JP7411427B2 - Nozzle for sanitary cleaning equipment - Google Patents

Description

The present disclosure relates to a nozzle for a sanitary cleaning device.

Conventionally, nozzles used in sanitary cleaning devices are known. Some nozzles include a cylindrical nozzle cover having a nozzle cover-side water discharge hole and a flow path forming member disposed inside the nozzle cover (for example, see Patent Document 1).

JP2003-278248A

When the flow path forming member is configured with a plurality of flow path forming parts, the plurality of flow path forming parts are inserted into the interior of the nozzle cover from an opening on one end side in the axial direction of the nozzle cover. Since the multiple flow path components are each composed of separate members, the multiple flow path components are likely to separate from each other, and the flow path components may not be stably fixed inside the nozzle cover. .

The present disclosure provides a nozzle for a sanitary cleaning device that includes a flow path forming member having a plurality of flow path forming parts arranged inside a nozzle cover, and is capable of stably fixing the flow path forming member inside the nozzle cover. The purpose is to provide.

The present disclosure relates to a nozzle for use in a sanitary cleaning device, including a nozzle cover having a nozzle cover side water spouting hole, and a channel side water spouting hole disposed inside the nozzle cover and communicating with the nozzle cover side water spouting hole. a second flow path configuration portion that is disposed on the rear side of the first flow path configuration portion in the axial direction of the nozzle cover and is locked to the first flow path configuration portion; A nozzle comprising:

It is a perspective view showing a toilet device to which a nozzle of a first embodiment is attached. It is a perspective view of a nozzle and a nozzle support part seen from the tip side. It is a perspective view of a nozzle and a nozzle support part seen from the base end side. FIG. 2A is a cross-sectional view taken along line AA in FIG. 2A. It is a sectional view of a nozzle support part. It is a sectional view of a nozzle. FIG. 3 is an exploded perspective view of the nozzle as viewed diagonally from above. FIG. 3 is an exploded perspective view of the nozzle as viewed diagonally from below. It is a figure which shows the procedure of assembling a nozzle, Comprising: It is a figure which shows the state in the middle of inserting a water discharge side flow-path structure part into a nozzle cover. It is a figure which shows the procedure of assembling a nozzle, Comprising: It is a figure which shows the state where the water discharge side flow path structure part was moved to the upper side. FIG. 6 is a diagram illustrating a procedure for assembling the nozzle, and is a diagram illustrating a state in the middle of inserting the introduction side flow path structure into the nozzle cover. It is a figure which shows the procedure of assembling a nozzle, Comprising: It is a figure which shows the state which the water discharge side flow path structure part and the introduction side flow path structure part were inserted into the nozzle cover. It is a figure showing the nozzle of a 2nd embodiment. It is an exploded perspective view of a nozzle of a 2nd embodiment seen from the diagonally upper side. It is an exploded perspective view of the nozzle of a 2nd embodiment seen from the diagonally downward side. It is a figure which shows the procedure of assembling the nozzle of 2nd Embodiment, Comprising: It is a figure which shows the state in the middle of inserting a water discharge side flow-path structure part into a nozzle cover. It is a figure which shows the procedure of assembling the nozzle of 2nd Embodiment, Comprising: It is a figure which shows the state where the water discharge side flow path structure part was moved to the upper side. It is a figure which shows the procedure of assembling the nozzle of 2nd Embodiment, Comprising: It is a figure which shows the state in the middle of inserting an introduction side flow path structure part into a nozzle cover. It is a figure which shows the procedure of assembling the nozzle of 2nd Embodiment, Comprising: It is a figure which shows the state which the water discharge side flow path structure part and the introduction side flow path structure part were inserted into the nozzle cover.

Hereinafter, a toilet device 10 including a nozzle 2 for a sanitary cleaning device 1 according to a first embodiment will be described with reference to the drawings. In the following description, the front-back direction as viewed from the user seated on the toilet seat 12 will be referred to as the front-back direction. As shown in FIG. 1, the sanitary cleaning device 1 of this embodiment is attached to a toilet device 10. The toilet device 10 includes a toilet bowl 11, a toilet seat 12, a toilet lid 13, a functional section 14, and an operation panel 15.

The toilet bowl 11 is formed to open upward, and is made of, for example, ceramic. The toilet seat 12 and the toilet lid 13 are attached to the front part of the functional part 14 so as to be rotatable with respect to the toilet bowl 11. The toilet seat 12 is a part on which a user sits. The toilet seat 12 is arranged on the opening edge of the toilet bowl 11. The toilet seat 12 is formed in an annular shape. The toilet lid 13 is a lid that opens and closes the openings of the toilet bowl 11 and the toilet seat 12. A toilet seat 12 and a toilet lid 13 are attached to the functional section 14, and a sanitary cleaning device 1 is also arranged therein.

The operation panel 15 extends from the functional section 14 and is arranged on the side of the toilet seat 12 on the functional section 14 side. The operation panel 15 can be operated to perform the cleaning operation of the toilet bowl 11, to perform the cleaning operation in the sanitary cleaning device 1, and to select various operation modes of the cleaning operation of the sanitary cleaning device 1. It is configured so that it can be done.

The sanitary cleaning device 1 is a device for cleaning private parts of the human body. The sanitary cleaning device 1 is arranged on the rear side of the opening of the toilet seat 12 and on the front end side of the functional section 14. As shown in FIGS. 2A and 2B, the sanitary cleaning device 1 includes a nozzle 2 that discharges cleaning water, and a nozzle support section 5 that supports the nozzle 2 so that it can move forward and backward. The nozzle 2 is used in the sanitary cleaning device 1. The nozzle 2 is used for anal cleaning and bidet cleaning to clean the private parts of the human body.

The nozzle support part 5 supports the base end of the nozzle 2. As shown in FIG. 3, the nozzle support section 5 includes a wash water introduction pipe 51, a nozzle mounting section 52, and a rear sliding section 53. The nozzle attachment part 52 has a small diameter attachment part 521 and a large diameter rear part 522.

As shown in FIG. 3, the small-diameter attachment portion 521 is arranged on the tip side of the nozzle support portion 5 and is formed in a cylindrical shape. A fitting protrusion 521b is formed on the outer circumferential surface of the small diameter attachment portion 521, as shown in FIG. The fitting protrusion 521b fits into the nozzle side fitting recess 21 (see FIG. 5) of the nozzle 2. An O-ring 521c is attached to the outer peripheral surface of the small-diameter attachment portion 521.

