JP2023037792A - Water discharge device - Google Patents

Abstract

To reliably discharge remaining water.SOLUTION: A water discharge device 10 comprises a water discharge part 22, a water supply passage 59 for supplying water to the water discharge part 22, and a remaining water discharge valve 60 arranged at a position below the water discharge part 22 out of the water supply passage 59, and attachable/detachable to/from the water supply passage 59.SELECTED DRAWING: Figure 10

Description

TECHNICAL FIELD The present disclosure relates to a water discharging device.

Patent Literature 1 discloses a water discharging device in which lower ends of arms of a body shower are rotatably attached to both left and right outer surfaces of a housing of a main body of the device. Water supplied to the arm of the body shower is discharged from a nozzle provided on the arm. In this specification, hot water and cold water are collectively referred to as water.

JP 2021-112264 A

After using the body shower, some of the residual water in the arm is discharged from the nozzle. Since the nozzle is above the bottom of the arm, a small amount of water remains in the arm. Since the water in the arm cools down over time, cold water is discharged from the nozzle the next time the arm is used. As a countermeasure, it is conceivable to provide a residual water discharge valve in the water supply path to the arm. Maintenance is required to ensure that the residual water discharge valve functions properly.

The present disclosure has been made in view of the conventional situation described above, and aims to solve the problem of improving the maintainability of the residual water discharge valve.

The water discharging device of the present disclosure includes a water discharging section, a water supply channel that supplies water to the water discharging section, and a position lower than the water discharging section in the water supply channel, and is attachable to and detachable from the water supply channel. and a residual water discharge valve.

1 is an external perspective view of a water discharger according to Embodiment 1. FIG. Partially enlarged perspective view showing the internal structure of the water discharger with the cover removed Front sectional view of the shower selector valve with the handle in the initial position Side sectional view of the shower selector valve with the handle in the initial position Front sectional view of the shower selector valve with the handle in the operating position Side sectional view of the shower selector valve with the handle in the operating position Partially enlarged cross-sectional view showing the open state of the residual water discharge valve AA line sectional view of FIG. Partially enlarged cross-sectional view showing the closed state of the residual water discharge valve Perspective view of a state in which the residual water discharge valve and branch are removed from the bottom plate of the housing Disassembled perspective view of residual water discharge valve Perspective view showing the shape of the taxiway

<Embodiment 1>
The water discharging device 10 of Embodiment 1 embodying the present disclosure is arranged so that the back surface (not shown) of the water discharging device 10 overlaps the wall surface (not shown) of the bathroom, and is used in a state of being attached to the wall surface. When the water discharging device 10 is attached to the wall surface, the front face F of the water discharging device 10 is parallel to the wall surface. The direction of the water discharging device 10 is defined with the water discharging device 10 attached to the wall surface. The front-rear direction is a direction perpendicular to the wall surface, with the front F side of the water discharging device 10 (positive direction of the X axis in FIGS. The back side is defined as rear. The front-rear direction and the depth direction are used synonymously. Regarding the vertical direction, the ceiling side of the bathroom (positive direction of the Z axis in FIGS. 1 to 12) is defined as the upper side, and the floor side of the bathroom is defined as the lower side. Regarding the left and right direction, when the user faces the front face F of the water discharging device 10 in the bathroom, the user's right side (the positive direction side of the Y axis in FIGS. 1 to 3, 5, 7, 9 to 12). is defined as the right side and the user's left side as the left side. The left-right direction and the width direction are used synonymously.

<Summary of Water Discharge Device 10>
As shown in FIG. 1 , the water discharging device 10 includes a device main body 11 , one hand shower 16 and a pair of left and right body showers 20 . The device main body 11 has a shower switching valve 30 , a handle 48 and a residual water discharge valve 60 . A housing 12 of the apparatus main body 11 has a rectangular shape as a whole. The front view shape of the housing 12 is a rectangle whose vertical height dimension is larger than its horizontal width dimension. The depth dimension of the housing 12 in the front-rear direction is smaller than the width dimension. The housing 12 has a box-shaped body 28 with an open front and a cover 29 . The cover 29 closes the front opening of the box-shaped main body 28 and functions as a front panel constituting the front surface (outer surface) of the housing 12 . A mirror is attached to the front surface of the cover 29 . The cover 29 can be attached to and detached from the box-shaped main body 28 .

