JP2021080723A - Faucet device - Google Patents

Abstract

To provide a faucet device whose design can be improved.SOLUTION: A faucet unit 20 (faucet device) comprises: a base member 30 (housing); a faucet body 50 housed in the base member 30; a discharge part 40 which is provided on the base member 30 and on which a discharge port 41A communicating with the faucet body 50 to discharge water passed through the faucet body 50 is formed; and a water discharge operation part 60 for operating the faucet body 50, the water discharge operation part having one end side coupled to the faucet body 50 and the other end side that is inserted into an insertion hole 60A (opening) formed on the base member 30 and is exposed to the outside of the base member 30. The insertion hole 60A is formed so as to pass through vertically at a position on the base member 30, the position shifted from a position below the faucet body 50.SELECTED DRAWING: Figure 6

Description

The present disclosure relates to a faucet device.

Patent Document 1 discloses a conventional faucet device. This faucet device includes a water discharge unit, an operation unit, a hot water mixing unit, and an operation unit cover. The water spouting portion is formed with a spout for discharging water. The operation unit has an operation lever and adjusts the flow rate and temperature of the water discharged from the water discharge unit. The hot and cold water mixing portion is provided behind the operation lever, and one end side of the operation lever is connected and is provided behind the operation lever. The operation unit cover covers the hot and cold water mixing unit behind the operation lever.

JP-A-2019-148903

In Patent Document 1, although the hot and cold water mixing portion is covered with the operation portion cover, it is exposed in the front view, so that it cannot be said that the appearance is good.

The present disclosure is an issue to be solved to provide a faucet device capable of improving the design.

In order to solve the above-mentioned problems, the faucet device according to the embodiment of the present disclosure is provided in a housing, a faucet main body housed in the housing, the housing, and the faucet main body. One end side is connected to the faucet body, and the other end side is inserted into an opening formed in the housing. It is provided with a water discharge operation unit that is exposed to the outside of the housing and operates the faucet body, and the opening is positioned at a position deviated from a position corresponding to the lower part of the faucet body in the housing. It is formed so as to penetrate in the vertical direction.

It is a front view which shows the vanity table provided with a faucet device. It is a side sectional view which shows typically the vanity. It is a front view which shows by omitting a part of a cabinet and a faucet unit. It is a perspective view which shows by omitting a part of a cabinet and a faucet unit. It is a perspective view which shows the faucet unit. It is a perspective view which shows the main part of a faucet unit in an enlarged manner. It is a perspective view which shows the main part of a faucet unit in an enlarged manner. It is a top view which shows by omitting a part of a faucet unit. It is a perspective view which shows by omitting a part of a faucet unit. It is a front view which shows the faucet unit attached to the cabinet partly omitted. FIG. 5 is an enlarged cross-sectional view of a main part of the vanity table corresponding to the cross section taken along the line XI-XI of FIG. It is a front sectional view which shows the water discharge operation part. It is a front sectional view which shows the water discharge operation part. FIG. 5 is an enlarged cross-sectional view of a main part of the vanity table corresponding to the XIV-XIV line cross section of FIG. It is a figure for demonstrating the operation of a faucet unit. It is a figure for demonstrating the operation of a faucet unit.

<Embodiment 1>
The vanity 1 shown in FIGS. 1 and 2 includes a faucet unit 20 as a faucet device. The vanity 1 includes a washbasin 2, a washbasin 3, a back panel 4, and a mirror cabinet 10. The vanity 1 has the same left and right widths of the vanity 2, the back panel 4, and the mirror cabinet 10. In the following description, the up / down / left / right directions are the up / down / left / right directions in FIGS. 1 and 2, and the front-back direction is the left-right direction in FIG.

As shown in FIGS. 1 and 2, the wash basin 2 is placed on the floor surface F and fixed to the wall surface W of the building frame by fixing means such as screws. The wash basin 2 is configured to have a plate-shaped counter 2A and a box body 2B having the counter 2A fixed to the upper portion, and is formed in a box shape as a whole. The internal space of the wash basin 2 is a drawer-type storage space and a piping space for water supply and drainage.

As shown in FIGS. 2 and 3, the wash basin 3 is placed on the upper part of the wash basin 2. Specifically, the wash bowl 3 is formed in a pot shape. In the wash basin 3, the peripheral edge 3A is placed on the upper surface of the counter 2A of the wash basin 2, and the bowl 3B in the center is fitted into the counter 2A in a form of penetrating a notch formed in the counter 2A. .. The wash bowl 3 has a substantially rectangular shape in a plan view. The height of the upper end edge of the wash bowl 3 gradually decreases from the rear end to the front end. A drain port 3C is formed at a position near the rear end of the bottom of the wash bowl 3. A drain plug 3D is attached to the drain port 3C.

As shown in FIGS. 2 and 3, the back panel 4 has a frame 4A and a front panel 4B. A pair of left and right frames 4A are provided. The pair of frames 4A are placed on the left and right ends of the rear end of the upper surface of the wash basin 2. When the vanity 1 is installed, the pair of frames 4A are fixed to the wall surface W of the building frame on which the vanity 1 is installed by fixing means such as screws, similarly to the vanity 2. In this state, a space is formed between the pair of frames 4A. This space is called a piping space. The front panel 4B is formed in a substantially rectangular plate shape in front view having a left-right width substantially equal to the left-right width of the counter 2A. A large number of tiles (not shown) are arranged vertically and horizontally on the front surface of the front panel 4B. The front panel 4B is attached to the front surface of the frame 4A with the rear surface facing the front surface of the pair of frames 4A. The lower end of the front panel 4B is placed on the counter 2A via a seal member (not shown) or the like.

As shown in FIGS. 1 and 2, the mirror cabinet 10 is arranged above the wash bowl 3. Like the wash basin 2, the mirror cabinet 10 is fixed to the wall surface W of the building skeleton on which the wash basin 1 is installed by fixing means such as screws. In this state, the lower end of the mirror cabinet 10 is placed on the upper end of the pair of frames 4A.