As shown in FIG. 4, the cleaning water introduction pipe 51 is disposed to penetrate inside the inner circumferential surface of the small diameter attachment portion 521. A plurality of extending ribs 521a are formed on the inner circumferential surface of the small diameter attachment portion 521. The plurality of extending ribs 521a are spaced apart in the circumferential direction and extend in the axial direction. The plurality of extending ribs 521a abut against the outer circumferential surface of the wash water introduction pipe 51 when the wash water introduction pipe 51 is attached to the inner circumferential surface of the small diameter attachment portion 521. As a result, between the outer circumferential surface of the wash water introduction pipe 51 and the inner circumferential surface of the small-diameter attachment section 521, a support section side gap flow path Fa through which the wash water flows is formed.

The cleaning water introduction pipe 51 is formed into a cylindrical shape extending in the axial direction of the nozzle 2 . The rear end of the cleaning water introduction pipe 51 is inserted into and connected to the large-diameter rear part 522 of the nozzle mounting part 52 by press fitting, and the middle part of the pipe 51 in the axial direction passes through the inside of the small-diameter mounting part 521. will be placed. When the nozzle 2 is connected to the nozzle support part 5, the axially distal end of the cleaning water introduction pipe 51 is connected to the inner circumferential wall 424 of the introduction side flow path of the introduction side flow path configuration part 42 of the nozzle 2 (see FIG. 5) (described later) is inserted and connected by press fitting.

The rear end of the cleaning water introduction pipe 51 is press-fitted into the large diameter rear part 522 of the nozzle mounting part 52, forming a watertight structure that seals between the cleaning water introduction pipe 51 and the large diameter rear part 522 of the nozzle mounting part 52. do. The tip of the cleaning water introduction pipe 51 is press-fitted into the inner peripheral wall 424 of the introduction side passageway of the introduction side passageway formation part 42 of the nozzle 2, and the cleaning water introduction pipe 51 and the introduction side passageway formation part 42 of the nozzle 2 are connected by pressure. A watertight structure is configured to seal between the inner circumferential wall 424 of the introduction side channel.

As shown in FIG. 4, the large-diameter rear portion 522 is connected to the base end side of the small-diameter attachment portion 521 and is formed in a cylindrical shape. The large-diameter rear portion 522 has an inner cylinder part 523 that opens toward the front side, and an outer cylinder part 524 that is arranged outside the inner cylinder part 523.

The rear sliding part 53 is connected to the rear end of the nozzle attachment part 52. The rear sliding portion 53 is attached to the sanitary washing device 1 so as to be movable forward and backward. At the rear end of the rear sliding portion 53, as shown in FIG. 2B, a central wash water introduction section 531 and an outer wash water introduction section 532 are formed.

The central cleaning water introduction part 531 is an introduction port into which cleaning water that is passed in the axial direction on the radial center side of the nozzle 2 is introduced. As shown in FIG. 2B, the central wash water introduction part 531 is formed with an open rear side, and as shown in FIG. 4, the front side communicates with the space inside the inner cylinder part 523 of the large-diameter rear part 522. . The outer wash water introduction part 532 is an introduction port into which wash water that is passed in the axial direction on the outside of the nozzle 2 in the radial direction is introduced. As shown in FIG. 2A, the outer wash water introduction part 532 is formed with an open rear side, and as shown in FIG. communicates with the space of

As shown in FIG. 4, inside the nozzle support part 5, a support part side inner introduction channel F11 and a support part side outer introduction channel F12 are formed. The support part side inner introduction flow path F11 allows the wash water that has flowed in through the center side wash water introduction part 531 to flow through the space inside the inner cylindrical part 523 of the large diameter rear part 522 and the inside of the wash water introduction pipe 51. This is a flow path for introducing cleaning water into the nozzle-side introduction-side inner flow path F21 (see FIG. 5) (described later) of the nozzle 2.

The support part side outer introduction flow path F12 transfers the washing water that has flowed in through the outer washing water introduction part 532 to the space between the inner cylinder part 523 and the outer cylinder part 524 of the large diameter rear part 522 and the small diameter attachment part 521. Cleaning is conducted through the support part side gap flow path Fa between the inner peripheral surface of the nozzle 2 and the outer peripheral surface of the cleaning water introduction pipe 51 to the nozzle side introduction side outer flow path F22 (see FIG. 5) (described later) of the nozzle 2. This is a channel for introducing water.

As shown in FIGS. 2A and 2B, the nozzle 2 is supported by the nozzle support portion 5 at its base end. The nozzle 2 is formed into a long columnar shape extending in the axial direction. A first water spouting hole 414a and a second water spouting hole 415a are formed in the upper surface on the tip side of the nozzle 2 in parallel in the axial direction. The first water discharge hole 414a and the second water discharge hole 415a discharge cleaning water supplied by a hot water supply unit (not shown).

As shown in FIGS. 3 and 5 to 7, the nozzle 2 includes a cylindrical nozzle cover 3 and a flow path forming member 4 disposed inside the nozzle cover 3. The flow path configuration member 4 includes a water discharge side flow path formation portion 41 (first flow path formation portion), an introduction side flow path formation portion 42 (second flow path formation portion), a water discharge side flow path formation portion 41, and an introduction side flow path formation portion 41 (first flow path formation portion). It has a connecting pipe 43 that connects to the side flow path forming part 42.

The nozzle cover 3 is formed into a cylindrical shape whose distal end is closed by a distal end closing plate 35 and whose proximal end is open. The nozzle cover 3 is made of, for example, a resin material or a ceramic material. The water discharge side flow path configuration section 41, the introduction side flow path configuration section 42, and the connection pipe 43 are formed of, for example, a resin material.

A first through hole 31 (nozzle cover side water spouting hole section) and a second through hole 32 (nozzle cover side water spouting hole section) are formed on the upper surface of the tip side of the nozzle cover 3.

The first through hole 31 and the second through hole 32 are arranged side by side in the axial direction of the nozzle 2 on the upper surface of the tip end side of the nozzle cover 3, as shown in FIGS. 5 and 6. The first through hole 31 and the second through hole 32 are formed to penetrate the nozzle cover 3 in the thickness direction. The first through hole 31 and the second through hole 32 extend in the radial direction of the nozzle cover 3 by a length corresponding to the thickness of the nozzle cover 3 . A first water discharging convex portion 414 (described later) of the water discharging side flow path forming part 41 of the flow path forming member 4 accommodated in the nozzle cover 3 is fitted into the first through hole 31 and arranged. A second water discharging convex portion 415 (described later) of the water discharging side flow path forming part 41 of the flow path forming member 4 accommodated in the nozzle cover 3 is fitted into the second through hole 32 . Thereby, the water discharge side flow path configuration part 41 is positioned with respect to the nozzle cover 3.