As shown in FIG. 2, the bottom plate portion 13 forming the box-shaped body portion 28 of the housing 12 is provided with the faucet connecting portion 14 . The faucet connecting portion 14 is arranged to the left of the center of the bottom plate portion 13 of the housing 12 in the left-right direction. A water supply hose (not shown) extending from a faucet main body (not shown) is connected to the faucet connecting portion 14 . The faucet main body has a water flow rate adjusting function part, a water temperature adjusting function part, a faucet, and a water flow path switching valve. The channel switching valve switches between a water discharge mode from the faucet and a water discharge mode from the water discharging device 10 . In the first embodiment, hot water and cold water are collectively referred to as water.

A shower connection portion 15 is provided on the bottom plate portion 13 of the housing 12 . The shower connection portion 15 is arranged to the right of the center of the bottom plate portion 13 of the housing 12 in the left-right direction. An upstream end of a shower hose 17 of a hand shower 16 is connected to the shower connection portion 15 . A shower head 18 is connected to the downstream end of the shower hose 17 .

As shown in FIGS. 1 and 2, the pair of left and right body showers 20 has a pair of left and right arms 21, a pair of left and right balancers 26, and a pair of left and right braking mechanisms (not shown). A plurality of water discharge portions 22 are provided on the arm 21 . The plurality of water discharge portions 22 are arranged at intervals along the length direction of the arm 21 . A water passage (not shown) is formed in the arm 21 from the proximal end 23 to the distal end 24 of the arm 21 . A plurality of water discharge parts 22 are in communication with the water passage.

A base end portion 23 of the arm 21 is supported by the lower end portion of the outer surface of the housing 12 . The arm 21 rotates between a retracted position (see the imaginary line in FIG. 1 and FIG. 2) and a use position (see the solid line in FIG. 1) about a left-right imaginary axis 25 passing through the base end 23. It is possible. The arm 21 at the retracted position takes a standing posture with the distal end portion 24 of the arm 21 facing directly upward, and is arranged along the outer surface of the housing 12 . The arm 21 at the use position assumes a posture in which the arm 21 protrudes obliquely upward and forward from the base end portion 23 .

The balancer 26 consists of a torsion spring arranged so as to surround the virtual axis 25 and reduces the downward moment caused by the weight of the arm 21 itself. When the arm 21 is displaced from the use position to the retracted position, the elastic force of the balancer 26 reduces the operating force applied to the arm 21 . The braking mechanism has a disc spring. The braking mechanism controls the rotational movement of the arm 21 by frictional resistance caused by the elasticity of the disc spring. The braking force of the braking mechanism can hold the arm 21 at any position between the retracted position and the use position.

<Shower switching valve 30 and handle 48>
As shown in FIGS. 3-6, the shower selector valve 30 is located at the lower end within the box-shaped body 28 of the housing 12 . The attachment and detachment of the shower switching valve 30 with respect to the housing 12 is performed with the cover 29 removed from the box-shaped main body 28 . The shower switching valve 30 has a cylindrical valve body 31 with its axis directed vertically, and a vertically elongated valve stem 34 . FIG. 3 is a sectional view of the shower switching valve 30 cut parallel to the front face F of the water discharge device 10 and viewed from the front face F side of the water discharge device 10 in a state where the handle 48, which will be described later, is in the initial position. FIG. 4 is a cross-sectional view of the shower switching valve 30 cut along a vertical plane perpendicular to the front face F of the water discharging device 10 with the handle 48 at the initial position. FIG. 5 is a cross-sectional view of the shower switching valve 30 cut parallel to the front face F of the water discharging device 10 and viewed from the front face F side of the water discharging device 10 with the handle 48 at the operating position. FIG. 6 is a cross-sectional view of the shower switching valve 30 cut along a vertical plane perpendicular to the front face F of the water discharging device 10 when the handle 48 is in the operating position.

An upper valve seat 32 and a lower valve seat 33 located below the upper valve seat 32 are provided inside the valve box 31 . A disk 35 formed integrally with the valve stem 34 is accommodated in the valve body 31 and moves up and down between the upper valve seat 32 and the lower valve seat 33 . A lower end portion of the valve stem 34 extends downward from the valve body 31 . An inlet 36 is formed in the valve box 31 at a height between the upper valve seat 32 and the lower valve seat 33 . A downstream end of a shower water supply pipe 37 extending from the faucet connecting portion 14 is connected to the inlet 36 .