As shown in FIGS. 3 and 4, the mirror cabinet 10 includes a box-shaped cabinet main body 11, a plurality of mirror doors 12, 13, 14 arranged in the left-right direction (three in FIG. 3), and a mirror door 12. , 13 and a vertically long mirror illumination unit 15 arranged between the mirror doors 12 and 14. The cabinet body 11 has storage portions 12A, 13A, and 14A formed behind the mirror doors 12, 13, and 14, respectively. The spaces of the storage portions 12A, 13A, and 14A are formed vertically, respectively.

As shown in FIG. 4, the cabinet main body 11 includes a top plate 11A, a side plate 11B, a back plate 11C, and a partition plate 11D. The top plate 11A is formed in a substantially rectangular shape in a plan view extending in the left-right direction. The side plates 11B are provided so as to extend downward from both left and right ends of the top plate 11A. Each side plate 11B is formed in a substantially rectangular shape in a side view. The upper end of the back plate 11C is connected to the rear end of the top plate 11A, and the left and right side ends are connected to the rear ends of the left and right side plates 11B, respectively. The lower end of the back plate 11C is located above the lower end of the side plate 11B, and forms a gap for piping between the lower end of the back plate 11C and the upper end of the back panel 4 in the installed state.

The partition plate 11D is arranged between the left and right side plates 11B. The partition plate 11D partitions the space inside the cabinet body 11 to the left and right, and forms storage portions 12A, 13A, and 14A. Each partition plate 11D is arranged so as to extend in the vertical direction substantially parallel to the left and right side plates 11B. The position of the lower end of each partition plate 11D extends to a position substantially equivalent to the position of the lower end of the side plate 11B. The inside of the partition plate 11D is formed into a cavity by extruding aluminum or the like. The internal space of the partition plate 11D formed in this way is used as a space for arranging a control unit (not shown) of the mirror illumination unit 15 described later.

A shelf board 12B is detachably attached to the storage portion 12A. A plurality of shelf boards 12B can be arranged. The height of each shelf board 12B can be selected and arranged stepwise. However, although the shelf board 12C arranged at the lowermost part of the storage portion 12A is removable, the height cannot be selected. The shelf plate 12C is attached above the lower ends of the side plate 11B and the partition plate 11D. A faucet unit 20, which will be described later, is attached to the space below the shelf board 12C. A lighting control unit 73 that controls the lighting unit 70 provided in the faucet unit 20, which will be described later, is attached to the lower surface of the shelf board 12C.

Shelf boards 13B and 14B are detachably attached to the storage portions 13A and 14A, respectively. A plurality of shelf boards 13B and 14B can be arranged. The heights of the shelves 13B and 14B can be selected and arranged in stages. Shelf boards 13C and 14C, which are fixedly arranged, are attached to the lower ends of the storage portions 13A and 14A, respectively. The shelf plates 13C and 14C are fixedly attached above the lower ends of the side plates 11B and the partition plate 11D. A power outlet 11E is provided in the space below the shelf board 13C. In the space below the shelf plate 14C, a bar 11F for hanging a towel is bridged between the side plate 11B and the partition plate 11D in the left-right direction.

The mirror doors 12, 13 and 14 are formed by attaching a mirror to the surface of the plate material, respectively. As shown in FIG. 1, the mirror doors 12, 13, and 14 have a substantially rectangular shape in the front view that is long in the vertical direction. The lengths of the mirror doors 12, 13 and 14 in the vertical direction are substantially the same. The vertical lengths of the mirror doors 12, 13 and 14 are slightly shorter than the vertical lengths of the side plates 11B and the partition plates 11D of the cabinet body 11 (see FIGS. 11 and 14). The mirror door 12 is wider in the left-right direction than the mirror doors 13 and 14 located on the left and right. The mirror door 12 is attached so that the front surface of the storage portion 12A can be opened and closed with the rear side of the right side extending in the vertical direction as a rotation axis. The mirror doors 13 and 14 located on the left and right sides of the mirror door 12 are formed to have substantially the same width in the left-right direction. Further, the mirror doors 13 and 14 are attached so that the front surfaces of the storage portions 13A and 14A can be opened and closed with the rear side of one side of the inner side (center mirror door 12 side) extending in the vertical direction as a rotation axis.

The mirror illumination unit 15 is an illumination unit provided separately from the illumination unit 70 of the faucet unit 20, which will be described later. The mirror illumination unit 15 is configured to irradiate illumination light having a long irradiation range in the vertical direction by arranging a plurality of LED light sources (not shown) in the vertical direction. The mirror illumination unit 15 is attached to each of the front ends of each partition plate 11D. Each mirror illumination unit 15 is provided so as to extend over the entire vertical length of the partition plate 11D.

As shown in FIGS. 3 and 4, the faucet unit 20 is provided in the lower part of the mirror cabinet 10. Specifically, the faucet unit 20 is located at the lower part of the storage portion 12A and behind the mirror door 12. The front surface of the faucet unit 20 is covered by the cover member 21 in a state where the faucet unit 20 is arranged below the storage portion 12A. In the faucet unit 20, the cover member 21 makes it impossible to see the internal functional portion described later when the mirror door 12 is opened. The cover member 21 is attached so as to stand down from the shelf plate 12C above the faucet unit 20.

As shown in FIGS. 5 and 6, the faucet unit 20 includes a base member 30 (exemplified as a housing), a discharge unit 40, a faucet main body 50, a water discharge operation unit 60, a water discharge control unit 61, and a lighting unit 70. It has a lighting operation unit 71 and a drainage operation unit 80. The faucet unit 20 has a discharge unit 40, a faucet body 50, a water discharge operation unit 60, a water discharge control unit 61, a lighting unit 70, a lighting operation unit 71, and a drainage operation unit 80 with respect to the base member 30. Is attached and unitized.

