JP2023023017A - Water discharge device - Google Patents

Abstract

To provide a water discharge device capable of discharging residual water.SOLUTION: A water discharge device A comprises: a body shower 20 that has a water discharge part 22; a water supply channel 68 that supplies water to the water discharge part 22; and a residual water discharge valve 70 that is arranged at a position below the water discharge part 22 in the water supply channel 68 and opens when water supply pressure in the water supply channel 68 decreases.SELECTED DRAWING: Figure 7

Description

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

Patent Literature 1 discloses a shower device in which a mixer tap is arranged at the upper end of a device body, and upper ends of arm-type showers are rotatably attached to left and right side edges of the device body. A mixer tap is a faucet that can mix hot water and cold water. In this specification, hot water and cold water are collectively referred to as water. Water is supplied to the arm-type shower from the mixer tap and discharged from the nozzle.

JP 2015-52357 A

After using the arm-type shower, residual water in the arm-type shower is discharged from the nozzle. Since the nozzle is positioned above the bottom of the arm-type shower, a small amount of water remains in the arm-type shower. Since the water in the arm-type shower cools over time, cold water is discharged from the nozzle the next time the shower is used.

The present disclosure has been made in view of the above conventional circumstances, and aims to solve the problem of discharging residual water.

A water discharger of the present disclosure includes a body shower having a water discharge portion, a water supply passage for supplying water to the water discharge portion, and a water supply passage disposed at a position below the water discharge portion in the water supply passage. and a residual water discharge valve that opens when the water pressure drops.

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 discharging device 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 structure of the residual water discharge valve Perspective view showing the structure of the taxiway Partially enlarged side cross-sectional view showing the structure of the drain Exploded perspective view of interlocking member Side view showing the position of the center of gravity of the interlocking member when the handle is in the initial position Side view showing the position of the center of gravity of the interlocking member when the handle is in the operating position

<Embodiment 1>
As shown in FIG. 9, the water discharging device A of Embodiment 1 embodying the present disclosure is arranged so that the back surface R of the water discharging device A overlaps the wall surface W of the bathroom, and is used in a state of being attached to the wall surface W. be. FIG. 9 is a cross-sectional view of the side edge of the water discharger A cut perpendicular to the wall surface W, showing the structure of a guideway 80 and a drain port 83, which will be described later. The direction of the water discharging device A is defined in a state where the water discharging device A is attached to the wall surface W. As shown in FIG. The front-rear direction is a direction orthogonal to the wall surface W, with the front F side of the water discharging device A (positive direction of the X axis in FIGS. Define the R side as rearward. 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 discharge device A in the bathroom, the user's right side (the positive direction side of the Y axis in FIGS. 1 to 3, 5, 7, 8, and 10) 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.

<Overview of Water Discharge Device A>
As shown in FIG. 1, the water discharger A includes a device main body 10, one hand shower 15, and a pair of left and right body showers 20. As shown in FIG. The device main body 10 has a housing 11 , a shower switching valve 30 , a handle 52 and a residual water discharge valve 70 . The housing 11 has a rectangular shape as a whole. The front view F shape of the housing 11 forms a rectangle whose height dimension in the vertical direction is larger than the width dimension in the horizontal direction. The depth dimension of the housing 11 in the front-rear direction is smaller than the width dimension.

As shown in FIG. 2 , a faucet connector 13 is provided on the bottom surface 12 of the housing 11 . The faucet connecting portion 13 is arranged on the left side of the center of the bottom surface 12 of the housing 11 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 13 . 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 discharger A.

As shown in FIG. 2, the bottom surface 12 of the housing 11 is provided with a shower connector 14 . The shower connection portion 14 is arranged to the right of the center in the left-right direction on the bottom surface 12 of the housing 11 . An upstream end of a shower hose 16 (see FIG. 1) of a hand shower 15 is connected to the shower connection portion 14 . A shower head 17 is connected to the downstream end of the shower hose 16 . A head holding portion 18 for holding the shower head 17 is attached to the wall surface W. As shown in FIG.