The nozzle cover 3 has a reference surface 381 (reference position) formed at a reference position and a circumferential positioning recess 382. The reference surface 381 is constituted by the end surface of the nozzle cover 3 on the rear side. A flange portion 426 of an introduction-side flow path configuration portion 42, which will be described later, comes into contact with the reference surface 381. The circumferential positioning recess 382 is formed in a semicircular shape recessed from the reference surface 381 toward the distal end side. A circumferential positioning convex portion 426a of a flange portion 426 of the introduction side flow path forming portion 42, which will be described later, engages with the circumferential positioning recess 382.

As shown in FIG. 5, the water discharge side flow path configuration section 41, the introduction side flow path configuration section 42, and the connection pipe 43 are housed inside the nozzle cover 3. The water discharge side flow path configuration section 41 and the introduction side flow path configuration section 42 are arranged side by side in the axial direction of the nozzle cover 3. The water discharge side flow path configuration part 41 is arranged inside the nozzle cover 3 so as to be closer to the upper side of the tip end side in the axial direction of the nozzle 2 . The upper side inside the nozzle cover 3 is the side where the first through hole 31 and the second through hole 32 are located inside the nozzle cover 3 . The introduction side flow path forming part 42 is arranged inside the nozzle cover 3 on the proximal end side of the nozzle cover 3 in the axial direction. The connecting pipe 43 is formed in a cylindrical shape extending in the axial direction of the nozzle cover 3, and connects the water discharge side flow path configuration section 41 and the introduction side flow path configuration section 42.

The introduction side flow path forming part 42 is arranged inside the nozzle cover 3 on the proximal end side (rear side) of the water discharge side flow path forming part 41 (described later) arranged on the tip side of the nozzle cover 3. The distal end side of the introduction side flow path forming section 42 is locked to the water discharging side flow path forming section 41 . The introduction side flow path configuration part 42 is fixed to the nozzle cover 3. For example, in the present embodiment, the front surface of the flange portion 426 of the introduction-side flow path configuration portion 42 described later is positioned in the axial direction of the nozzle cover 3 at a reference surface 381 formed on the rear end side of the nozzle cover 3. Then, it is fixed to the nozzle cover 3 by adhesive. In other embodiments, a press fit may be used for the fixation.

As shown in FIGS. 5 to 7, the introduction side flow path forming part 42 is formed at the introduction side flow path main body 421, the distal end side extension part 425 (gap arrangement part), and the proximal end part. It has a flange portion 426. The distal end side extension portion 425 extends from the lower part of the distal end side of the introduction side channel body 421 toward the distal end side with a predetermined width in a direction perpendicular to the axial direction of the nozzle cover 3 . When the distal end side of the introduction side flow path configuration section 42 is connected to the base end side of the water discharge side flow path configuration section 41, the distal end side extension section 425 connects the lower part of the water discharge side flow path configuration section 41 (described later) and the nozzle. It is arranged in the lower gap Sa (locking gap, fitting gap) between the cover 3 and the cover 3. The first through hole 31 and the second through hole 32 of the nozzle cover 3 are located in the lower part of the water discharge side flow path configuration part 41, which is arranged on the upper side inside the nozzle cover 3. The side refers to the lower part on the opposite side in the radial direction.

As shown in FIGS. 5 to 7, a distal end locking protrusion 427 (second locking portion) that protrudes toward the water discharge side channel forming portion 41 is formed at the distal end of the distal end extension portion 425. . The tip-side locking protrusion 427 prevents water discharge from the water discharge side flow path configuration part 41 when the introduction side flow path configuration part 42 is locked to the water discharge side flow path configuration part 41 (described later) inside the nozzle cover 3. It is locked in a side locking recess 417 (described later). The distal end locking protrusion 427 is formed to protrude upward from the upper surface of the distal end of the distal end extending portion 425 . The distal end locking protrusion 427 has a predetermined width in the axial direction of the nozzle cover 3 and extends in a direction perpendicular to the axial direction of the nozzle cover 3 with the same length as the width of the distal end extending portion 425 . The top surface of the tip-side locking protrusion 427 is formed in an arcuate shape recessed along the circumferential direction of the nozzle cover 3 .

The introduction side channel body 421 has a substantially cylindrical outer shape. The introduction-side channel main body 421 includes an introduction-side channel distal-side circumferential wall 422 formed on the distal end side, an introduction-side channel proximal-side outer circumferential wall 423 formed on the proximal end side, and an introduction-side channel proximal-side outer circumferential wall formed on the proximal end side. 423.

The introduction side flow path tip side circumferential wall 422 is formed on the end side of the introduction side flow path main body 421 on the tip side of the nozzle cover 3 . The leading end side peripheral wall 422 of the introduction side flow path is formed in a cylindrical shape that is one step lower than the outer peripheral surface of the introduction side flow path main body 421 . The introduction-side channel tip-side peripheral wall 422 extends cylindrically from the outer circumferential surface of the introduction-side channel body 421 to the tip side from a position one step lower than the outer circumferential surface of the introduction-side channel body 421 via the stepped end surface 422b. .

The introduction side flow path tip side circumferential wall 422 opens toward the water discharge side flow path configuration portion 41 (described later) side. An O-ring 422c (watertight structure) is attached to the outer circumferential surface of the leading end side circumferential wall 422 of the introduction side channel. When connecting the introduction side flow path configuration part 42 to the water discharge side flow path configuration part 41, the outer peripheral surface of the introduction side flow path tip side peripheral wall 422 is provided with the water discharge side flow path outer peripheral wall 412 of the water discharge side flow path main body 411. can be installed. The rear end side of the connecting pipe 43 is attached to the inner circumferential surface of the leading end side peripheral wall 422 of the introduction side flow path.

A plurality of extending ribs 422a are formed on the inner circumferential surface of the introduction side flow path tip side circumferential wall 422. The plurality of extending ribs 422a are spaced apart in the circumferential direction and extend in the axial direction. The plurality of extending ribs 422a abut against the outer peripheral surface of the connecting pipe 43 when the connecting pipe 43 is attached to the inner peripheral surface of the leading end side peripheral wall 422 of the introduction side flow path. As a result, a nozzle-side gap flow path Fb through which cleaning water flows is formed between the outer peripheral surface of the connecting pipe 43 and the inner peripheral surface of the introduction-side flow path tip side peripheral wall 422. The rear end of the connecting pipe 43 is fixed on the back side of the leading end side peripheral wall 422 of the introduction side flow path.