A hand shower outlet 38 is formed at a position above the upper valve seat 32 in the valve box 31 . An upstream end of a hand shower pipe 39 is connected to the hand shower outlet 38 . The downstream end of the hand shower pipe 39 is connected to the shower connector 15 . A body shower outlet 40 is formed at a position below the lower valve seat 33 in the valve box 31 . An upstream end of a curved body shower pipe 41 is connected to the body shower outlet 40 . A portion of the body shower pipe 41 on the upstream end side is constituted by an upper pipe 42 having a U shape in plan view. A portion on the downstream side of the body shower pipe 41 is configured by a lower pipe 43 extending downward from the downstream end of the upper pipe 42 .

As shown in FIGS. 1 and 7 to 9, a branch member 44 is attached to the downstream end of the body shower pipe 41. As shown in FIGS. As shown in FIG. 10, the branching member 44 has a tubular connecting portion 45 with its axis directed vertically, and a tubular branching portion 46 protruding from the lower end of the tubular connecting portion 45 in the horizontal direction. It is a part. The cylindrical connecting portion 45 is coaxially connected to the downstream end of the body shower pipe 41 . As shown in FIGS. 7 and 9, upstream ends of a pair of left and right branch pipes 47 are connected to the left and right tubular branch portions 46 . One branch pipe 47 horizontally extends rightward from the branch member 44 . The other branch pipe 47 extends horizontally leftward from the branch member 44 . The downstream end of each branch pipe 47 is connected to the base end portion 23 of each arm 21 and communicates with the upstream end of the water passage in the arm 21 . The upstream end of the water conduit is located at the lowest end of the water conduit regardless of whether the body shower 20 is in the use position or the retracted position. The water discharger 22 is arranged with a gap between the upstream end and the downstream end of the water conduit.

When the valve stem 34 rises and the disc 35 abuts against the upper valve seat 32, the inlet 36 and the body shower outlet 40 communicate with each other, and water can be supplied from the shower switching valve 30 to the body shower 20. Become. This state is defined as a water supply mode to the body shower 20 in the shower switching valve 30 . When the valve stem 34 is lowered and the disc 35 is in contact with the lower valve seat 33, the inflow port 36 and the hand shower outflow port 38 communicate with each other, and water can be supplied from the shower switching valve 30 to the hand shower 16. Become. This state is defined as a water supply mode for the hand shower 16 in the shower switching valve 30 .

The handle 48 can be operated between an initial position (see FIGS. 2 and 4) and an operating position (see FIG. 6) about a horizontal rotating shaft 49. As shown in FIG. The lower end of the valve stem 34 and the handle 48 are connected by a plurality of connecting members 50 so as to move in unison. The switching operation portion 51 of the handle 48 is always exposed below the housing 12 . When the handle 48 is at the initial position, the switching operation portion 51 projects forward in the horizontal direction. When the handle 48 is at the operation position, the switching operation portion 51 projects obliquely downward and forward.

When the handle 48 is rotated from the initial position to the operating position, as shown in FIGS. to the body shower 20 water supply mode. When the handle 48 is rotated from the operating position to the initial position, as shown in FIGS. is switched from the water supply mode to the water supply mode for the hand shower 16.

As shown in FIGS. 4 and 6, the valve stem 34, the handle 48, and the connecting member 50 constitute an interlocking member 52. As shown in FIGS. The center of gravity of the interlocking member 52 is located behind the rotation shaft 49 regardless of whether the handle 48 is at the initial position or the operating position. Due to the moment (rotational torque) due to the weight of the interlocking member 52, the steering wheel 48 always receives a rotational force in the direction from the operating position to the initial position.

<Residual water discharge valve 60 and guideway 85>
The residual water discharge valve 60 is provided in the water supply passage 59 for supplying water to the body shower 20 . The water supply passage 59 is composed of the body shower outlet 40 of the shower switching valve 30, the body shower pipe 41, the branch member 44, the branch pipe 47, and the water passage (not shown) of the arm 21. . The body shower pipe 41 , the branch member 44 and the branch pipe 47 of the water supply channel 59 are housed inside the housing 12 . A residual water discharge valve 60 is also housed inside the housing 12 . The residual water discharge valve 60 is a normally open on-off valve that communicates with the water supply passage 59 . The residual water discharge valve 60 is attached to the branch member 44 that constitutes the lowest portion of the water supply passage 59 . During water supply to the body shower 20, the residual water discharge valve 60 is kept closed. When the water supply to the body shower 20 stops, the residual water discharge valve 60 returns to the open state, and the residual water in the water supply passage 59 is discharged from the residual water discharge valve 60 .