The pair of left and right body showers 20 has a pair of left and right arms 21 (see FIG. 1), a pair of left and right balancers 26 (see FIG. 2), 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 a lower end portion of the outer surface of the housing 11 . The arm 21 is vertically rotatable about a left-right imaginary axis 25 passing through the base end 23 between a retracted position indicated by an imaginary line in FIG. 1 and a use position indicated by a solid line in FIG. be. 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 11 . 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 imparts rotational elasticity to the arm 21 . The downward moment caused by the weight of the arm 21 is reduced by the elastic rotational force of the balancer 26 . 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>
The shower switching valve 30 is arranged at the lower end of the housing 11 in the vertical direction, and is arranged in the center of the housing 11 in the horizontal direction. As shown in FIG. 2 , a box-shaped bracket 31 is fixed to the upper surface of the bottom plate portion 19 of the housing 11 . The shower switching valve 30 is fixed while being placed on the upper surface of the bracket 31 .

As shown in FIGS. 3 to 6, the shower switching valve 30 has a cylindrical valve body 32 with its axis directed vertically, a valve body 38, and a vertically elongated valve stem 39. As shown in FIGS. The valve box 32 is constructed by assembling a plurality of parts. A valve passage 33 extending vertically is formed in the valve box 32 . FIG. 3 is a cross-sectional view of the shower switching valve 30 cut parallel to the wall surface W and viewed from the front face F of the water discharger A in a state in which the handle 52, which will be described later, is in the initial position. FIG. 4 is a cross-sectional view of the shower switching valve 30 taken along a vertical plane perpendicular to the wall surface W with the handle 52 in the initial position. FIG. 5 is a cross-sectional view of the shower switching valve 30 cut parallel to the wall surface W and viewed from the front F side of the water discharger A with the handle 52 at the operating position. FIG. 6 is a cross-sectional view of the shower switching valve 30 taken along a vertical plane perpendicular to the wall surface W with the handle 52 at the operating position.

As shown in FIGS. 3 and 5, the valve box 32 is formed with an inflow port 34 communicating with the valve passage 33 . A downstream end of a shower water supply pipe 35 extending from the faucet connecting portion 13 is connected to the inlet 34 . An upper valve seat 36 located above the inflow port 34 and a lower valve seat 37 located below the inflow port 34 are provided in the valve passage 33 .

The valve body 38 is accommodated within the valve passage 33 . The valve body 38 moves up and down between the upper valve seat 36 and the lower valve seat 37 . The valve stem 39 moves vertically together with the valve element 38 . A lower end of the valve stem 39 extends downward from the valve box 32 . As shown in FIGS. 4 and 6, a connecting member 40 is fixed to the lower end of the valve stem 39 with a lock nut 41 . A connecting hole 42 is formed through the connecting member 40 in the front-rear direction. The connecting member 40 functions as a connecting portion on the valve body 38 side.

As shown in FIGS. 3 and 5, the valve box 32 is formed with a hand shower outlet 43 that communicates with a passage of the valve passage 33 downstream of the upper valve seat 36 . An upstream end of a hand shower pipe 44 is connected to the hand shower outlet 43 . A downstream end of the hand shower pipe 44 is connected to the shower connection portion 14 .

The valve box 32 is formed with a body shower outlet 45 that communicates with the flow path downstream of the lower valve seat 37 in the valve passage 33 . An upstream end of a curved body shower pipe 46 is connected to the body shower outlet 45 . As shown in FIG. 2, the upstream end portion of the body shower pipe 46 is constituted by an upper pipe 47 having a U-shaped plan view. A portion on the downstream side of the body shower pipe 46 is constituted by a lower pipe 48 extending downward from the downstream end of the upper pipe 47 .