The introduction-side channel proximal outer circumferential wall 423 is formed on the proximal end side of the nozzle cover 3 in the introduction-side channel main body 421 . The introduction-side channel proximal outer peripheral wall 423 opens toward the nozzle support portion 5 side. When connecting the introduction side flow path forming section 42 to the nozzle support section 5, the tip side end of the nozzle support section 5 is attached to the inner circumferential surface of the introduction side flow path proximal outer circumferential wall 423. An O-ring 423a is attached to the outer circumferential surface of the introduction-side channel proximal outer circumferential wall 423.

The introduction-side flow path inner peripheral wall 424 has a cylindrical shape with a diameter smaller than the diameter of the introduction-side flow path base-end outer peripheral wall 423 inside the introduction-side flow path base-end outer peripheral wall 423 in the middle of the nozzle cover 3 in the axial direction. It is formed. The introduction-side channel inner circumferential wall 424 and the introduction-side channel proximal outer circumferential wall 423 are configured to have a double pipe structure. The introduction-side channel inner circumferential wall 424 opens toward the nozzle support portion 5 side. The tip side end of the cleaning water introduction pipe 51 of the nozzle support section 5 is attached to the inner circumferential surface of the introduction side channel inner circumferential wall 424 .

The flange portion 426 is formed to protrude outward in the radial direction of the nozzle cover 3 in the shape of an annular plate at the proximal end of the introduction-side flow path forming portion 42 . The flange portion 426 is provided with a reference surface 381 formed on the rear end side of the nozzle cover 3 in a state in which the water discharge side flow path configuration portion 41 and the introduction side flow path configuration portion 42 are arranged inside the nozzle cover 3. come into contact with In this embodiment, the front surface of the flange portion 426 is bonded and fixed to a reference surface 381 formed on the rear end side of the nozzle cover 3. As a result, with the water discharge side flow path configuration section 41 and the introduction side flow path configuration section 42 arranged inside the nozzle cover 3, the introduction side flow path configuration section 42 is positioned in the axial direction of the nozzle cover 3. fixed in the state.

A circumferential positioning convex portion 426a that protrudes semicircularly toward the distal end is formed on the top end surface of the flange portion 426 in the circumferential direction. The circumferential positioning convex portion 426a is engaged with the circumferential positioning recess 382 of the nozzle cover 3 in a state where the water discharge side flow path configuration portion 41 and the introduction side flow path configuration portion 42 are arranged inside the nozzle cover 3. . As a result, in a state where the water discharge side flow path configuration section 41 and the introduction side flow path configuration section 42 are arranged inside the nozzle cover 3, the introduction side flow path configuration section 42 is positioned in the circumferential direction with respect to the nozzle cover 3. It will be fixed in the same state.

As shown in FIG. 5, inside the introduction-side flow passage main body 421, a nozzle-side introduction-side inner flow passage F21 and a nozzle-side introduction-side outer flow passage F22 are formed. The nozzle-side introduction-side inner flow path F21 transfers the cleaning water introduced by the support-side inner introduction flow path F11 of the nozzle support section 5 to the space on the radial center side of the introduction-side flow path main body 421 and the cleaning water introduction pipe. 51 is a flow path that mainly flows through the nozzle side water discharge side inner flow path F31 of the water discharge side flow channel main body 411.

The nozzle-side introduction-side outer flow path F22 transfers the cleaning water introduced by the support-side outer introduction flow path F12 of the nozzle support 5 to the space outside the radial direction of the water discharge-side flow path main body 411 and the outer periphery of the connecting pipe 43. A flow path that allows the nozzle side gap flow path Fb between the surface and the inner circumferential surface of the introduction side flow path tip end side peripheral wall 422 to flow to the nozzle side water discharge side outer flow path F32 of the water discharge side flow path main body 411. be.

The water discharge side flow path configuration portion 41 is arranged inside the nozzle cover 3 on the axially distal end side of the nozzle 2 . The base end side of the water discharge side flow path configuration section 41 is connected to the distal end side of the introduction side flow path configuration section 42 . In the state in which the water discharging side flow path forming part 41 is arranged inside the nozzle cover 3, there is a space between the end surface 41a on the distal side of the water discharging side flow path forming part 41 and the inner surface 35a of the distal end closing plate 35 of the nozzle cover 3. , a gap S1 is formed.

As shown in FIGS. 5 to 7, the water discharging side flow path configuration section 41 includes a water discharging side flow channel main body 411, a convex first water discharging convex portion 414 (water discharging portion), and a convex second water discharging convex portion. 415 (water spouting part), and a water spouting side locking recess 417 (first locking part).

The water discharge side channel main body 411 has a closed end and a cylindrical outer shape. The water discharge side channel main body 411 has a water discharge side flow channel outer peripheral wall 412 and a water discharge side flow channel inner peripheral wall 413 disposed inside the water discharge side flow channel outer peripheral wall 412 in the middle of the nozzle cover 3 in the axial direction. .

The water discharge side flow path outer peripheral wall 412 is formed in a substantially cylindrical shape and extends in the axial direction of the nozzle cover 3 . The water discharge side flow path outer peripheral wall 412 configures the outer shape of the water discharge side flow path main body 411 and opens toward the base end side of the nozzle cover 3 . An introduction side flow path tip side peripheral wall 422 on the tip side of the introduction side flow path configuration portion 42 is attached to the inner circumferential surface of the water discharge side flow path outer peripheral wall 412 .

The water discharge side flow path configuration section 41 and the introduction side flow path configuration section 42 are arranged to overlap when viewed in a direction perpendicular to the axial direction of the nozzle cover 3. The O-ring 422c is arranged in the water discharge side flow path in a portion where the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 are arranged overlappingly when viewed in a direction orthogonal to the axial direction of the nozzle cover 3. A watertight structure is configured to seal between the component 41 and the introduction side flow path component 42.

As shown in FIG. 5, a step surface formed on the radially inner side of the distal end side of the water discharging side channel outer circumferential wall 412 and a stepped surface formed on the distal side of the distal side circumferential wall 422 of the inlet side channel constituting section 42 A gap S4 is formed between the end face and the end face.

As shown in FIGS. 5 to 7, the inner circumferential wall 413 of the water discharging side passage is larger than the diameter of the outer circumferential wall 412 of the water discharging side passage inside the outer circumferential wall 412 of the water discharging side passage midway in the axial direction of the nozzle cover 3. It is formed into a cylindrical shape with a small diameter. The inner peripheral wall 413 of the water discharge side flow path and the outer peripheral wall 412 of the water discharge side flow path are configured to have a double pipe structure. The water discharge side channel inner circumferential wall 413 opens toward the base end of the nozzle cover 3 . The tip of the connecting pipe 43 is attached to the inner circumferential surface of the inner circumferential wall 413 of the water discharge side flow path by press fitting.