As shown in FIGS. 6, 7, 8 and 9, the base member 30 includes a bottom wall 31, a front wall 32, a rear wall 33, a left side wall 34, a right side wall 35, and a partition wall 36. Has been done. The base member 30 has a box shape having a substantially rectangular shape in a plan view. Specifically, as shown in FIGS. 7 and 8, the base member 30 has a front wall 32, a rear wall 33, a left side wall 34, and a right side wall 35 from the front, rear, left, and right edge edges of the bottom wall 31, respectively. It has a box shape that stands up and opens upward. As shown in FIG. 8, the partition wall 36 is formed so as to rise from the bottom wall 31 so as to partition the inner space of the box-shaped base member 30 into a plurality of sections. As shown in FIG. 8, the partition wall 36 is provided so as to be interposed between the functional portions attached to the base member 30 adjacent to each other.

As shown in FIG. 8, the bottom wall 31 has a substantially rectangular shape in a plan view with the left-right direction as the longitudinal direction. As shown in FIG. 6, the bottom wall 31 is after the flat surface portions 31A in the central portion in the left-right direction, the inclined surface portions 31B and 31C provided on the left and right sides of the flat surface portion 31A, and the flat surface portions 31A and the inclined surface portions 31B and 31C. It has a rear surface portion 31D extending rearward from the end. The lower surface of the flat surface portion 31A is formed flat so as to be substantially parallel to the floor surface F (installation surface) in the installed state of the vanity 1. The inclined surface portions 31B and 31C are formed so as to be inclined in the front-rear direction. Specifically, the inclined surface portions 31B and 31C have a rear end having substantially the same height as the flat surface portion 31A and a front end extending to a position higher than the height of the flat surface portion 31A, and are obliquely upward from the rear to the front. It is formed with an inclination of. As shown in FIG. 10, in the base member 30, when the faucet unit 20 is assembled to the mirror cabinet 10, the flat surface portions 31A and the rear end portions of the inclined surface portions 31B and 31C are below the lower end of the mirror door 12. The front ends of the inclined surface portions 31B and 31C are located above the lower end of the mirror door 12.

As shown in FIG. 6, a protruding portion 40A is connected to the flat surface portion 31A. The protruding portion 40A serves as a base end portion of the discharge portion 40 described later. The protruding portion 40A has a substantially elliptical cross section and is integrally formed with the flat surface portion 31A. The projecting portion 40A is provided so as to project diagonally forward and downward from the flat surface portion 31A. The connecting portion 40B of the protruding portion 40A with the flat surface portion 31A is located below the lower end of the mirror door 12. On the left inclined surface portion 31B, a recess 71A to which the lighting operation portion 71 described later is attached and an attachment portion 80A having a through hole for attaching the drainage operation portion 80 described later are formed from the flat surface portion 31A side to the left. They are formed side by side. The inclined surface portion 31C on the right side is formed with an insertion hole 60A (exemplified as an opening) having a substantially rectangular shape in a plan view through which the water discharge operation portion 60 described later is inserted.

The insertion hole 60A is formed so as to penetrate the base member 30 in the vertical direction at a position deviated from the position corresponding to the lower part of the faucet main body 50. Specifically, as shown in FIG. 10, the insertion hole 60A is on the right outside of the downward projection area P of the faucet body 50, and is up and down on the side of the projection area P opposite to the discharge portion 40 side. It is formed through the faucet. A vertical wall 60B rising upward is formed on the inner peripheral edge of the insertion hole 60A.

As shown in FIG. 6, the rear surface portion 31D is formed in a flat shape which is connected to each rear end edge of the flat surface portion 31A and the left and right inclined surface portions 31B and extends over substantially the entire left and right width of the base member 30. .. A concave groove 70A to which the illumination portion 70 described later is attached is formed in the left and right central portions of the rear surface portion 31D. The concave groove 70A is formed in a groove shape in which the lower surface of the rear surface portion 31D is depressed upward and extends in the left-right direction. As shown in FIG. 11, the bottom wall of the concave groove 70A is formed so as to be inclined diagonally upward from the rear end to the front end. A plurality of elongated holes are formed on the right side of the concave groove 70A. The plurality of elongated holes are holes for draining water, and are provided at positions corresponding to the lower part of the faucet main body 50, which will be described later.

As shown in FIGS. 6 and 7, the front wall 32 is formed so as to rise upward from the front edge of the bottom wall 31. The front wall 32 has a notch 32A formed at a position corresponding to the flat surface portion 31A in the central portion in the left-right direction. Screw holes 32B for attaching the cover member 21 are formed on the left and right sides of the notch 32A.

As shown in FIGS. 7, 8 and 9, the rear wall 33 is formed so as to rise upward from the trailing edge of the bottom wall 31. Specifically, the rear wall 33 is formed so as to rise while inclining rearward at the lower portion and to rise substantially vertically upward at the upper portion. The upper edge of the rear wall 33 is located above the upper edge of the front wall 32. The rear wall 33 is formed with openings 33A and 33B, through holes 33C, and a mounting portion 50A of the faucet body 50. As shown in FIGS. 8 and 9, the opening 33A is formed by opening in a substantially rectangular shape in the lower part of the rear wall 33. The opening 33A is formed so as to extend to the left from the left and right central portions of the rear wall 33. A hose guide 45 and an operation wire 81, which will be described later, are inserted into the opening 33A.

An external electrical wiring (not shown) connected to the water discharge control unit 61, which will be described later, is inserted into the opening 33B. The opening 33B is formed so as to open to the right side of the left and right central portions of the rear wall 33. As shown in FIG. 9, the opening 33B is formed above the opening 33A. A plurality of through holes 33C (three in FIG. 7) are formed. The plurality of through holes 33C are formed in the upper portion of the rear wall 33 side by side in the left-right direction. A fixing means such as a screw is inserted through each through hole 33C. As a result, the base member 30 is fixed to the wall surface W to which the mirror cabinet 10 behind the rear wall 33 is fixed.