As shown in FIGS. 2 and 7, a branch portion 49 is provided at the downstream end of the body shower pipe 46 . The branch portion 49 is located below the lower pipe 48 and arranged at the lower end portion inside the housing 11 . The upstream ends of a pair of left and right branch pipes 50 are connected to the branch portion 49 . One branch pipe 50 horizontally extends rightward from the branch portion 49 . The other branch pipe 50 extends horizontally leftward from the branch portion 49 . The downstream end of each branch pipe 50 is connected to the base end portion 23 of each arm 21 and communicates with the upstream end of the water passage within 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 body 38 is in contact with the upper valve seat 36 , the inflow port 34 and the body shower outflow port 45 communicate with each other, and water can be supplied from the shower switching valve 30 to the body shower 20 . This state is defined as a water supply mode to the body shower 20 in the shower switching valve 30 . When the valve body 38 is in contact with the lower valve seat 37 , the inflow port 34 and the hand shower outflow port 43 communicate with each other, and water can be supplied from the shower switching valve 30 to the hand shower 15 . This state is defined as a water supply mode for the hand shower 15 in the shower switching valve 30 . As the valve body 38 moves up and down, the shower switching valve 30 switches between a water supply mode for the body shower 20 and a water supply mode for the hand shower 15 .

<Handle 52>
As shown in FIG. 10 , the handle 52 includes a rotary shaft 53 , a handle body 54 , a support shaft 62 , a weight 63 and a connecting bar 64 . The rotating shaft 53 is supported by the bracket 31 with its axis oriented in the left-right direction. The handle 52 is rotatable between an initial position (see FIGS. 3, 4 and 11) and an operating position (see FIGS. 5, 6 and 12) with a rotating shaft 53 as a fulcrum. The rotation angle between the initial position and the operating position is approximately 45°. The direction in the following description of the handle 52 is based on the state where the handle 52 is in the initial position.

The handle body 54 is a single synthetic resin component having a base portion 55 , one operating portion 56 and a pair of protrusions 59 . In a side view of the handle 52 from the side, the base portion 55 forms an inverted triangle whose front-to-rear dimension decreases downward. The operating portion 56 has a base portion 57 projecting diagonally downward and forward from the base portion 55 and a finger hook portion 58 horizontally extending forward from the base portion 57 . The operation portion 56 has a shape projecting forward from the base portion 55 as a whole. The operation part 56 is located below the bottom surface 12 of the housing 11 regardless of whether the handle 52 is at the initial position or the operation position.

The pair of protrusions 59 protrude upward from the upper surface of the base portion 55 with a space therebetween in the left-right direction. Bearing holes 60 are formed in the front ends of the left and right protrusions 59 so as to pass through the protrusions 59 in the left-right direction. The rotating shaft 53 passes through the left and right bearing holes 60 . A support hole 61 is formed at the rear end of each of the left and right protrusions 59 at approximately the same height as the bearing hole 60 and penetrates the protrusion 59 in the left-right direction. A support shaft 62 passes through the left and right support holes 61 . A weight 63 made of metal is embedded in the upper end of the protrusion, that is, at a position above the bearing hole 60 and the support hole 61 . The weight 63 is arranged behind the rotating shaft 53 in the front-rear direction. The rotary shaft 53 , the support shaft 62 and the weight 63 are positioned above the operating portion 56 .

A connecting bar 64 elongated in the front-rear direction is arranged between the left and right protrusions 59 . A pair of through holes 65 are formed in the front and rear end portions of the connecting bar 64 so as to pass through the connecting bar 64 in the left-right direction. The rotary shaft 53 passes through the through hole 65 on the front side. The support shaft 62 passes through the through hole 65 on the rear side. The connecting bar 64 functions as a connecting portion on the handle 52 side.

When the handle 52 rotates from the initial position to the operating position, the operating portion 56 is displaced from the form projecting forward from the base portion 55 to the form projecting downward. The connecting bar 64 moves upward around the rotating shaft 53 and protrudes obliquely upward and rearward from the rotating shaft 53 . The weight 63 is displaced to a position closer to the rotating shaft 53 than the initial position in the front-rear direction.

The handle 52 and the lower end of the valve stem 39 are connected via a connecting member 40 and a connecting bar 64 . In the connected state, the connecting bar 64 passes through the connecting hole 42 of the connecting member 40 in the front-rear direction. The upper surface of the connecting bar 64 contacts the upper surface of the connecting hole 42, and the connecting bar 64 supports the connecting member 40 from below. The connecting member 40 and the connecting bar 64 can be relatively displaced in the vertical direction, and can also be relatively displaced in the front-rear direction. The weight of the valve body 38 , the valve stem 39 and the connecting member 40 is supported by the handle 52 via the connecting bar 64 . The portion where the connecting member 40 and the connecting bar 64 contact is behind the rotating shaft 53 .