The connecting pipe 43 and the water discharge side flow path configuration part 41 are arranged to overlap when viewed in a direction orthogonal to the axial direction of the nozzle cover 3. The tip of the connecting pipe 43 is press-fitted into the inner circumferential surface of the inner circumferential wall 413 of the water discharge side channel. The distal end of the connecting pipe 43 is connected to the connecting pipe 43 and the water discharging side in a portion where the connecting pipe 43 and the water discharging side flow path forming part 41 overlap when viewed in a direction perpendicular to the axial direction of the nozzle cover 3. A watertight structure is configured to seal between the flow path forming portion 41 and the flow path forming portion 41 .

The first water discharging convex portion 414 and the second water discharging convex portion 415 are arranged side by side in the axial direction of the nozzle cover 3 on the top surface of the distal end side of the water discharging side channel main body 411, as shown in FIGS. 5 to 7. . The first water discharging convex portion 414 and the second water discharging convex portion 415 each protrude upward from the top surface of the distal end side of the water discharging side channel main body 411 in a cylindrical shape.

The first water spouting convex portion 414 has a first water spouting hole 414a (channel side water spouting hole portion). The first water discharge hole 414a is formed at a position that coincides with the first through hole 31 of the nozzle cover 3 in the axial direction of the nozzle cover 3, and communicates with the first through hole 31 of the nozzle cover 3. The first water spouting hole 414a is formed to be inclined with respect to the thickness direction of the first water spouting convex portion 414 so that the outlet side of the first water spouting hole 414a faces toward the base end side of the nozzle 2.

The second water spouting convex portion 415 has a second water spouting hole 415a (channel side water spouting hole portion). The second water discharge hole 415a is formed at a position that coincides with the second through hole 32 of the nozzle cover 3 in the axial direction of the nozzle cover 3, and communicates with the second through hole 32 of the nozzle cover 3. The second water spouting hole 415a is formed to be inclined with respect to the thickness direction of the second water spouting convex portion 415 so that the outlet side of the second water spouting hole 415a faces toward the base end side of the nozzle 2.

The first water spouting hole 414a and the second water spouting hole 415a are formed so that the outlet side is inclined toward the base end side of the nozzle 2, so that the cleaning water flowing through the flow path forming member 4 can be directed to the targeted position. It is configured to be discharged at

The first water discharging convex portion 414 fits into the thick portion of the first through hole 31 in a state where the channel forming member 4 is disposed inside the nozzle cover 3 . The second water discharge convex portion 415 fits into the thick portion of the second through hole 32 in a state where the flow path forming member 4 is fitted into the inside of the nozzle cover 3 . The surface of the first water discharging convex portion 414 and the surface of the second water discharging convex portion 415 are arranged substantially flush with the surface of the nozzle cover 3 . "Substantially flush" means that the surface of the first water discharging convex part 414, the surface of the second water discharging convex part 415, and the surface of the nozzle cover 3 are not completely flush. Being substantially flush includes a case where the surface of the first water discharging convex portion 414 and the surface of the second water discharging convex portion 415 are slightly recessed from the surface of the nozzle cover 3 . Therefore, the first through hole 31 of the nozzle cover 3 is blocked by the first water spouting convex portion 414, and the second through hole 32 of the nozzle cover 3 is blocked by the second water spouting convex portion 415. state. The surface of the first water discharging convex portion 414 and the surface of the second water discharging convex portion 415 may be arranged to protrude from the surface of the nozzle cover 3.

The water discharging side locking recess 417 is formed on the lower surface of the lower part of the water discharging side channel forming section 41 . The water discharging side locking recess 417 is an arcuate recess that is formed by recessing upward from the lower surface of the water discharging side channel forming part 41 and has a predetermined width in the axial direction of the nozzle cover 3 and extends a predetermined length in the circumferential direction. Formed in a groove shape. The water discharge side locking recess 417 is formed to be recessed upward from the lower surface of the water discharge side flow path forming part 41, and extends a predetermined length in the circumferential direction. The water discharge side locking recess 417 is locked to the front end side locking protrusion 427 of the front end side extension part 425 of the introduction side channel forming part 42 . Thereby, the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 are locked in a state where mutual movement is restricted in the axial direction and the circumferential direction of the nozzle cover 3.

In the state where the water discharge side flow path forming part 41 is assembled to the nozzle cover 3, as shown in FIG. A lower gap Sa is formed between the nozzle cover 3 and the nozzle cover 3 . The lower gap Sa allows the first water to be discharged into the first through-hole 31 when the first water-discharge convex portion 414 is fitted into the first through-hole 31 and the second water-discharge convex portion 415 is fitted into the second through-hole 32 . A gap for fitting the convex portion 414 and fitting the second water discharging convex portion 415 into the second through hole 32, and is a gap for distal end side locking of the distal end side extension portion 425 of the introduction side channel forming portion 42. It is also a gap for locking the protruding portion 427 in the water discharge side locking recess 417 of the water discharge side flow path configuration portion 41 .

By assembling the introduction side flow path configuration part 42 to the nozzle cover 3 in a state where the water discharge side flow path configuration part 41 is assembled to the nozzle cover 3, the tip side extension part 425 of the introduction side flow path configuration part 42 It is arranged in the lower gap Sa. The distal end side extension part 425 of the introduction side flow path configuration part 42 is arranged in the lower gap Sa between the water discharge side flow path configuration part 41 and the nozzle cover 3. The distal end side locking protrusion 427 of the distal end side extension portion 425 of the introduction side flow path configuration portion 42 is locked in the water discharge side locking recess 417 of the water discharge side flow path configuration portion 41 . Thereby, the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 are locked so that they do not separate in the axial direction. By disposing the distal end side extension portion 425 in the lower gap Sa, the water discharge side flow path configuration portion 41 can be supported from below, so that the positioning of the water discharge side flow path configuration portion 41 in the radial direction of the nozzle cover 3 is facilitated. It can be carried out.

As shown in FIG. 5, inside the water discharge side flow path body 411, a nozzle side water discharge side inner flow path F31 and a nozzle side water discharge side outer flow path F32 are formed. The nozzle side water discharge side inner flow passage F31 directs the cleaning water that has flowed in through the connecting pipe 43 connected to the water discharge side flow passage inner peripheral wall 413 of the water discharge side flow passage main body 411 to the center of the water discharge side flow passage main body 411 in the radial direction. This is a channel through which the first water spouting hole 414a of the first water spouting convex portion 414 mainly flows through the side.