The mounting portion 50A of the faucet main body 50 is provided at the right end portion of the rear wall 33. The mounting portion 50A is formed with a through hole (not shown) through which the faucet body 50 is inserted. The mounting portion 50A is formed by recessing the rear wall 33 toward the front side. As a result, the rear end portion of the faucet main body 50 in the state of being attached to the attachment portion 50A is located in front of the rear wall 33.

As shown in FIGS. 6, 7, and 9, the left side wall 34 and the right side wall 35 are formed so as to rise upward from the left and right edge edges of the bottom wall 31, respectively. The front and rear edges of the left side wall 34 and the right side wall 35 are connected to the front wall 32 and the rear wall 33, respectively. Locked portions 34A and 35A are formed at the lower ends of the left side wall 34 and the right side wall 35, respectively. The locked portions 34A and 35A are detachably locked to a dowel (not shown) provided so as to project from the partition plate 11D of the mirror cabinet 10 toward the storage portion 12A. The locked portions 34A and 35A are formed in a groove shape with the lower side and the left and right outer sides open, respectively. A plurality of locked portions 34A and 35A are formed side by side in the front and rear along the wall surfaces of the left and right side walls 34 and 35.

As shown in FIGS. 9, 10 and 11, the discharge portion 40 is attached to the protrusion 40A formed on the flat surface portion 31A of the base member 30. The discharge portion 40 is formed in a substantially elliptical cross section in a form in which the minor axis extends in the left-right direction, and extends diagonally forward and downward along the projecting direction of the projecting portion 40A. The outer peripheral surface of the discharge portion 40 is formed so as to be continuous with the outer peripheral surface of the protrusion 40A. The discharge unit 40 includes a water discharge head 41 and a head holder 42. The water discharge head 41 and the head holder 42 are each provided in a form divided by a plane orthogonal to the major axis direction of the discharge portion 40 having a substantially elliptical cross section.

The water discharge head 41 is detachably held by the head holder 42. The water discharge head 41 has a discharge port 41A and a switching knob 41B. The discharge port 41A is provided at the tip of the water discharge head 41. The water discharge head 41 discharges hot water from the discharge port 41A. The switching knob 41B is provided at the tip of the water discharge head 41 so as to be rotatable around the discharge port 41A. The water discharge head 41 can arbitrarily switch the discharge form of the water discharged from the discharge port 41A between shower water discharge and normal water discharge by manually rotating the switching knob 41B.

The head holder 42 is fixed to the protrusion 40A. As shown in FIG. 10, the head holder 42 is provided with a non-contact type sensor 43 for water discharge operation and a display unit 44. The sensor 43 is attached to the tip of the head holder 42. As the sensor 43, for example, a photoelectric sensor such as an infrared sensor can be adopted. The sensor 43 sets a predetermined distance in front of the discharge unit 40 in the extending direction as the detection range A ₄₃ (see FIG. 14), and detects an object such as a user's hand that has entered the range. When the sensor 43 detects an object such as a hand, the sensor 43 transmits a detection signal to a water discharge control unit 61, which will be described later, to switch the discharge state of hot water discharged from the discharge port 41A from stop water to discharge water. The display unit 44 displays the state and temperature of the water discharged from the discharge unit 40 based on the control signal transmitted from the water discharge control unit 61. The display unit 44 is configured to have a light source such as an LED, and displays a water discharge state depending on the difference in lighting method such as lighting color, continuous lighting, and intermittent lighting.

As shown in FIG. 11, one end of a flexible water supply hose 41C is connected to the rear end of the water discharge head 41. The other end of the water supply hose 41C is connected to an automatic valve 55, which will be described later. The water supply hose 41C is slidably inserted into the hose guide 45. The hose guide 45 is fixed to the base member 30. The hose guide 45 has an arched cylinder having one end opened from the rear end of the discharge portion 40 at a predetermined interval and the other end penetrating the opening 33A of the rear wall 33 and extending downward. It is formed in a shape. The hose guide 45 guides the entry and exit of the water supply hose 41C that is pulled out when the water discharge head 41 is removed from the head holder 42.

As shown in FIG. 2, a weight 46 is attached to the water supply hose 41C. The weight 46 is attached to a portion of the water supply hose 41C housed in the wash basin 2. The weight 46 moves along with the water supply hose 41C when the water discharge head 41 is removed and the water supply hose 41C is pulled out. The weight 46 functions to pull back the water supply hose 41C by the action of gravity when the water discharge head 41 is reattached to the head holder 42.

The weight 46 also functions as a stopper for preventing the water supply hose 41C from being excessively pulled out. Specifically, as shown in FIG. 2, the water supply hose 41C is slidably inserted into the stopper member 47 at a portion closer to the water discharge head 41 than the weight 46. The stopper member 47 is fixed to the wash basin 2. The weight 46 comes into contact with the stopper member 47 when the water supply hose 41C is pulled out, and prevents the water supply hose 41C from being pulled out any further.

The weight 46 has a cushioning member 46A. The cushioning member 46A can be made of a material having a predetermined elasticity such as rubber. The cushioning member 46A cushions the impact when the water supply hose 41C is pulled out and the weight 46 comes into contact with the stopper member 47. The cushioning member 46A is attached to the end of the weight 46 on the water discharge head 41 side.

As shown in FIGS. 5, 6, 7, and 8, the faucet body 50 is attached to a position near the right end of the rear wall 33 of the base member 30 and close to the bottom wall 31. ing. The faucet body 50 has a substantially cylindrical shape, and is housed in the base member 30 in a form in which the central axis is directed in the front-rear direction. The central axis of the faucet body 50 is coaxial with the rotation axis X of the water discharge operation unit 60, which will be described later. The faucet body 50 is configured as a disc valve containing a fixed disc, a movable disc, or the like. As shown in FIGS. 7 and 8, a water discharge operation unit 60 is connected to the front portion of the faucet main body 50. The internal disk of the faucet body 50 is rotated by the operation of the water discharge operation unit 60, and the hot water (warming water) supplied from the hot water pipe 51 and the water (normal temperature water) supplied from the cold water pipe 52 are mixed. The ratio can be adjusted. The faucet body 50 is attached so as to penetrate the rear wall 33 of the base member 30 that rises in the vertical direction in the axial direction. As shown in FIG. 9, the rear portion of the faucet body 50 penetrates the rear wall 33 and is exposed rearward. A hot water pipe 51 and a cold water pipe 52 are connected to the rear part of the faucet main body 50. One ends of the manual water supply pipe 53 and the automatic water supply pipe 54 are connected to the rear portion of the faucet main body 50.