An interlocking member 66 is composed of the valve body 38 , the valve stem 39 , the connecting member 40 and the handle 52 . When the shower switching valve 30 switches between the water supply mode for the body shower 20 and the water supply mode for the hand shower 15, the interlocking member 66 moves integrally. The integral movement of the interlocking member 66 means the movement of the handle 52 relative to the valve body 38, the valve stem 39 and the connecting member 40 while the interlocking member 66 remains connected. When the interlocking member 66 moves integrally, the handle 52 rotates about the rotating shaft 53, and the valve body 38, the valve stem 39 and the connecting member 40 move vertically.

When the handle 52 rotates from the initial position to the operating position, the valve body 38 rises and comes into contact with the upper valve seat 36, and the lower valve seat 37 is opened, so that the shower switching valve 30 switches to the water supply mode for the hand shower 15. to the water supply mode for the body shower 20. When the handle 52 rotates from the operating position to the initial position, the valve body 38 descends and abuts against the lower valve seat 37, and the upper valve seat 36 is opened. to the water supply mode for the hand shower 15.

As shown in FIG. 11, when the handle 52 is at the initial position, the center of gravity G1 of the interlocking member 66 is located at substantially the same height as the rotation shaft 53 in the vertical direction. The center of gravity G1 of the interlocking member 66 at the initial position is positioned between the rotation shaft 53 and the axis 67 of the valve body 38 and the valve stem 39 in the front-rear direction. As shown in FIG. 12, when the handle 52 is at the operating position, the center of gravity G1 of the interlocking member 66 is positioned higher in the vertical direction than the center of gravity G1 of the rotating shaft 53 and the initial position. The center of gravity G1 of the interlocking member 66 at the operating position is positioned rearward of the center of gravity G1 at the initial position, that is, rearward of the axis 67 of the valve body 38 and the valve stem 39 in the longitudinal direction.

The center of gravity G<b>1 of the interlocking member 66 is located behind the rotation shaft 53 regardless of the position of the handle 52 between the initial position and the operating position. Due to the moment (that is, rotational torque) due to the weight of the interlocking member 66, the handle 52 always receives a rotational force acting on the handle 52 in a direction that displaces the operating portion 56 upward, that is, in a direction from the operating position toward the initial position.

<Residual water discharge valve 70 and guideway 80>
The residual water discharge valve 70 is a normally open type on-off valve for discharging water remaining in the water supply passage 68 for supplying water to the body shower 20 after the body shower 20 is used. The water supply passage 68 is composed of the body shower outlet 45 of the shower switching valve 30, the body shower pipe 46, the branch pipe 50, and the water passage within 21 in the arm. The branch portion 49 and the branch pipe 50 are arranged at the lowest position in the water supply channel 68 . The residual water discharge valve 70 is attached to the branch portion 49 and communicates with the lower end of the branch portion 49 .

As shown in FIG. 7, the residual water discharge valve 70 is configured by assembling a housing 71 with its axis directed vertically, a valve body 76 and a compression coil spring 77 . FIG. 7 is a cross-sectional view of the residual water discharge valve 70 cut parallel to the wall surface W and viewed from the front face F side of the water discharging device A. As shown in FIG. The housing 71 includes a tubular portion 72 with its axis directed vertically, a lid portion 73 positioned below the tubular portion 72, and a pair of connecting portions 74 that connect the lower end portion of the tubular portion 72 and the lid portion 73. It is a single part with A valve seat 75 is formed on the inner periphery of the tubular portion 72 . The valve seat 75 is arranged at a position lower than the lowest position in the water supply passage 68 .