The nozzle side water discharge side outer flow path F32 transfers the cleaning water flowing in from the introduction side flow path configuration part 42 connected to the water discharge side flow path outer peripheral wall 412 on the proximal end side of the water discharge side flow path main body 411 to the water discharge side flow path F32. This is a flow path that mainly flows through the outside of the channel body 411 in the radial direction to the second water spout hole 415a of the second water spout convex portion 415.

The procedure for assembling the nozzle 2 will be explained. When assembling the nozzle 2, as shown in FIG. 8A, the water discharge side flow path forming part 41 of the flow path forming member 4 is inserted from the open end of the nozzle cover 3. Then, the water discharging side flow path constituting portion 41 is moved at the tip in the axial direction to a position where the first water discharging convex portion 414 fits into the first through hole 31 and the second water discharging convex portion 415 fits into the second through hole 32. move it to the side.

In the state in which the water discharge side flow path configuration part 41 is assembled to the nozzle cover 3, as shown in FIG. , a lower gap Sa is formed. The lower gap Sa allows the first water to be discharged into the first through-hole 31 when the first water-discharge convex portion 414 is fitted into the first through-hole 31 and the second water-discharge convex portion 415 is fitted into the second through-hole 32 . A gap for fitting the convex portion 414 and fitting the second water discharging convex portion 415 into the second through hole 32, and is a gap for distal end side locking of the distal end side extension portion 425 of the introduction side channel forming portion 42. It is also a gap for locking the protruding portion 427 in the water discharge side locking recess 417 of the water discharge side flow path configuration portion 41 .

Thereafter, as shown in FIG. 8B, the water discharging side flow path configuration part 41 is moved upward to fit the first water discharging convex part 414 into the first through hole 31, and the second water discharging convex part 415 is fitted into the second water discharging convex part 415. Fit into the through hole 32. By fitting the first water discharging convex portion 414 into the first through hole 31 and fitting the second water discharging convex portion 415 into the second through hole 32, the water discharging side flow path constituting portion 41 is connected to the nozzle cover 3. position.

Since the first water discharging protrusion 414 fits into the first through hole 31 and the second water discharging protrusion 415 fits into the second through hole 32, the thickness of the first through hole 31 of the nozzle cover 3 and the 2. The thick portion of the through hole 32 is not easily soiled. This can reduce maintenance work.

The surface of the first water discharging convex portion 414 and the surface of the second water discharging convex portion 415 are arranged so as not to retract from the surface of the nozzle cover 3. Therefore, the first through hole 31 of the nozzle cover 3 is blocked by the first water spouting convex portion 414, and the second through hole 32 of the nozzle cover 3 is blocked by the second water spouting convex portion 415. state. As a result, in the first through-hole 31 and the second through-hole 32, a portion recessed from the surface of the nozzle cover 3 is not formed, so that it is possible to suppress the accumulation of dirt in the first through-hole 31 and the second through-hole 32.

Next, as shown in FIG. 8C, from the open end of the nozzle cover 3, the introduction side flow path forming part 42, which has the connecting pipe 43 connected to the tip side, is inserted. Then, as shown in FIG. 8D, the distal end side of the connecting pipe 43 is press-fitted into the inner circumferential wall 413 of the water discharging side flow path of the water discharging side flow path forming part 41, and the leading end side of the inlet side flow path of the introducing side flow path forming part 42 is pressed. The peripheral wall 422 is inserted into the water discharge side flow path outer peripheral wall 412 of the water discharge side flow path configuration section 41 .

The distal end side extension part 425 of the introduction side flow path configuration part 42 is arranged in the lower gap Sa between the water discharge side flow path configuration part 41 and the nozzle cover 3. The distal end side locking protrusion 427 of the distal end side extension portion 425 of the introduction side flow path configuration portion 42 is locked in the water discharge side locking recess 417 of the water discharge side flow path configuration portion 41 . Thereby, the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 are locked so that they do not separate in the axial direction. By disposing the distal end side extension portion 425 in the lower gap Sa, the water discharge side flow path configuration portion 41 can be supported from below, so that the positioning of the water discharge side flow path configuration portion 41 in the radial direction of the nozzle cover 3 is facilitated. It can be carried out.

On the rear side of the introduction side flow path forming part 42, the flange part 426 of the introduction side flow path forming part 42 is in a state where the circumferential positioning convex part 426a is engaged with the circumferential positioning recess 382 of the nozzle cover 3 at the upper part. Then, the nozzle cover 3 is positioned in the axial direction on the reference surface 381 formed on the rear end side of the nozzle cover 3, and is firmly fixed to the nozzle cover 3 by adhesive.

According to the nozzle 2 of this embodiment described above, the following effects are achieved. The nozzle 2 of this embodiment includes a nozzle cover 3 having a first through hole 31 and a second through hole 32, and a first water spout hole arranged inside the nozzle cover 3 and communicating with the nozzle cover side water spout holes 31 and 32. 414a and a second water spouting hole 415a, and is disposed on the rear side of the water spout side flow path configuration part 41 in the axial direction of the nozzle cover 3 and is locked to the water spout side flow path configuration part 41. An introduction side flow path configuration section 42 is provided.

Therefore, since the introduction side flow path configuration part 42 is locked to the water discharge side flow path configuration part 41, the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 are integrated so as not to be separated in the axial direction. The introduction side flow path structure part 42 can be stably fixed to the water discharge side flow path structure part 41. Thereby, the channel forming member 4 can be stably fixed inside the nozzle cover 3A. When removing the flow path forming member 4 from the nozzle cover 3, the water discharge side flow path forming part 41 and the introduction side flow path forming part 42 are integrated so as not to be separated in the axial direction. By pulling out the introduction side flow path configuration part 42 axially outward from the open end, the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 are integrally removed from the nozzle cover 3. The path forming member 4 can be easily removed.

In the present embodiment, the water discharge side flow path configuration section 41 and the introduction side flow path configuration section 42 are locked in a state where mutual movement is restricted in the axial direction and circumferential direction of the nozzle cover 3. As a result, in order to prevent the axial and circumferential positions of the water discharge side flow path structure 41 and the introduction side flow path structure 42 from shifting, the introduction side flow path structure 42 is positioned relative to the water discharge side flow path structure 41. The axial and circumferential positions can be easily determined.

In this embodiment, the water discharge side flow path configuration part 41 has a convex first water discharge convex part 414 having a first water discharge hole 414a and a second water discharge convex part 415 having a second water discharge hole 415a. The first water discharging protrusion 414 fits into the first through hole 31 of the nozzle cover 3 , and the second water discharging protrusion 415 fits into the second through hole 32 of the nozzle cover 3 . Thereby, the water discharge side flow path structure part 41 can be easily positioned in the axial direction of the nozzle cover 3.