As shown in FIG. 5, the other ends of the manual water supply pipe 53 and the automatic water supply pipe 54 are connected to the automatic valve 55, respectively. That is, a manual water supply pipe 53 and an automatic water supply pipe 54 are connected in parallel between the faucet main body 50 and the automatic valve 55. The faucet main body 50 supplies hot water having a mixing ratio according to the operation of the water discharge operation unit 60 to each of the manual water supply pipe 53 and the automatic water supply pipe 54. The faucet body 50 adjusts the amount of water discharged to the manual water supply pipe 53.

The automatic valve 55 is composed of a solenoid valve, an electric valve, or the like, and communicates between the automatic water supply pipe 54 and the water supply hose 41C by receiving a control signal based on the detection of the sensor 43 transmitted from the water discharge control unit 61. The flow path can be opened and closed. The automatic valve 55 always opens the flow path that communicates the manual water supply pipe 53 and the water supply hose 41C. That is, for water discharge from the discharge unit 40, the automatic valve 55 opens based on the manual water discharge in which the faucet main body 50 is opened by the water discharge operation unit 60 and the detection of an object such as a hand by the sensor 43. Water is discharged in two forms, automatic water discharge.

The water discharge operation unit 60 is a lever type operation unit. As shown in FIG. 12, the water discharge operation unit 60 is formed in a substantially inverted J shape in front view. Specifically, the water discharge operation unit 60 includes a connecting portion 62 connected to the faucet main body 50, a curved portion 63 extending upward from the connecting portion 62 and curved in an arc shape, and a curved portion in a front view. It is configured to have a linear portion 64 that continuously extends downward from 63 in a substantially linear manner. The water discharge operation unit 60 is rotatably provided around a rotation shaft X as a predetermined rotation shaft to operate the faucet main body 50. As described above, the rotation shaft X is the central shaft of the faucet body 50. That is, the water discharge operation unit 60 is rotatably provided around the central axis of the faucet main body 50. The rotation shaft X is a shaft extending in the front-rear direction in the connecting portion 62, which is a direction intersecting the vertical direction. The curved portion 63 extends while being curved in a direction away from the rotation axis X. The curved portion 63 is formed by being continuously curved with a substantially constant curvature. The linear portion 64 penetrates the insertion hole 60A of the bottom wall 31 and extends downward. The other end side of the water discharge operation unit 60 is located below the height of the one end side and is exposed below the base member 30 in the front view. In the water discharge operation unit 60, the linear portion 64 functions as an operation handle gripped by the user who operates the water discharge operation unit 60. The linear portion 64, which is the other end side of the water discharge operation portion 60, is formed so as to be inclined forward as it goes downward in the side view (see FIGS. 6 and 7). It can be said that the other end side of the water discharge operation unit 60 extends along the stretching direction of the discharge unit 40 in a side view.

The water discharge operation unit 60 operates the faucet main body 50 by being rotated around the rotation shaft X by the user, and adjusts the mixing ratio of hot water in the faucet main body 50. Specifically, in the state where the linear portion 64 shown in FIG. 12 extends substantially vertically downward, the water discharge operation unit 60 sets the mixing ratio of hot water in the faucet main body 50 to a mixing ratio in which the total amount of water is used. When the lower end portion of the linear portion 64 is rotated in the direction approaching the discharge portion 40 (clockwise direction in FIG. 12) from the state shown in FIG. 10, the water discharge operation unit 60 responds to the operation amount. , Increase the proportion of hot water in the mixing ratio of hot water in the faucet body 50. When the lower end of the linear portion 64 is rotated to the rotating end in the direction approaching the discharge portion 40, the water discharge operation unit 60 sets the mixing ratio of hot water in the faucet main body 50 to the total amount of hot water. Make a ratio. The water discharge operation unit 60 is set with an operation allowance in a rotation range of about 65 ° clockwise to the position shown in FIG. 13 based on the position of the linear portion 64 shown in FIG. The water discharge operation unit 60 is set with a play allowance in a rotation range of about 10 ° counterclockwise from the state shown in FIG.

The water discharge operation unit 60 can also rotate around an axis intersecting the rotation axis X. The water discharge operation unit 60 rotates around an axis intersecting the rotation axis X by tilting the lower end portion of the linear portion 64 in the front-rear direction. By the rotation operation around the axis intersecting with the rotation shaft X, the flow path communicating with the manual water supply pipe 53 of the faucet main body 50 is opened and closed, and the water discharge stop operation in the manual water discharge and the flow rate adjustment at the time of the manual water discharge are adjusted. The operation is performed.

As shown in FIG. 8, the water discharge control unit 61 is arranged between the discharge unit 40 in the plan view of the base member 30 and the attachment portion of the faucet main body 50. The water discharge control unit 61 includes, for example, a substrate, a control circuit, and the like (not shown). The water discharge control unit 61 can adopt, for example, a configuration in which electronic components such as these substrates are fixed on the bottom wall 31 of the base member 30, and the substrate or the like is watertightly covered by the lid member 61A from above. The water discharge control unit 61 executes display control of the display unit 44 and opening / closing control of the automatic valve 55 based on the detection signal transmitted by detecting an object such as a hand by the sensor 43. The water discharge control unit 61 is connected to the wiring of the external power supply inserted through the opening 33B formed in the rear wall 33 of the base member 30.