The valve body 76 is adapted to move up and down within the cylindrical portion 72 . The residual water discharge valve 70 is closed by the valve body 76 coming into contact with the valve seat 75 . When the valve body 76 moves upward and separates from the valve seat 75, the residual water discharge valve 70 is opened. The valve body 76 is biased upward, that is, in the valve opening direction, by a compression coil spring 77 arranged at the lower end of the cylindrical portion 72 . The upper surface of the valve body 76 faces a water supply passage 68 for supplying water to the body shower 20 . When water is supplied into the water supply passage 68 , the water supply pressure in the water supply passage 68 acts on the valve body 76 .

Below the valve seat 75, a drain hole 78 is formed to allow communication between the inner space of the tubular portion 72 and the lower space of the tubular portion 72. As shown in FIG. The drain hole 78 is open so as to face a guide path 80 provided on the upper surface of the bottom plate portion 19 of the housing 11 . An attachment/detachment opening 81 that penetrates the bottom plate portion 19 vertically is formed in a region of the guide path 80 below the residual water discharge valve 70 . The attachment/detachment port 81 is closed by the lid portion 73 of the residual water discharge valve 70 .

As shown in FIGS. 7 to 9, the guide path 80 is a groove-shaped portion partitioned by a partition wall portion 82 formed on the upper surface of the bottom plate portion 19. As shown in FIG. As shown in FIGS. 8 and 9 , the bottom plate portion 19 is formed with a pair of left and right drainage ports 83 that open to the bottom surface 12 of the housing 11 . The guiding path 80 has an inclined surface 84 that gradually lowers from a position immediately below the drain hole 78 to the drain port 83 . The pair of drain ports 83 are arranged at both left and right ends of the housing 11 in the left-right direction. The pair of drain ports 83 are formed by notching the edge portion of the bottom plate portion 19 on the side of the rear surface R in the front-rear direction, and are open to the rear surface R of the housing 11 . In a plan view of the bottom plate portion 19 from above, the opening area and opening shape of the drain port 83 are set so that water does not block the drain port 83 due to surface tension. Ribs 85 protruding downward from the bottom surface 12 of the housing 11 in the form of walls are formed at the left and right edges and the front edge of the opening of the drain port 83 .

<Usage form of water discharging device A>
In a water stop state in which water is not supplied to the shower switching valve 30, the water supply pressure does not act on the valve body 38. Therefore, the moment (rotational force) acting on the handle 52 due to the weight of the interlocking member 66 causes the handle 52 to move. is held at its initial position. The moment is a force that produces rotational torque in the direction of raising the operating portion 56 about the rotating shaft 53 . Even if the handle 52 is rotated from the initial position to the operating position, the handle 52 returns to the initial position. The shower switching valve 30 is kept in the water supply mode for the hand shower 15 . Since the water supply pressure does not act on the valve body 76 of the residual water discharge valve 70, the valve body 76 is separated from the valve seat 75 by the urging of the compression coil spring 77, and the residual water discharge valve 70 is kept open.

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 52 remains in the initial position. The water supplied to the shower switching valve 30 is discharged from the shower head 17 via the hand shower pipe 44 and the shower hose 16 . 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 17 .

After adjusting the temperature and flow rate of the water, while maintaining the water discharge state from the hand shower 15, the operating portion 56 of the handle 52 is pushed down to rotate the handle 52 from the initial position to the operating position. When the handle 52 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 passage 68 . In the water stop state, residual water in the water supply passage 68 to the body shower 20 is discharged by the residual water discharge valve 70 as will be described later. Residual water is not discharged.

While the body shower 20 is spouting water, the valve element 38 of the shower switching valve 30 is held in contact with the upper valve seat 36 by the upward water pressure. Even if the operating portion 56 is released, the handle 52 is held at the operating position, and the shower switching valve 30 is held in the water supply mode for the body shower 20 . In the residual water discharge valve 70 provided in the middle of the water supply passage 68, since the water pressure acts on the upper surface of the valve body 76, the residual water discharge valve 70 is kept closed. Water in the water supply passage 68 is supplied to the body shower 20 without leaking from the residual water discharge valve 70 to the guide passage 80 .

