 130 is replaced, the nozzle main body 131 is removed from the nozzle support member 133. Next, the nozzle support member 133 is removed from the air / water feed opening 123c and the air / water feed through hole 121c.

[effect]
As described above, in the present embodiment, as shown in FIG. 2B, the air / water supply nozzle 130 is formed by the hard nozzle body 131 such as metal having the jet 131a and the soft nozzle support member 133. Yes. Thereby, in this embodiment, deterioration of the nozzle main-body part 131 containing the jet nozzle 131a can be prevented, the fall of the jet performance of the air / water feed nozzle 130 can be prevented, and the stable jet performance can be obtained.
In the present embodiment, the nozzle body 131 is removed from the nozzle support member 133, and then the nozzle support member 133 is removed from the air / water feed opening 123c and the air / water feed through hole 121c. Thus, in this embodiment, the air / water supply nozzle 130 can be easily removed for replacement. Therefore, in this embodiment, the air / water supply nozzle 130 can be easily replaced.

In the present embodiment, the outer diameter d2 is larger than the inner diameter d3 and the inner diameter d4, and the nozzle support member 133 is formed of a soft member, so that it can be deformed and is in close contact with the main body 121 and the cover 123. Accordingly, in this embodiment, the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water supply through hole 121c, so that watertightness can be easily secured.
In this embodiment, the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water supply through-hole 121c, and the main body 121 and the cover 123 are pressed by the nozzle main body 131. And more closely. Thereby, in this embodiment, watertightness can be secured more easily and more easily.

In this embodiment, when the nozzle support member 133 is fitted into the air / water feed opening 123c and the air / water feed through hole 121c, the nozzle support member 133 is covered with the main body 121 and the cover. It can adhere to the part 123.
In the present embodiment, when the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water supply through hole 121c, the concave 133a can be engaged with the convex 123e.

In this embodiment, the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water supply through-hole 121c, and the main body 121 and the cover 123 are pressed by the nozzle main body 131. And more closely.
In this embodiment, the recess 133a can be further engaged with the protrusion 123e by press-fitting the nozzle body 131.

  Further, in the present embodiment, since the contact is made as described above, it is possible to prevent the nozzle main body 131 from coming off from the nozzle support portion at the time of air supply / water supply, and the air supply / water supply nozzle 130 from the distal end hard portion 21. It can be prevented from coming off.

  In the present embodiment, the nozzle body 131 made of a hard material is in close contact with the nozzle support member 133 as described above, so that the direction of the ejection port 131a of the nozzle body 131 is securely fixed during air / water feeding. The observation window 21c can be reliably cleaned.

[First Modification]
In the first embodiment, the position of the nozzle body 131 in the radial direction and the axial direction of the nozzle body 131 with respect to the nozzle support member 133 is determined only by the press-fitting of the nozzle body 131, but it is necessary to limit to this. There is no.

As shown in FIG. 3, the air / water supply nozzle 130 is disposed, for example, on at least one of the outer peripheral surface of the nozzle body 131 and the inner peripheral surface of the nozzle support member 133 and is press-fitted into the nozzle support member 133. You may further have the adhesion part 135 which adhere | attaches the nozzle main-body part 131 to the nozzle support member 133. FIG.
Thereby, in this modification, it can prevent the nozzle main-body part 131 falling out from the nozzle support member 133 more reliably.

[Second Modification]
In the first embodiment, the nozzle support member 133 has the concave portion 133a and the cover portion 123 has the convex portion 123e. However, the present invention is not limited to this. As shown in FIG. 4C, for example, the nozzle support member 133 may have a convex portion 133e, and the main body portion 121 may have a concave portion 121e.

Below, the case where the nozzle support member 133 has the convex part 133e is demonstrated.
When the nozzle support member 133 is fitted into the air / water supply opening 123c and the air / water supply through hole 121c as shown in FIG. 4A, the nozzle support member 133 is flat as shown in FIGS. 4A and 4B. The convex part 133e is formed by deform | transforming so that a part may be engaged with the recessed part 121e.

  In addition, the convex part 133e may be formed by deform | transforming the flat one part of the nozzle support member 133 so that it may engage with the recessed part 121e by press injection of the nozzle main-body part 131. FIG. The convex portion 133e may be provided on the outer peripheral surface of the nozzle support member 133 in advance.

  As described above, as shown in FIGS. 2C and 4C, the nozzle support member 133 has at least one of the concave portion 133 a and the convex portion 133 e disposed on the outer peripheral surface of the nozzle support member 133. Good. As shown in FIG. 2C, when the nozzle support member 133 has a recess 133 a, the protrusion 123 e with which the recess 133 a engages is at least one of the cover portion 123 that is the distal end portion of the insertion portion 20 and the main body portion 121. Formed. 4C, when the nozzle support member 133 has the convex portion 133e, the concave portion 121e with which the convex portion 133e engages is formed in the main body portion 121 that is the distal end portion of the insertion portion 20.