As shown in FIGS. 7 to 10, the branching member 44 is integrally formed with a cylindrical connecting portion 45 and a cylindrical mounting portion 55 coaxially therewith. FIG. 7 is a sectional view of the branch member 44 and the open residual water discharge valve 60 cut parallel to the front face F of the water discharging device 10 and viewed from the front face F side of the water discharging device 10 . FIG. 8 is a cross-sectional view of the branch member 44 and the open residual water discharge valve 60 taken along a vertical plane perpendicular to the front face F of the water discharging device 10. As shown in FIG. FIG. 9 is a cross-sectional view of the branch member 44 and the closed residual water discharge valve 60 cut parallel to the front face F of the water discharging device 10 and viewed from the front face F side of the water discharging device 10 .

The tubular attachment portion 55 is arranged below the lower end of the tubular connection portion 45 and the tubular branch portion 46 and protrudes downward. A valve-opening stopper 56 is formed at the upper end of the inner space of the tubular mounting portion 55 . In a plan view of the branch member 44 from above, the valve-opening stopper 56 has a cross shape. The four spaces partitioned by the inner peripheral surface of the tubular mounting portion 55 and the valve-opening stopper 56 function as communication holes 57 having a quadrant-arc shape in plan view. A female screw portion 58 is formed in a region below the valve-opening stopper 56 on the inner peripheral surface of the tubular mounting portion 55 . The residual water discharge valve 60 is attached to the tubular attachment portion 55 .

The residual water discharge valve 60 is constructed by assembling components including a housing 61 , a valve body 75 and a spring member 82 . The housing 61 is a single synthetic resin component having a valve body 62 , a lid member 63 , and a pair of connecting portions 64 . The valve body 62 has a cylindrical shape with its axis directed vertically. A male threaded portion 65 is formed on the outer peripheral surface of the valve body 62 to be screwed into the female threaded portion 58 of the tubular mounting portion 55 . A first seal ring 66 is attached to the outer peripheral surface of the valve body 62 to seal between the valve body 62 and the cylindrical attachment portion 55 in a liquid-tight manner.

Inside the valve body 62 , a valve passage 67 having a circular cross section and concentric with the valve body 62 is formed. The upper end of the valve passage 67 opens to the upper surface of the valve body 62 . A circular valve seat 68 concentric with the valve body 62 is formed on the inner peripheral surface of the valve passage 67 . The valve seat 68 is arranged at a position lower than the lowest position in the water supply passage 59 (the lower end of the cylindrical connecting portion 45 of the branch member 44). A wall-shaped spring receiving portion 69 is formed at the lower end of the valve body 62 so as to cover the lower end of the valve passage 67 from below. A drain hole 70 is formed in the central portion of the spring receiving portion 69 to allow communication between the inside of the valve passage 67 and the outer lower space of the valve body 62 .

The lid member 63 has a disc shape with its axis directed vertically and coaxially with the valve body 62 . The minimum outer diameter dimension of the lid member 63 is larger than the maximum outer diameter dimension of the valve body 62 . The lid member 63 is positioned below the valve body 62 . The lid member 63 opens and closes the circular attachment/detachment opening 19 formed in the bottom plate portion 13 of the housing 12 . The attachment/detachment opening 19 penetrates the bottom plate portion 13 in the vertical direction and opens to the bottom surface 27 of the bottom plate portion 13 of the housing 12 . A second seal ring 72 is attached to the outer peripheral surface of the lid member 63 to seal between the lid member 63 and the attachment/detachment opening 19 in a liquid-tight manner.

An attachment/detachment operation portion 73 is formed on the lid member 63 . The attachment/detachment operation portion 73 has a groove shape and is opened in a slit shape at the lower end surface of the lid member 63 . In a cross section obtained by cutting the lid member 63 along a vertical plane parallel to the slit, the cross-sectional shape of the attachment/detachment operating portion 73 is arcuate. The radius of curvature of the arc is the same dimension as the radius of curvature of the coin.

A pair of connecting portions 64 are horizontally spaced apart and connect the lower end portion of the valve body 62 and the upper end portion of the lid member 63 . A space between the pair of connecting portions 64 functions as a water passage space 74 . The water passage space 74 allows the drain hole 70 of the valve body 62 and the outer peripheral surface of the housing 61 to communicate with each other.