When finishing water spouting from the body shower 20, the faucet main body is operated to stop the water supply to the shower switching valve 30. - 特許庁When the water supply to the shower switching valve 30 is stopped, the water supply pressure in the water supply passage 68 from the shower switching valve 30 to the water discharge section 22 and the water supply pressure in the residual water discharge valve 70 decrease. In the residual water discharge valve 70, the valve body 76 is separated from the valve seat 75 by the urging of the compression coil spring 77, and the residual water discharge valve 70 is opened. The water in the water supply passage 68 is discharged from the residual water discharge valve 70 opened to the guide passage 80 . In the shower switching valve 30 , the valve body 38 is lowered by the weight of the interlocking member 66 , and the water supply mode for the body shower 20 is switched to the water supply mode for the hand shower 15 . As the valve body 38 descends, the handle 52 returns from the operating position to the initial position.

When using the hand shower 15 from the state of using the body shower 20, the operating portion 56 is pushed up to rotate the handle 52 from the operating position to the initial position. As the handle 52 is rotated, the shower switching valve 30 is switched to the water supply mode for the hand shower 15 , and water is discharged from the hand shower 15 . In the water supply passage 68 from the shower switching valve 30 to the body shower 20 and the residual water discharge valve 70 , the water supply pressure decreases, so the residual water discharge valve 70 opens, and the residual water in the water supply passage 68 is discharged into the discharge hole 78 . , into the guideway 80 .

The remaining water discharged into the guideway 80 flows toward both left and right drain ports 83 due to the inclination of the guideway 80 . Residual water drops from the drain port 83 . Since a wall-like rib 85 protrudes downward from the opening edge of the drain port 83 , residual water flows from the upper surface (inclined surface 84 ) of the guideway 80 along the inner surface of the rib 85 to the lower edge of the rib 85 . fall from Residual water does not flow into the bottom surface 12 of the housing 11. - 特許庁

<Effects of the water discharging device A of the first embodiment>
The water discharger A includes a body shower 20 having a water discharger 22 , a water supply passage 68 for supplying water to the water discharger 22 , and a residual water discharge valve 70 . The body shower 20 has an arm 21 shape and is rotatably supported by the housing 11 of the apparatus main body 10 . The residual water discharge valve 70 is arranged in the water supply passage 68 at a position lower than the water discharge section 22 . The residual water discharge valve 70 opens when the water supply pressure in the water supply passage 68 drops.

When the water discharge from the water discharge portion 22 of the body shower 20 is finished and the water pressure in the water supply passage 68 is lowered, the remaining water discharge valve 70 opens to discharge the residual water in the water supply passage 68 . Since the residual water discharge valve 70 is arranged below the water discharger 22, the water between the water discharger 22 and the residual water discharge valve 70 can be discharged.

The water discharger A includes a hand shower 15 having a flexible shower hose 16 and a shower switching valve 30 . The shower switching valve 30 switches between a water supply mode for the body shower 20 and a water supply mode for the hand shower 15 . The water supply path 68 is a flow path from the shower switching valve 30 to the water discharge section 22 . The residual water discharge valve 70 is arranged at the lowest position in the water supply passage 68 . All water remaining in the water supply passage 68 between the shower switching valve 30 and the water discharger 22 can be discharged.

A pair of body showers 20 are supported on both left and right outer edges of the housing 11 . The residual water discharge valve 70 is arranged inside the housing 11 that supports the body shower 20 . Since the residual water discharge valve 70 is not exposed to the outside of the housing 11, the design is good. Only one residual water discharge valve 70 is required.

The water supply channel 68 has two branch pipes 50 individually communicating with the pair of body showers 20 . One residual water discharge valve 70 is arranged at the confluence position of the two branch pipes 50 . According to this configuration, residual water in the two branch pipes 50 can be efficiently discharged.