In this embodiment, the water discharge side flow path forming part 41 is disposed toward the upper side inside the nozzle cover 3, has a water discharge side locking recess 417 formed at the lower part, and has a water discharge side locking recess 417 formed in the lower part. The passage forming part 42 includes a distal end side extension part 425 inserted into the lower gap Sa between the lower part of the water discharging side flow passage constituting part 41 and the nozzle cover 3, and a distal end side extension part 425 formed in the distal end side extending part 425 and connected to the water discharging side. It has a distal end side locking protrusion 427 that is locked in the locking recess 417.

In the state in which the water discharge side flow path configuration part 41 is assembled to the nozzle cover 3, a lower gap Sa is formed between the water discharge side flow path configuration part 41 and the nozzle cover 3. The lower gap Sa allows the first water to be discharged into the first through-hole 31 when the first water-discharge convex portion 414 is fitted into the first through-hole 31 and the second water-discharge convex portion 415 is fitted into the second through-hole 32 . This is a gap for fitting the protrusion 414 and fitting the second water discharging protrusion 415 into the second through hole 32 . As a result, the water discharging side flow path forming part 41 can be moved using the lower gap Sa, so the first water discharging convex part 414 can be easily fitted into the first through hole 31, and the second water discharging convex part 414 can be easily fitted into the second through hole 32. It is easy to fit the water spouting convex portion 415. Therefore, the nozzle 2 can be easily assembled.

The lower gap Sa may also be a gap for locking the distal end side locking protrusion 427 of the distal end side extension portion 425 of the introduction side flow path configuration section 42 to the water discharge side locking recess 417 of the water discharge side flow path configuration section 41. be. As a result, the distal end side extension part 425 of the introduction side flow path forming part 42 is arranged in the lower gap Sa, so that the distal end side locking protrusion 427 of the distal side extension part 425 of the introduction side flow path forming part 42 can be easily locked in the water spout side locking recess 417 of the water spout side channel forming part 41. As a result, the distal side locking protrusion 427 of the introduction side flow path configuration part 42 is locked in the water discharge side locking recess 417 of the water discharge side flow path configuration part 41, so that the water discharge side flow can be achieved with a simple configuration. The passage forming part 41 and the introduction side passage forming part 42 can be locked inside the nozzle cover 3 so as not to be separated from each other in the axial direction. Therefore, the nozzle 2 can be easily assembled.

The introduction side flow path configuration section 42 is configured to position the water discharge side flow path configuration section 41 by disposing the distal end side extension part 425 of the introduction side flow path configuration section 42 in the lower gap Sa. . Thereby, it is possible to suppress displacement of the nozzle cover 3 in the radial direction of the water discharging side flow path constituting part 41 and maintain the fitted state of the first water discharging convex part 414 in the first through hole 31. The fitting of the second water discharging convex portion 415 into the hole 32 can be maintained.

In the present embodiment, the introduction side flow path forming part 42 is positioned in the axial direction of the nozzle cover 3 on a reference surface 381 formed on the rear side of the nozzle cover 3. As a result, while the inlet side flow path configuration section 42 is positioned in the axial direction on the reference surface 381, the water discharge side flow path configuration section 41, the inlet side flow path configuration section 42, and the connecting pipe 43 are positioned in the axial direction. Since they are arranged in an adjustable manner inside the nozzle cover 3, the water discharge side flow path configuration section 41, the introduction side flow path configuration section 42, and the connecting pipe 43 can be easily positioned in the axial direction of the nozzle cover 3.

In this embodiment, the introduction-side flow path forming part 42 is fixed to the nozzle cover 3 by at least one of adhesion and press-fitting. Thereby, the water discharge side flow path configuration part 41 and the introduction side flow path configuration part 42 can be firmly fixed to the nozzle cover 3.

Next, the nozzle 2A of the second embodiment will be explained. In the description of the second embodiment, the same reference numerals are used for components common to the first embodiment, and the description thereof will be simplified or omitted. The nozzle 2A of the second embodiment has the following points: the water discharging side channel forming part 41A does not have the first water discharging convex part 414 and the second water discharging convex part 415 of the first embodiment, and the water discharging side flow path forming part 41A However, it differs from the nozzle 2 of the first embodiment in that it has a lower surface locking recess 418 and that the nozzle cover 3A has a lower surface hole 33.

As shown in FIGS. 9 to 11, the water discharge side flow path configuration part 41A of the nozzle 2A of the second embodiment does not have the first water discharge convex portion 414 and the second water discharge convex portion 415 of the first embodiment. . Specifically, no convex portion protruding from the upper surface is formed on the upper surface of the water discharge side flow path main body 411 of the water discharge side flow path configuration section 41A. A first water spouting hole 414a (flow path side water spouting hole portion) and a second water spouting hole 415a (flow path side water spouting hole portion) penetrating the upper surface are formed in the water spouting side flow path main body 411 of the water spouting side flow path configuration section 41A. .

The first water discharging hole 414a is formed on the tip side of the water discharging side flow path forming section 41A. The first water discharge hole 414a is formed at a position that coincides with the first through hole 31 of the nozzle cover 3A in the axial direction of the nozzle cover 3, and communicates with the first through hole 31 of the nozzle cover 3A. The second water discharging hole 415a is formed on the rear side in the axial direction of the first water discharging hole 414a of the water discharging side flow path configuration section 41A. The second water discharge hole 415a is formed at a position that coincides with the second through hole 32 of the nozzle cover 3A in the axial direction of the nozzle cover 3A, and communicates with the second through hole 32 of the nozzle cover 3A.

A lower surface locking recess 418 is formed on the lower surface of the water discharge side flow path forming portion 41A of the nozzle 2A of the second embodiment. The lower surface locking recess 418 is formed by recessing upward from the lower surface of the lower surface locking recess 418 in a cylindrical shape. The lower surface locking recess 418 is used as a recess into which a rod-shaped jig J used for moving the water discharge side flow path forming section 41A described later upward when assembling the nozzle 2 is used.

The nozzle cover 3A has a lower surface hole 33 formed through the lower surface on the tip side. The lower surface hole 33 is used for inserting a rod-shaped jig J into the lower surface locking recess 418 when assembling the nozzle 2 and moving the water discharge side flow path forming part 41A, which will be described later, to the upper side. In addition to being used as a hole to be inserted (see FIG. 12B), it can also be used as a drain hole for draining water inside the nozzle cover 3 to the outside.