The illumination unit 70 is attached to the lower portion of the base member 30 and irradiates the illumination light downward. As shown in FIGS. 9 and 11, the illumination unit 70 is arranged behind the discharge unit 40. More specifically, as shown in FIG. 11, in a state where the faucet unit 20 is arranged at the lower part of the mirror cabinet 10, the illumination unit 70 is arranged with the lower surface as a light emitting surface. The illumination unit 70 is arranged in a narrow space in the front-rear direction between the front discharge unit 40 and the rear back panel 4. The illumination unit 70 has a long shape with the left-right direction as the longitudinal direction. The illumination portion 70 is fitted over substantially the entire length of the concave groove 70A formed in the rear surface portion 31D of the bottom wall 31 of the base member 30 in the left-right direction. The lower surface of the illumination unit 70 is substantially flush with the lower surface of the base member 30 around the illumination unit 70.

As shown in FIGS. 11 and 14, the illumination unit 70 includes a case 70B, a cover 70C, and a light source unit 70D. The case 70B has a concave cross section with one surface open in the longitudinal direction. The cover 70C has a concave cross section that is fitted so as to cover the opening of the case 70B. The lighting unit 70 has a tubular shape by combining the case 70B and the cover 70C, and the light source unit 70D is housed therein. The case 70B is a portion to be fitted into the concave groove 70A, and has an outer shape that follows the inner surface of the concave groove 70A. Similar to the bottom wall of the concave groove 70A, the bottom wall of the case 70B is formed so as to be inclined upward from the rear end to the front end in a state of being fitted in the concave groove 70A.

The cover 70C has translucency. The cover 70C transmits the light from the light source unit 70D. The cover 70C is attached to the case 70B so that the lower surface is a light emitting surface. The light source unit 70D is a unit in which a plurality of light sources such as LEDs are arranged in the longitudinal direction and can irradiate a long illumination light in one direction. The light source unit 70D is attached to the bottom wall above the case 70B. The optical axis C of the light source unit 70D faces a direction substantially orthogonal to the bottom wall surface of the upper part of the case 70B.

As shown in FIG. 11, the illumination unit 70 is in a state in which the optical axis C of the illumination light to be irradiated is directed obliquely forward and downward in a state of being attached to the concave groove 70A. _{The angle θ C} of the optical axis C with respect to the vertical direction is smaller than the _{angle θ 40} formed by the extending direction of the discharge portion 40 with respect to the vertical direction. The lighting unit 70 can suitably illuminate the lower wash bowl 3 and can also irradiate sufficient illumination light in the front-rear direction of the illumination unit 70 such as the front of the extension direction of the discharge unit 40 and the surface of the back panel 4. is there.

As shown in FIGS. 8, 9, and 10, the lighting operation unit 71 is arranged adjacent to the left side of the discharge unit 40. The lighting operation unit 71 is provided in the recess 71A formed in the inclined surface portion 31B of the bottom wall 31 of the base member 30. The lighting operation unit 71 includes a non-contact type sensor 72 such as an infrared sensor similar to the sensor 43 for water discharge operation.

As shown in FIG. 14, the sensor 72 sets a predetermined distance diagonally forward and downward as the detection range A ₇₂ , and detects an object such as a user's hand that has entered the range. When the sensor 72 detects an object such as a hand, the sensor 72 transmits a detection signal to the lighting control unit 73. The lighting control unit 73 executes switching control such as turning on and off the lighting unit 70 based on the detection signal transmitted by detecting an object such as a hand by the sensor 72.

The detection range A ₇₂ of the sensor 72 is different from _{the detection range A 43} of the sensor 43 for water discharge operation. As described above, the lighting operation unit 71 is arranged adjacent to the left side of the discharge unit 40 in the front view. The water discharge operation sensor 43 is provided at the tip of the discharge unit 40. As shown in FIG. 14, the sensor 72 of the lighting operation unit 71 is arranged behind the discharge unit 40 in the extending direction in the side view. That is, the sensor 72 and the sensor 43 for water discharge operation are adjacent to each other on the left and right in the front view and arranged along the extending direction of the discharge portion 40 in the side view, and are arranged close to each other. _{The detection range A 43} of the sensor 43 for water discharge operation is set in a predetermined region in front of the discharge portion 40 in the extending direction in the side view. The detection range A ₇₂ of the sensor 72 is set in the direction in which the sensor 43 for water discharge operation in side view is arranged. However, the maximum detection distance in the side view of the sensor 72 is set closer to the front side than the tip of the discharge unit 40. The faucet unit 20 is designed to prevent erroneous operation by making the _{detection ranges A 43} and A _{72 of the two sensors 43 and 72 arranged close to each other different from each other.}

The drainage operation unit 80 is an operation unit of the drain plug 3D provided at the bottom of the wash bowl 3. As shown in FIGS. 8, 9, and 10, the drainage operation unit 80 is arranged adjacent to the left side of the lighting operation unit 71. The drainage operation unit 80 is attached to the attachment portion 80A of the drainage operation unit 80 formed on the inclined surface portion 31B of the bottom wall 31 of the base member 30.

The drainage operation unit 80 is a rod-shaped member, one end of which protrudes below the lower surface of the bottom wall 31, and the other end of which penetrates the bottom wall 31 upward and projects upward. The drainage operation unit 80 is attached so as to be substantially orthogonal to the lower surface of the inclined surface portion 31B which is the attachment surface. In other words, the drainage operation unit 80 is attached to the attachment portion 80A of the drainage operation unit 80, and extends diagonally forward and diagonally downward so as to go forward as it goes downward. The drainage operation unit 80 opens the drainage plug 3D by performing an operation of pinching and pulling out the knob at the lower end. The drainage operation unit 80 closes the drainage plug 3D by performing an operation of pinching and pushing the knob at the lower end portion. One end of the operation wire 81 is connected to the upper end of the drainage operation unit 80.