The water discharging device A includes a housing 11 that accommodates the residual water discharge valve 70 and a drain port 83 that opens near the outer edge of the housing 11 on the bottom surface 12 of the housing 11 . Residual water discharged from the residual water discharge valve 70 falls from the vicinity of the outer edge of the housing 11 . Residual water can be prevented from falling into the faucet main body arranged in the widthwise central portion of the housing 11 and the washbasin placed in the widthwise central portion of the housing 11.例文帳に追加

A body shower 20 is attached to the outer edge of the housing 11 . The falling position of the residual water discharged from the residual water discharge valve 70 and the falling position of the residual water discharged from the water discharge section 22 are in a positional relationship close to each other. Compared to the case where the residual water falls at dispersed positions, it is less noticeable how the residual water falls.

The water discharging device A includes a housing 11 that houses a residual water discharge valve 70 . The housing 11 is fixed with the rear surface R of the housing 11 overlapping the wall surface W of the bathroom. The bottom surface 12 of the housing 11 is formed with a drain port 83 that opens to the rear surface R of the housing 11 . Since the falling position of the remaining water is close to the wall surface W, it is difficult to notice how the remaining water falls.

The bottom plate portion 19 of the housing 11 is provided with a guiding path 80 that guides residual water discharged from the residual water discharge valve 70 to a drain port 83 by an inclined surface 84 . Residual water discharged from the residual water discharge valve 70 can be reliably discharged from the drain port 83 . The bottom surface 12 of the housing 11 has ribs 85 protruding downward from the edge of the opening of the drain port 83 . The ribs 85 can prevent residual water from flowing from the edge of the drain port 83 to the bottom surface 12 of the housing 11 . Residual water will surely fall.

The drain port 83 is formed by opening only a portion of the bottom surface 12 of the housing 11 in the width direction of the housing 11 . The drain port 83 has a form in which only a part of the housing 11 in the depth direction is opened. Since the falling position of the remaining water is limited to a narrow range, it is difficult to notice how the remaining water falls.

The water discharge device A of Embodiment 1 includes a hand shower 15 having a flexible shower hose 16, a rotatably supported arm 21-shaped body shower 20, a shower switching valve 30, and a handle 52. ing. The shower switching valve 30 has a vertically movable valve body 38 . The shower switching valve 30 switches between a water supply mode for the hand shower 15 and a water supply mode for the body shower 20 . The valve body 38 in the water supply mode for the body shower 20 is located above the valve body 38 in the water supply mode for the hand shower 15 . Handle 52 is connected to valve body 38 via valve stem 39 . The handle 52 can be switched between an initial position for switching the shower switching valve 30 to the water supply mode for the hand shower 15 and an operating position for switching the shower switching valve 30 to the water supply mode for the body shower 20 .

When water is supplied to the shower switching valve 30 and the handle 52 is at the operating position, the water supply pressure acting on the valve body 38 keeps the shower switching valve 30 in the water supply mode for the body shower 20 . When the water supply to the shower switching valve 30 stops, the weight of the interlocking member 66 including the valve element 38, the valve stem 39 and the handle 52 causes the handle 52 to return to its initial position. When the water is stopped after use of the body shower 20 , the weight of the interlocking member 66 returns the handle 52 from the operating position to the initial position, and the shower switching valve 30 switches to the water supply mode for the hand shower 15 . It is unnecessary to operate the handle 52 to return from the water supply mode for the body shower 20 to the water supply mode for the hand shower 15 .

When the handle 52 is at the operating position and water is being supplied to the shower switching valve 30, the downward force acting on the valve body 38 due to the weight of the interlocking member 66 is greater than the upward force acting on the valve body 38 due to the water supply pressure. is small. According to this configuration, the body shower 20 can be maintained in a water supply state only by the water supply pressure without using an external force such as a spring force for pushing up the valve body 38 .

The water discharge device A includes a device main body 10 that accommodates a shower switching valve 30 therein, and a horizontal rotation shaft 53 that rotatably supports a handle 52 . The handle 52 has an operation portion 56 located below the device main body 10 . When the handle 52 is at the initial position, the operation portion 56 horizontally protrudes toward the front face F of the apparatus main body 10 . With this configuration, it is easy to visually recognize that the handle 52 has returned to the initial position.