The valve body 75 is a single component having a circular body portion 76 concentric with the valve body 62 and a pair of hook portions 77 protruding downward from the lower end surface of the body portion 76 . A third seal ring 78 is attached to the outer peripheral surface of the body portion 76 so as to be in liquid-tight contact with the valve seat 68 . A spring contact portion 79 is formed on the lower surface of the body portion 76 . A retainer projection 80 projecting outward is formed at the lower end of the hook portion 77 . The valve body 75 is attached to the housing 61 . When the valve body 75 is attached to the housing 61 , the body portion 76 is accommodated within the valve passage 67 . A pair of hooks 77 penetrates the drain hole 70 . The retaining projection 80 is arranged in the water passage space 74 below the drain hole 70 .

The spring member 82 is composed of a compression coil spring with its axis directed vertically. The spring member 82 is accommodated in the valve passage 67 with its axis directed coaxially with the valve body 62 . The spring member 82 is elastically compressed in the vertical direction between the spring receiving portion 69 and the spring contact portion 79 . Due to the elastic restoring force of the spring member 82 , the valve body 75 is always given an upward force, that is, a force in the valve-opening direction.

When the residual water discharge valve 60 is not attached to the water supply passage 59 , the third seal ring 78 of the valve body 75 is separated upward from the valve seat 68 by the force applied by the spring member 82 . Due to the elastic restoring force of the spring member 82 , the retainer projection 80 is hooked on the opening edge of the drain hole 70 on the lower surface of the spring receiving portion 69 . The valve body 75 is held in a state in which it does not come off from the housing 61 by the retaining projection 80 being caught by the spring receiving portion 69 .

The residual water discharge valve 60 can be attached to and detached from the water supply passage 59 while the cover 29 is attached to the box-shaped main body 28 . When attaching the residual water discharge valve 60 to the water supply passage 59 , the residual water discharge valve 60 is inserted into the attachment/detachment opening 19 from below the housing 12 , and the male screw portion 65 of the valve body 62 is inserted into the female screw of the branch member 44 . It is screwed onto the portion 58 and tightened. When tightening, a coin may be fitted into the attachment/detachment operation portion 73 to apply a rotational force to the lid member 63 . When the residual water discharge valve 60 is attached to the water supply passage 59, the valve body 62 is accommodated inside the cylindrical attachment portion 55 of the branch member 44, and the lid member 63 is attached to the attachment/detachment opening 19 of the bottom plate portion 13. . When the residual water discharge valve 60 is assembled to the water supply passage 59 and the bottom plate portion 13, the lower end surface of the lid member 63 is positioned at the same height as the bottom surface 27 of the housing 12 (the bottom surface of the bottom plate portion 13).

When the valve body 62 is assembled to the branch member 44 , the valve opening stopper 56 is positioned above the valve body 75 . The valve body 75 is vertically movable within the valve passage 67 . When the water supply passage 59 is not supplied with water, the valve body 75 is lifted by the force applied from the spring member 82 . The raised valve body 75 is separated from the valve seat 68 and hits the valve-opening stopper 56 from below. The residual water discharge valve 60 is kept open. A radial gap is secured between the outer peripheral surface of the valve body 75 and the inner peripheral surface of the valve passage 67 , and the inside of the water supply passage 59 communicates with the drain hole 70 .

The attachment/detachment opening 19 is liquid-tightly closed by the lid member 63 . The upper surface of the lid member 63 and the water passage space 74 constitute a guide path 85 for discharging residual water in the water supply path 59 to the outside of the housing 12 . A water supply passage 59 communicates with the guide passage 85 through the valve passage 67 and the drain hole 70 . As shown in FIGS. 7, 9 and 12, the guiding path 85 is formed on the upper surface of the bottom plate portion 13. As shown in FIGS. The guide path 85 guides residual water that has flowed down from the drain hole 70 to the upper surface of the lid member 63 to a pair of left and right drain ports 86 . The guide path 85 is a groove-shaped portion partitioned by a partition wall portion 87 formed on the upper surface of the bottom plate portion 13 . The guiding path 85 is inclined so as to gradually decrease from the upper surface of the lid member 63 to the drain port 86 . A pair of drain ports 86 vertically penetrate the bottom plate portion 13 and open to the bottom surface 27 of the housing 12 . As shown in FIG. 12, the pair of drain ports 86 are arranged at both left and right ends of the housing 12 in the left-right direction. The pair of drain ports 86 are formed at the rear edge of the bottom plate portion 13 in the front-rear direction.

<Usage form of water discharging device 10>
In a water stop state in which water is not supplied to the shower switching valve 30 and water supply pressure does not act on the disk 35 , the steering wheel 48 is held at the initial position by the moment caused by the weight of the interlocking member 52 . The shower switching valve 30 is kept in the water supply mode for the hand shower 16 . Since the water supply pressure does not act on the valve body 75 of the residual water discharge valve 60, the valve body 75 is separated from the valve seat 68 by the force applied by the spring member 82 in the valve opening direction, and the residual water discharge valve 60 is opened. state.