As shown in FIG. 5, a tail piece 82 is preliminarily attached to the other end of the operation wire 81. The tail piece 82 is a portion connected to the drain plug 3D at the time of construction. The tail piece 82 is provided with a mechanism portion 82A for moving the drain plug 3D up and down. The other end of the operation wire 81 is connected to the mechanism portion 82A. At the time of construction, the drainage operation unit 80 inserts the operation wire 81 through the opening 33A of the rear wall 33 of the base member 30, arranges the inside of the back panel 4 and the wash basin 2, and connects the tail piece 82 to the drain plug 3D. It can be installed by doing. The tail piece 82 is connected to the drain plug 3D by a one-touch clip 82B.

The operation and effect of the faucet unit 20 having the above configuration will be described.

When water is discharged from the discharge unit 40, the faucet unit 20 automatically discharges water by detecting the sensor 43 at the tip of the discharge unit 40 and manually discharges water by tilting the linear portion 64 of the water discharge operation unit 60 forward. Water can be discharged by two operation methods. The faucet unit 20 adjusts the mixing ratio of hot water at the time of both automatic water discharge and manual water discharge, that is, the temperature of the hot water at the time of water discharge, by rotating the water discharge operation unit 60 around the rotation axis X. It is possible.

In the faucet unit 20, the faucet main body 50 is housed in the base member 30, and the base member 30 is fixed to the wall surface W to which the mirror cabinet 10 is fixed. In the water discharge operation unit 60, the connecting portion 62 on one end side is connected to the faucet main body 50, and the linear portion 64 on the other end side is inserted into the insertion hole 60A formed in the base member 30. The insertion hole 60A is formed so as to penetrate in the vertical direction at a position deviated from the position corresponding to the lower part of the faucet main body 50. The linear portion 64 of the water discharge operation unit 60 projects from the insertion hole 60A to the outside of the base member 30 and is exposed to the outside of the base member 30.

As described above, the faucet unit 20 is formed so that the insertion hole 60A is offset from the position corresponding to the faucet main body 50. Therefore, as shown in FIG. 6, the faucet unit 20 is excellent in design because it is difficult to visually recognize the faucet main body 50 housed in the space inside the base member 30 from the insertion hole 60A. A vertical wall 60B rising upward is formed at the inner peripheral edge of the insertion hole 60A. Therefore, the vertical wall 60B is a blindfold, and the faucet unit 20 inside the base member 30 is more difficult to see.

The rotation range of the water discharge operation unit 60 around the rotation axis X is about 65 ° clockwise and about 10 ° counterclockwise based on the state in which the linear portion 64 shown in FIG. 12 extends vertically downward. It is set. The water discharge operation unit 60 has a curved portion 63, and the curved portion 63 extends to the right in the direction away from the rotation axis X.

As described above, the water discharge operation unit 60 has the curved portion 63 extending in the direction away from the rotation shaft X, so that the linear portion 64 gripped when operating the water discharge operation unit 60 is offset from the rotation shaft X. I'm letting you. Therefore, when the water discharge operation unit 60 is rotated clockwise around the rotation axis X from the position shown in FIG. 12 to the position shown in FIG. 13, the linear portion 64 becomes the bottom wall of the base member 30. It moves diagonally downward to the left in an arcuate locus so as to protrude below 31. 15 and 16 schematically show a state in which the user of the vanity 1 is viewed obliquely downward, and shows a state in which the water discharge operation unit 60 is at the positions of FIGS. 12 and 13, respectively. In this way, the water discharge operation unit 60 is rotated clockwise around the rotation axis X so that the linear portion 64 protrudes downward, and the visibility from the user looking down from above is enhanced.

The curved portion 63 extends upward from the connecting portion 62 and is formed to be curved in an arc shape. In other words, the curved portion 63 is curved to the right while being separated from the rotating shaft X at the end on the connecting portion 62 side, and is curved to the right along the circumferential direction of the rotating shaft X at the end on the linear portion 64 side. It is formed so as to be curved. Therefore, the water discharge operation unit 60 can reduce the rotation locus in the insertion hole 60A when rotating around the rotation shaft X, and can suppress the size of the opening of the insertion hole 60A. That is, since the water discharge operation unit 60 forms the curved portion 63, the difference in the distance from the rotation axis X at the end of the curved portion 63 on the linear portion 64 side becomes small. Therefore, in the water discharge operation unit 60, the difference in the radius of gyration around the rotation axis X in the curved portion 63 is suppressed. As shown in FIG. 13, the water discharge operation unit 60 is provided with the curved portion 63, so that the movement locus at the position corresponding to the insertion hole 60A is compared with the length L1 of the movement locus in the left-right direction at the lower end portion. The length L2 is reduced. The size of the rotation locus can be suppressed. As a result, the opening of the insertion hole 60A can be reduced.

In the water discharge operation unit 60, it can be said that the direction in which the curved portion 63 extends is the direction opposite to the discharge portion 40 side (direction away from the discharge portion 40) when viewed from the connecting portion 62. Therefore, in the water discharge operation unit 60, the linear portion 64 that functions as an operation handle is connected to the curved portion 63 and extends downward at a position away from the discharge portion 40. Therefore, even if the faucet unit 20 is arranged so that the faucet body 50 is close to the discharge unit 40 side, it is possible to prevent the faucet unit 20 from interfering with the discharge unit 40 when operating the water discharge operation unit 60. ..

As described above, the faucet unit 20 includes a base member 30 as a housing, a faucet main body 50, a discharge unit 40, and a water discharge operation unit 60. The faucet body 50 is housed in the base member 30. The discharge portion 40 is provided on the base member 30. The discharge unit 40 is formed with a discharge port 41A that communicates with the faucet body 50 and discharges water that has passed through the faucet body 50. One end side of the water discharge operation unit 60 is connected to the faucet main body 50, and the other end side is inserted into the insertion hole 60A as an opening formed in the base member 30 and exposed to the outside of the base member 30. The water discharge operation unit 60 operates the faucet main body 50. The insertion hole 60A is formed so as to penetrate in the vertical direction at a position deviated laterally from the position corresponding to the faucet main body 50. Therefore, the faucet body 50 can be made less visible from the outside of the base member 30 as compared with the case where the opening is formed directly under the faucet body. Therefore, the faucet unit 20 can be improved in design.