When the handle 52 is in the initial position, the connecting member 40 and the connecting bar 64, which are the connecting portions between the valve stem 39 and the handle 52, are horizontally opposite to the operating portion 56 across the rotating shaft 53, that is, rotate. It is positioned behind the shaft 53 . When the handle 52 is in the use position, the operating portion 56 projects obliquely downward. Manual operation of the handle 52 required to use the body shower 20 from the water-stopped state is simply to rotate the handle 52 from the initial position to the operating position. This operation is an operation of pushing down the operating portion 56 that horizontally protrudes forward.

<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.

(1) As for the residual water discharge valves, two residual water discharge valves may be arranged inside a pair of body showers, one residual water discharge valve may be arranged inside one of the body showers, or a plurality of may be arranged inside the housing and inside the body shower.

(2) One residual water discharge valve may be provided in the middle of either one of the two branch pipes, and one residual water discharge valve may be provided in each of the two branch pipes. good too.

(3) The position of the drain port in the width direction of the housing may be the center position in the width direction of the housing, or the position between the center portion in the width direction and the outer edge portion.

(4) The position of the drain port in the front-rear direction of the housing may be closer to the front than to the rear of the housing.

(5) Only one body shower is acceptable.

(6) The residual water discharge valve may be arranged at a position higher than the lowest position in the water supply channel.

(7) The drain port may be open over the entire width of the housing.

(8) The mounting position of the body shower in the housing may be a portion other than the outer edge of the housing.

(9) A configuration in which ribs are not formed on the opening edge of the drain port may be adopted.

A... Water discharge device, R... Back of housing, W... Wall surface, 11... Housing, 12... Bottom of housing, 15... Hand shower, 16... Shower hose, 20... Body shower, 22... Water discharge part, 30... Shower switching valve 50 Branch pipe 68 Water supply path 70 Residual water discharge valve 80 Guidance path 83 Drain port 84 Inclined surface 85 Rib

Claims (14)

a body shower having a water discharge part;
a water supply channel that supplies water to the water discharge section;
and a residual water discharge valve arranged in the water supply passage below the water discharge portion and opened by a decrease in water supply pressure in the water supply passage. The water supply path has two branch pipes that individually communicate with the pair of body showers,
2. The water discharging device according to claim 1, wherein one said residual water discharge valve is arranged at a confluence position of said two branch pipes. a hand shower having a flexible shower hose;
a shower switching valve for switching between a mode in which water is discharged from the body shower and a mode in which water is discharged from the hand shower;
The water supply path is a flow path from the shower switching valve to the water discharge section,
The water discharging device according to any one of claims 1 and 2, wherein the residual water discharge valve is arranged at the lowest position in the water supply path. The water discharging device according to any one of claims 1 to 3, comprising a housing that rotatably supports the body shower. The water discharging device according to claim 4, wherein the body shower rotates vertically. The water discharging device according to any one of claims 4 and 5, wherein the residual water discharge valve is arranged either inside the housing or inside the body shower. A pair of the body showers are supported on both left and right outer edges of the housing,
The water discharging device according to any one of claims 4 to 5, wherein the residual water discharge valve is arranged inside the housing. The water discharging device according to any one of claims 4 to 7, wherein the body shower is attached to the outer edge of the housing. The water discharging device according to any one of claims 4 to 8, wherein the housing accommodates the residual water discharge valve. 10. The water discharging device according to claim 9, further comprising a drain port that opens in the vicinity of the outer edge of the housing on the bottom surface of the housing. A drainage port formed on the bottom surface of the housing and opening to the back of the housing,
The water discharging apparatus according to any one of claims 8 to 10, wherein the housing is fixed to the wall surface of the bathroom with the back surface thereof overlapping. 12. The guideway according to any one of claims 8 to 11, wherein the bottom plate portion of the housing is provided with a guide path for guiding residual water discharged from the residual water discharge valve to a drain port by means of an inclined surface. Water discharge device. 10. The drain port has a configuration in which only a portion of the bottom surface of the housing in the width direction of the housing is opened and only a portion of the housing in the depth direction is opened. 13. The water discharging device according to any one of 12. 14. The water discharging apparatus according to claim 13, wherein said bottom surface of said housing has a rib protruding downward from an opening edge of said drain port.

Images