When using the body shower 20 from the water stop state, water supply to the shower switching valve 30 is started from the faucet main body while the handle 48 remains in the initial position. The water supplied to the shower switching valve 30 is discharged from the shower head 18 via the hand shower pipe 39 and the shower hose 17 . The user can adjust the temperature and flow rate of the water while preventing the body from being sprayed with water from the shower head 18 .

After adjusting the temperature and flow rate of the water, while maintaining the water discharge state from the hand shower 16, the switching operation portion 51 is pushed down to rotate the handle 48 from the initial position to the operation position. When the handle 48 is rotated to the operating position, the shower switching valve 30 switches to the water supply mode for the body shower 20 and water is discharged from the water discharge section 22 of the body shower 20 through the water supply path 59 .

When water is being discharged from the body shower 20, water pressure acts on the upper surface of the valve body 75 of the residual water discharge valve 60, so that the valve body 75 resists the force applied by the spring member 82 in the valve opening direction. Move down. Since the third seal ring 78 comes into contact with the valve seat 68 as the valve body 75 descends, the residual water discharge valve 60 is held closed. The water in the water supply passage 59 is supplied to the body shower 20 without leaking from the residual water discharge valve 60 to the guide passage 85 .

When the water discharge from the body shower 20 is stopped, the water supply pressure acting on the valve body 75 of the residual water discharge valve 60 in the water supply passage 59 decreases, so that the valve body 75 is opened by the force applied by the spring member 82 in the valve opening direction. It is separated from the valve seat 68 and the residual water discharge valve 60 is opened. Since the residual water discharge valve 60 is arranged at the lowest position in the water supply passage 59, the residual water in the water supply passage 59 flows into the valve passage 67 from the communication hole 57 of the branch member 44 according to gravity. Residual water that has flowed into the valve passage 67 passes through the gap between the outer peripheral surface of the valve body 75 and the inner peripheral surface of the valve passage 67 and flows down into the water passage through the drain hole 70 . Residual water that has flowed down into the water passage passes through the guide passage 85 from the upper end surface of the lid member 63 and is discharged from the drain port 86 to the lower outside of the housing 12 . Residual water is discharged from the residual water discharge valve 60 in the same manner when the water supply to the shower switching valve 30 is stopped or when the water supply mode is switched from the body shower 20 to the hand shower 16. be.

When removing the residual water discharge valve 60 from the water supply passage 59 for maintenance or the like, insert a coin into the attachment/detachment operating portion 73, rotate the residual water discharge valve 60 in the direction opposite to that at the time of installation, and remove the female screw portion. The tightening of the male screw portion 65 to 58 is released. When the residual water discharge valve 60 is rotated to a certain degree, the lid member 63 protrudes downward from the bottom surface 27 of the housing 12 . After that, the cover member 63 may be picked up with fingers and rotated. The work of removing the residual water discharge valve 60 from the water supply passage 59 can be performed while the cover 29 of the housing 12 is attached to the box-shaped main body 28 .

<Effects of the water discharging device 10 of the first embodiment>
The water discharger 10 of Embodiment 1 includes a water discharger 22, a water supply channel 59 that supplies water to the water discharger 22, and a residual water discharge valve 60 arranged in the water supply channel 59 at a position lower than the water discharger 22. I have. When the water discharge from the water discharge unit 22 ends and the water supply pressure in the water supply passage 59 decreases, the remaining water discharge valve 60 opens to discharge the residual water in the water supply passage 59 . Since the residual water discharge valve 60 is arranged below the water discharger 22, the water between the water discharger 22 and the residual water discharge valve 60 can be discharged. Since the residual water discharge valve 60 is arranged at the lowest position in the water supply passage 59, the amount of residual water in the water supply passage 59 can be reduced.

The residual water discharge valve 60 can be attached to and detached from the water supply passage 59 . After removing the residual water discharge valve 60 from the water supply passage 59, the residual water discharge valve 60 can be disassembled and cleaned. The water discharging device 10 of Embodiment 1 is excellent in maintainability of the residual water discharge valve 60 . Foreign matter clogging the gap between the valve body 62 and the valve body 75 can also be removed without disassembling the residual water discharge valve 60 . Such maintenance can maintain the drainage function of the residual water discharge valve 60, so that the residual water in the water supply passage 59 can be reliably discharged.