The water discharge operation unit 60 is rotatably provided around a rotation shaft X extending in a direction intersecting in the vertical direction, and a curved portion 63 as a portion extending to the right in a direction away from the rotation shaft X is provided. It has a linear portion 64 as a portion extending downward from the curved portion 63 to the other end side as well as having one end side. Therefore, the water discharge operation unit 60 moves so that the linear portion 64 protrudes below the base member 30 even when the water discharge operation unit 60 is rotated clockwise around the rotation axis X. As a result, visibility from diagonally above the water discharge operation unit 60 can be ensured.

The water discharge operation unit 60 extends upward from the connecting portion 62 connected to the faucet main body 50, the curved portion 63 extending upward from the connecting portion 62, and curved in an arc shape, and extends linearly downward from the curved portion 63. It has a formed linear portion 64 and. As a result, the water discharge operation unit 60 can reduce the rotation locus in the insertion hole 60A when rotating around the rotation shaft X, and can suppress the size of the opening of the insertion hole 60A. As a result, the design can be further improved.

In the faucet unit 20, a discharge unit 40, a water discharge operation unit 60, and a drainage operation unit 80, which project downward from the lower part of the mirror cabinet 10 and are exposed, respectively, extend obliquely forward and downward. In this way, the vanity 1 can produce a sense of unity in the lower part of the mirror cabinet 10 and enhance the aesthetic appearance.

The faucet unit 20 is unitized. Therefore, the number of parts can be reduced as compared with the case where each element is attached separately. The faucet unit 20 is made into a unit, and the number of parts is reduced, so that the man-hours at the time of construction can be reduced. As a result, on-site work can be simplified.

The faucet unit 20 has a discharge unit 40 arranged at the center in the left-right direction. The faucet unit 20 has a drainage operation unit 80 for operating the drainage faucet 3D, a water discharge operation unit 60 for operating the faucet main body 50, and water discharge operation units 60 at both ends spaced from the discharge units 40 in the center of the left and right in the left-right direction. Each operation unit of is arranged. That is, the drainage operation unit 80 and the water discharge operation unit 60 are arranged at positions as far as possible from the discharge unit 40 while being attached to the base member 30 which is a member to which the discharge unit 40 is attached. Therefore, it is possible to prevent interference with the discharge unit 40 and other operation units during the operation of the operation units 60 and 80.

In the faucet unit 20, the water discharge control unit 61, the lighting unit 70, and the lighting operation unit 71, which are configured to include electronic components, are arranged adjacent to each other on the right, left, and rear sides of the discharge unit 40. doing. In particular, the water discharge control unit 61 is arranged between the discharge unit 40 and the faucet main body 50. The discharge unit 40, the faucet body 50, the water discharge operation unit 60, the water discharge control unit 61, the lighting unit 70, the lighting operation unit 71, and the drainage operation unit 80 are individually divided into base members 30 for each section partitioned by the partition wall 36. It is installed. Even if water leaks inside the base member 30, the faucet unit 20 can prevent water from entering the other compartments partitioned by the partition wall 36.

The present disclosure is not limited to the disclosure of the first embodiment described by the above description and the drawings, and includes, for example, the following embodiments.

(1) The position of the opening is not limited to the position shown in the first embodiment. The opening may be opened, for example, at a position shifted to the left of the faucet body. In this case, the faucet body is preferably arranged on the left side of the discharge portion.

(2) The extension direction of the rotation shaft of the water discharge operation unit is not limited to the front-rear direction shown in the first embodiment. When the water discharge operation unit rotates around a predetermined rotation axis, the rotation axis may extend in a direction intersecting the vertical direction, for example, it may be in the left-right direction, or in the front-rear, left-right direction. There may be an inclination with respect to the direction.

(3) The configuration of the water discharge operation unit is not limited to the configuration shown in the first embodiment. The water discharge operation unit may be configured to include, for example, a portion extending linearly, a portion extending linearly in a stepwise manner, and the like as a portion extending in a direction away from a predetermined rotation axis. As the portion extending downward, for example, it may extend downward while being curved.

(4) The mounting mode of the faucet device is not limited to the mounting mode of the mirror cabinet shown in the first embodiment. The faucet device may be attached to a standing wall or a wall surface that rises behind the wash bowl, such as a so-called back guard.

20 ... Faucet unit (faucet device), 30 ... Base member (housing), 40 ... Discharge unit, 41A ... Discharge port, 50 ... Faucet body, 60 ... Water discharge operation unit, 60A ... Insertion hole (opening), 62 ... Connecting part, 63 ... Curved part, 64 ... Linear part, X ... Rotating shaft

Claims (3)

With the housing
The faucet body housed in the housing and
A discharge portion provided in the housing and formed with a discharge port that communicates with the faucet body and discharges water via the faucet body.
One end side is connected to the faucet body, and the other end side is inserted through an opening formed in the housing and exposed to the outside of the housing.
Is equipped with
The faucet device is formed by penetrating the opening in the vertical direction at a position deviated from a position corresponding to the lower part of the faucet body in the housing. The water discharge operation unit is rotatably provided around a predetermined rotation axis extending in a direction intersecting the vertical direction, is formed on one end side thereof, and extends in a direction away from the predetermined rotation axis. The faucet device according to claim 1, further comprising a portion formed on the other end side of the portion and extending downward. The water discharge operation portion is formed by a connecting portion connected to the faucet body, a curved portion extending upward from the connecting portion and curved in an arc shape, and a curved portion extending linearly downward from the curved portion. The faucet device according to any one of claims 1 and 2, further comprising a linear portion.

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