When assembling the nozzle 2A, as shown in FIG. 12A, similarly to FIG. 8A of the first embodiment, from the open end of the nozzle cover 3A, the water discharge side flow path forming part 41A of the flow path forming member 4A is assembled. Insert.

Thereafter, as shown in FIG. 12B, for example, a rod-shaped jig J is inserted from the bottom hole 33 of the nozzle cover 3, and the tip of the rod-shaped jig J is formed on the bottom surface of the water discharge side channel forming part 41A. Insert into the lower surface locking recess 418. Thereby, the water discharge side flow path configuration part 41A is positioned in the axial direction inside the nozzle cover 3A.

In this state, as shown in FIG. 12C, similarly to FIG. 8C of the first embodiment, the introduction side flow path forming part 42 with the connecting pipe 43 connected to the tip side is inserted from the open end of the nozzle cover 3. insert. As shown in FIG. 12D, by disposing the distal end side extension part 425 of the introduction side flow path forming part 42 in the lower gap Sa, the distal end of the distal side extending part 425 of the introduction side flow path forming part 42 The side locking protrusion 427 is locked in the water discharge side locking recess 417 of the water discharge side channel configuration section 41A.

On the rear side of the introduction side flow path forming part 42, the flange part 426 of the introduction side flow path forming part 42 is in a state where the circumferential positioning convex part 426a is engaged with the circumferential positioning recess 382 of the nozzle cover 3 at the upper part. The nozzle cover 3 is firmly fixed to the nozzle cover 3 by adhesive at the reference surface 381 formed on the rear end side of the nozzle cover 3.

In this state, at the end of the open side of the nozzle cover 3A, the inlet side flow path forming part 42 is fixed to the nozzle cover 3A by at least one of adhesion and press fitting, and the inlet side flow path forming part 42 and the inlet side flow path forming part 41A are fixed to the nozzle cover 3A by at least one of adhesion and press fitting. It is integrated with the side flow path constituting portion 42 so as not to be separated from each other in the axial direction. Thereby, as shown in FIG. 12D, the water discharge side flow path configuration part 41A, the introduction side flow path configuration part 42, and the connecting pipe 43 can be attached to the inside of the nozzle cover 3 while being positioned in the axial direction. Thereafter, the rod-shaped jig J is removed from the lower surface locking recess 418 in a state in which the water discharge side flow path configuration section 41A, the introduction side flow path configuration section 42, and the connecting pipe 43 are positioned in the axial direction.

According to the second embodiment, as in the first embodiment, since the introduction side flow path configuration part 42 is locked to the water discharge side flow path configuration part 41A, the water discharge side flow path configuration part 41A and the introduction side flow It is possible to stably fix the inlet side flow path structure 42 to the water discharge side flow path structure 41A by integrating the flow path structure 42 with the flow path structure 42 so as not to separate from each other in the axial direction. Thereby, the channel forming member 4 can be stably fixed inside the nozzle cover 3A. When removing the flow path forming member 4 from the nozzle cover 3A, it is possible to easily remove the flow path forming member 4A from the nozzle cover 3A by integrating the water discharge side flow path forming portion 41 and the introduction side flow path forming portion 42. can.

The preferred embodiments of the present disclosure have been described above. The present disclosure is not limited to the embodiments described above, and can be modified as appropriate.

For example, in the embodiment described above, the flow path forming member 4 is configured by three flow path forming parts (the water discharge side flow path forming part 41, the introduction side flow path forming part 42, and the connecting pipe 43). The present invention is not limited to this, and the flow path forming member 4 may be configured with two or four or more flow path forming parts.

In the embodiment, a plurality of channels F11, F12, F21, F22, F31, and F32 were formed in the channel forming member 4. However, the position, number, and length of the flow path are not limited thereto.

In the embodiment, two convex water spouting portions (first water spouting convex portion 414, second water spouting convex portion 415) are provided, and water spouting portion holes (first through hole 31, second through hole 32) are provided. We have set up two. However, it is not limited to this. For example, one or more convex water spouting portions may be provided, and one or three or more water spouting portion holes may be provided.

In the embodiment, the surface of the first water discharging convex portion 414 and the surface of the second water discharging convex portion 415 are arranged substantially flush with the surface of the nozzle cover 3 or are disposed so as to protrude from the surface of the nozzle cover 3. However, it is not limited to this. The surface of the first water discharging convex portion 414 and the surface of the second water discharging convex portion 415 may be arranged at positions recessed from the surface of the nozzle cover 3.

1 sanitary cleaning device, 2 nozzle, 3 nozzle cover, 4 channel forming member, 31 first through hole (nozzle cover side water spouting hole part), 32 second through hole (nozzle cover side water spouting hole part), 41 water spouting side flow Path configuration part (first flow path configuration part), 42 Introductory side flow path configuration part (second flow path configuration part), 414 First water discharge convex part (water discharge part), 414a First water discharge hole (flow path side water discharge hole part) ), 415 second water discharging convex part (water discharging part), 415a second water discharging hole (channel side water discharging hole part), 417 water discharging side locking recess (first locking part), 425 tip side extension part (gap arrangement part ), 427 Tip-side locking protrusion (second locking part), Sa Lower gap (locking gap)

Claims (5)

A nozzle used in a sanitary cleaning device,
a nozzle cover having a nozzle cover side water discharge hole;
a first flow path configuration portion having a flow path side water spouting hole portion disposed inside the nozzle cover and communicating with the nozzle cover side water spouting hole portion;
a second flow path configuration section that is disposed on the rear side of the first flow path configuration section in the axial direction of the nozzle cover and is locked to the first flow path configuration section ;
The first flow path forming part is disposed toward the upper side inside the nozzle cover, and has a first locking part formed at a lower part,
The second passage forming part includes a gap arrangement part inserted into a locking gap between the lower part of the first passage forming part and the nozzle cover, and a gap arrangement part formed in the gap arrangement part and arranged in the first engagement part. A nozzle , comprising: a second locking part that is locked to the stopper . The nozzle according to claim 1, wherein the first flow path configuration part and the second flow path configuration part are locked in a state where mutual movement is restricted in an axial direction and a circumferential direction of the nozzle cover. The first flow path configuration portion has a convex water spouting portion having the flow path side water spouting hole portion,
The nozzle according to claim 1 or 2, wherein the water spouting section fits into the nozzle cover side water spouting hole. The nozzle according to any one of claims 1 to 3 , wherein the second flow path forming part is positioned in the axial direction of the nozzle cover at a reference position formed on the rear side of the nozzle cover. The nozzle according to claim 4 , wherein the second flow path forming part is fixed to the nozzle cover by at least one of adhesion and press-fitting.

Images