The residual water discharge valve 60 closes when the water supply pressure in the water supply passage 59 rises and opens when the water supply pressure in the water supply passage 59 decreases. Since the valve-open state and the valve-closed state are automatically switched according to the water supply pressure in the water supply passage 59, manual opening/closing operation of the residual water discharge valve 60 is unnecessary.

The residual water drain valve 60 has a valve body 62 having a valve seat 68, a valve body 75, and a spring member 82 that applies force to the valve body 75 in the valve opening direction. The valve body 75 is accommodated in the valve body 62 so as to face the water supply passage 59 . The valve body 75 contacts the valve seat 68 and closes the residual water discharge valve 60 by receiving the water supply pressure in the water supply passage 59 . The contact of the valve body 75 with the valve seat 68 is performed via the third seal ring 78 . In the first embodiment, the form in which the valve element 75 contacts the valve seat 68 via the third seal ring 78 is defined as the valve element 75 contacting the valve seat 68 .

When the water supply pressure in the water supply passage 59 rises, the valve body 75 comes into contact with the valve seat 68 and the residual water discharge valve 60 is closed. No water leaks from 60. When the water pressure in the water supply passage 59 is lowered by stopping the water supply to the water discharger 22, the valve element 75 is separated from the valve seat 68 by the force applied by the spring member 82, and the residual water discharge valve 60 is opened. switch to Residual water in the water supply passage 59 passes through the valve body 62 and is discharged.

When the residual water discharge valve 60 is removed from the water supply passage 59 and the housing 12, the valve body 62, the valve body 75 and the spring member 82 are kept assembled. According to this configuration, when removing the residual water discharge valve 60 from the water supply passage 59, it is not necessary to remove the valve body 62, the valve body 75, and the spring member 82 separately. When attaching the residual water discharge valve 60 to the water supply passage 59, it is not necessary to assemble the valve body 62, the valve body 75 and the spring member 82 separately. Therefore, the workability of attaching/detaching the residual water discharge valve 60 to/from the water supply passage 59 is good.

The spring member 82 is arranged between the spring receiving portion 69 of the valve body 62 and the spring contact portion 79 of the valve body 75 . The valve body 75 is formed with a hooking portion 77 that is hooked to the valve body 62 by force applied from the spring member 82 in the valve opening direction. According to this configuration, a dedicated part for holding the valve body 62, the valve body 75, and the spring member 82 in an assembled state is unnecessary, so the number of parts can be reduced.

The water supply passage 59 and residual water discharge valve 60 are housed within the housing 12 . The housing 12 includes a cover 29 that constitutes the outer surface (front) of the housing 12 . When the cover 29 is removed from the box-shaped main body 28, the remaining water discharge valve 60 can be seen from the front. The space for moving the residual water discharge valve 60 when the residual water discharge valve 60 is attached to or detached from the water supply passage 59 is the space below and behind the cover 29 attached to the box-shaped main body 28. . That is, the cover 29 is arranged at a position out of the moving path of the residual water discharge valve 60 with respect to the water supply passage 59 . The residual water discharge valve 60 can be attached and detached while the cover 29 is attached to the box-shaped main body 28 of the housing 12 . The bottom plate portion 13 of the housing 12 is formed with an attachment/detachment opening 19 for attaching and detaching the residual water discharge valve 60 . According to this configuration, the residual water discharge valve 60 housed in the housing 12 can be attached and detached at the attachment/detachment port 19 . The attachment/detachment opening 19 opens in the bottom surface 27 of the housing 12 . The water discharger 10 of Embodiment 1 is superior in design compared to the case where the attachment/detachment opening 19 is formed on the front surface or the side surface of the housing 12 .

A rotatable arm 21 is attached to the housing 12 . The water discharger 22 is provided on the arm 21 . The residual water discharge valve 60 is provided only on the housing 12 and is not provided on the arm 21 . According to this configuration, since the residual water discharge valve 60 is not provided on the rotatable arm 21, the state of discharging water from the residual water discharge valve 60 is stable regardless of the rotational posture of the arm 21.

The residual water discharge valve 60 has a lid member 63 that opens and closes the attachment/detachment port 19 . Since the attachment/detachment opening 19 can be closed by the cover member 63 , foreign matter can be prevented from entering the housing 12 through the attachment/detachment opening 19 . A guide path 85 for guiding water discharged from the residual water discharge valve 60 to a drain port 86 is formed on the upper surface of the bottom plate portion 13 of the housing 12 . The attachment/detachment opening 19 is formed in the guide path 85 . When the guide path 85 is closed by the cover member 63 , the water discharged from the residual water discharge valve 60 can be prevented from flowing down from the attachment/detachment opening 19 .