  Thereby, in this modification, the freedom degree of design can be improved in preventing the nozzle main body 131 from coming off from the nozzle support member 133.

[Third Modification]
[Constitution]
As shown in FIGS. 5A, 5B, and 5C, the nozzle support member 133 has a press-fitting hole 133b having a convex shape tapered toward the front in the press-fitting direction of the nozzle main body 131. Have.

  The press-fitting hole 133b is disposed on the base end side in the press-fitting direction of the nozzle body 131, and is disposed on the tip end side in the press-fitting direction. And a small-diameter hole having a smaller diameter than the hole. Thus, the press-fitting hole 133b is reduced in diameter. The diameter of the large diameter hole is smaller than the outer diameter of the nozzle body 131.

  In the thick portion 133c of the nozzle support member 133 disposed around the small-diameter hole portion, which is the tip portion of the press-fit hole 133b, the thick portion 133c is formed by the nozzle body 131 being press-fitted into the press-fit hole 133b. The nozzle support member 133 is deformed into a convex shape, and the thick portion 133c is formed as the convex portion 133e and is pressed outward in the radial direction of the nozzle support member 133. Watertightness is implemented by engaging the thick portion 133c with the concave portion 133a.

[Action]
As shown in FIG. 5A and FIG. 5B, the nozzle support member 133 is constant from the base end side to the tip end portion in the press-fitting direction in a state where the outer peripheral surface of the nozzle support member 133 is flat as in the first embodiment. Are fitted into the air / water feed opening 123c and the air / water feed through hole 121c.

  Next, as shown in FIG. 5B and FIG. 5C, the nozzle support member 133 has a base end side that is narrower in the press-fitting direction and a distal end side in the press-fitting direction when the nozzle body 131 is press-fitted into the press-fitting hole 133 b. It deforms into a convex shape so that it becomes thicker. Thereby, the thick part 133c is pressed toward the outer side, is formed as a convex part 133e, and engages with the concave part 121e.

  When the nozzle body 131 is removed from the nozzle support member 133, the thick portion 133c formed as the convex portion 123e is retracted inward in the radial direction of the nozzle support member 133, as shown in FIG. 5B. Thereby, the nozzle support member 133 returns to the state which has fixed thickness from the base end part side to a front-end | tip part in the press injection direction. In this state, the nozzle support member 133 is removed from the air / water feed opening 123c and the air / water feed through-hole 121c.

[effect]
Thereby, in this modification, it can carry out retaining easily.
In this modification, when the nozzle body 131 is removed from the nozzle support member 133, the nozzle support member 133 has a constant thickness from the base end side to the tip end in the press-fitting direction, as shown in FIG. 5B. Return to the state you have. For this reason, in this modification, the nozzle support member 133 can be easily removed from the air / water supply opening 123c and the air / water supply through-hole 121c.

  The present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying the constituent elements without departing from the scope of the invention in the implementation stage. Further, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the embodiment.

  DESCRIPTION OF SYMBOLS 10 ... Endoscope, 20 ... Insertion part, 21 ... Hard tip part, 21b ... Imaging unit, 21c ... Observation window, 121 ... Main part, 121c ... Air supply / water supply through-hole part, 123 ... Cover part, 123c ... Sending Air / water supply opening, 130... Air / water supply nozzle, 131... Nozzle body, 131 a.

Claims (4)

An endoscope air supply / water supply nozzle that is fitted into the distal end portion of the insertion portion of the endoscope and ejects fluid to the observation window disposed in the distal end portion,
A nozzle body formed by a rigid member having a jet outlet for jetting fluid to the observation window;
A nozzle support member formed by a soft member that supports the nozzle body,
Comprising
The air supply / water supply nozzle of an endoscope, wherein the nozzle body is closely fixed to the distal end portion via the nozzle support member so as to ensure water tightness.   An adhesive portion is provided on at least one of the outer peripheral surface of the nozzle body portion and the inner peripheral surface of the nozzle support member, and bonds the nozzle body portion press-fitted into the nozzle support member to the nozzle support member. The air / water supply nozzle of the endoscope according to claim 1, wherein The nozzle support member is
A concave portion disposed on the outer peripheral surface of the nozzle support member and fitted into a convex portion formed at the tip portion;
A convex portion disposed on the outer peripheral surface of the nozzle support member and fitted into a concave portion formed in the tip portion;
The air / water supply nozzle of the endoscope according to claim 1 or 2, wherein at least one of the above is provided. The endoscopic air supply according to any one of claims 1 to 3, wherein the hard member includes a metal or a resin, and the soft member is formed of rubber or a soft resin.・ Water supply nozzle.

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