The lid member 63 is formed integrally with the valve body 62 of the residual water discharge valve 60 . The valve body 62 is part of a housing 61 that constitutes the residual water discharge valve 60 . The valve body 62 is a member that is directly assembled to the branch member 44 that constitutes the water supply passage 59 . According to this configuration, the operation of opening and closing the cover member 63 with respect to the attachment/detachment port 19 and the operation of attaching and detaching the residual water discharge valve 60 with respect to the water supply passage 59 can be performed with one action, so workability is excellent.

<Other embodiments>
The present disclosure is not limited to the embodiments described by the above description and drawings, and the following embodiments are also included in the technical scope of the present disclosure.

Residual water discharge valve: The residual water discharge valve may be placed at a position other than the lowest position in the water supply channel. The opening and closing of the residual water discharge valve may be switched manually. At least one of the valve body, the valve body, and the spring member may be separated from the other members when the residual water discharge valve is removed from the water supply passage. The residual water discharge valve may be provided in a state of being exposed to the outside of the housing. A residual water discharge valve may be attached to the arm. The lid member and the valve body of the residual water discharge valve may be separate members.

Attachment/detachment opening: The attachment/detachment opening may be opened on the front or side of the housing. The attachment/detachment opening may be left open without being closed by the cover member. The attachment/detachment opening may be formed in a portion other than the guideway.

DESCRIPTION OF SYMBOLS 10... Water discharger, 12... Housing, 13... Bottom plate part, 19... Detachable port, 21... Arm, 22... Water discharge part, 27... Bottom surface, 29... Cover, 59... Water supply path, 60... Residual water discharge valve, 62 ... Valve body 63 ... Lid member 68 ... Valve seat 69 ... Spring receiving part 75 ... Valve body 77 ... Hook part 82 ... Spring member 85 ... Guide path 86 ... Drain port

Claims (13)

a water discharge section;
a water supply channel that supplies water to the water discharge section;
A water discharger provided with a residual water discharge valve which is arranged at a position below the water discharge part in the water supply channel and which is attachable to and detachable from the water supply channel. 2. The water discharging device according to claim 1, wherein said residual water discharge valve is arranged at the lowest position in said water supply passage. The water discharge according to any one of claims 1 and 2, wherein the residual water discharge valve is closed by an increase in water supply pressure in the water supply passage and opened by a decrease in water supply pressure in the water supply passage. Device. The residual water discharge valve includes a valve body having a valve seat,
a valve body that is housed in the valve body facing the water supply passage and receives water supply pressure in the water supply passage to contact the valve seat and close the residual water discharge valve;
The water discharging device according to any one of claims 1 to 3, further comprising a spring member that applies a force in a valve-opening direction to the valve body. 5. The water discharging device according to claim 4, wherein the valve body, the valve body, and the spring member are held in an assembled state when the residual water discharge valve is removed from the water supply passage. The spring member is arranged between the spring receiving portion of the valve body and the valve body,
6. The water discharging device according to claim 5, wherein the valve body is formed with a hook portion that is hooked to the valve body by force applied from the spring member. The water supply path and the residual water discharge valve are housed in a housing,
The water discharging device according to any one of claims 1 to 6, wherein an attachment/detachment opening for attaching and detaching the residual water discharge valve is formed in the housing. The housing includes a cover that forms an outer surface of the housing,
8. The water discharger according to claim 7, wherein attachment and detachment of said residual water discharge valve with respect to said water supply path can be performed in a state in which said cover is attached to said housing. The water discharging device according to any one of claims 7 and 8, wherein the attachment/detachment port opens in the bottom surface of the housing. A rotatable arm is attached to the housing,
the water discharge part is provided on the arm,
The water discharging device according to any one of claims 7 to 9, wherein the residual water discharge valve is provided only on the housing. The water discharging device according to any one of claims 7 to 10, further comprising a lid member that opens and closes the attachment/detachment opening. 12. The water discharging device according to claim 11, wherein the lid member is formed integrally with the residual water discharge valve. A guide path for guiding water discharged from the residual water discharge valve to a drain port is formed on the upper surface of the bottom plate portion of the housing,
The water discharging device according to any one of claims 7 to 12, wherein the attachment/detachment opening is formed in the guideway.

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