JP4360092B2 - Water faucet with water signal lamp mechanism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention has a faucet installed on a sink and a cartridge containing a filter medium for filtering impurities in tap water under the sink, and a main body used as a water purifier, or an alkaline ion utilizing electrolysis. The present invention relates to a built-in water purifier and a faucet of a built-in alkaline water conditioner in which a main body that generates water is connected to a water pipe and the faucet and the main body are connected by a hose or the like.
[0002]
[Prior art]
In recent years, with the deterioration of the quality of tap water, consumers' interest in drinking water has increased and water purifiers and alkali ion water conditioners that purify tap water have become widespread. In addition, the built-in type that can secure a sink space and does not get in the way of kitchen work has recently been rapidly spreading. Users always want to improve the usability of built-in alkaline water conditioners and built-in water purifier faucets. Hereinafter, a built-in alkaline ionized water device described as a conventional technique includes a connecting part that is connected to a water pipe, a solenoid valve that controls ON / OFF of a tap water supply, and a cartridge that contains a filter medium for filtering tap water, Water that has a structure in which an electrolytic cell that electrolyzes tap water to generate alkaline ionized water and acidic water is connected, and a display panel that allows the user to select the water quality on the sink, water discharge pipe, and drain pipe The stopper is connected by a connecting member such as a hose, and the water quality can be discharged by switching the water quality to alkaline water, acidic water, or purified water by operating the display panel.
[0003]
A conventional built-in alkaline water conditioner will be described. FIG. 6 is a view of installation of a conventional built-in alkali sink, FIG. 7 is a sectional view of a conventional built-in alkaline water faucet, FIG. 8 is an external view of the built-in alkaline water faucet, and FIG. Detailed view of the operation panel of the faucet. 6-9, 1 is a water supply pipe, 2 is a water supply pipe, 3 is a solenoid valve for controlling ON / OFF of the supply of tap water, a cartridge for filtering tap water, electrolyzed filtered water, alkaline water, Main body with built-in electrolytic tank for generating acidic water, 4 connects the main body and faucet, and water discharge pipe for passing drinking water, 5 connects the main body and faucet, and passes water outside drinking A drain pipe for performing operation 6 is an operation panel for selecting water quality selection and ON / OFF of tap water supply, and 7 is a faucet having an operation panel 6. Here, the flow of water and a simple operation will be described. When the water stop / water flow switch on the operation panel 6 is pressed, the electromagnetic valve in the main body 3 opens the water passage, and tap water flows from the water pipe 1 into the main body 3 through the water supply pipe 2. In the main body 3, tap water is filtered by a cartridge and flows into the electrolytic cell. When alkaline water is selected on the operation panel 6, it is electrolyzed in the electrolytic cell, and the alkaline water flows out to the water discharge pipe 4. The water is discharged from the discharge pipe 9 through the water discharge path member 8 in the stopper 7. The acidic water flows out to the drain pipe 5, passes through the drain channel member 10 in the faucet 7, and drains from the discharge pipe 11. Next, when acidic water is selected on the operation panel 6, it is electrolyzed in the electrolytic cell, and the acidic water flows out to the water discharge pipe 4, passes through the water discharge channel member 8 in the faucet 7, and from the discharge pipe 9. Water is discharged. Alkaline water flows out to the drain pipe 5, passes through the drain channel member 10 in the faucet 7, and drains from the discharge pipe 11. At the end, when purified water is selected on the operation panel 6, electrolysis is not performed in the electrolytic cell, and the water is discharged to the water discharge pipe 4 and the water discharge pipe 5 at a predetermined flow rate ratio. Water is discharged from the discharge pipe 9 and the discharge pipe 11 through the water discharge path member 8 and the drainage path member 10 in the water tap 7. In addition, when the drainage cut function is provided at the time of using purified water, the entire flow rate flows out to the water discharge pipe 4, passes through the water discharge path member 8 in the faucet 7, discharges from the discharge pipe 9, and does not drain from the discharge pipe 11.
[0004]
Next, the structure of the faucet 7 will be described in detail. 7 to 9, the operation case 13 having one or more operation SWs 12, the operation panel 6 affixed to the surface of the operation switch 12 of the operation case 13, and the operation case 13 with screws 24 from the back. The outer case of the faucet 7 is constituted by the rear case 14 fixed to the lower case 15 fixed to the rear case 14 by screws 24 from the lower surface. Further, in order to prevent water from the outside from entering the faucet 7, a packing 17 is provided in the fitting convex recesses of the operation case 13 and the rear case 14 and the fitting convex recesses of the rear case 14 and the lower case 15. Is provided. As an internal configuration, a cable 18 for transmitting a signal from the operation board 16 fixed to the operation switch 12 of the operation case 13 by screws or snap-fit to a control board built in the main body 3 and a metal or resin is used. The water discharge channel member 8 and the drainage channel member 10 are provided in the faucet 7, and the primary side of the water discharge channel member 8 is connected to the water discharge pipe 4 connected to the main body 3 by screwing or a hose band 21. The next side is inserted into the connection joint 19, and the convex portion 9 a of the discharge pipe 9 is sandwiched between the connection joint 19 and the discharge pipe fixing nut 20 and connected by screwing. The primary side of the drainage channel member 10 is connected to the drainage pipe 5 connected to the main body 3 by screwing a hose band 21 or a screw, and the secondary side is fixed to the drainage channel member 10 and the drainage pipe by connecting the convex portion 11a of the drainage pipe 11. It is sandwiched between the nuts 22 and connected by screwing. The water discharge channel member 8, the drain channel member 10, etc., which are internal components of the faucet 7, are held and fixed inside the faucet 7 by fixing the fixing bracket 23 to the lower case 15 with screws 24. The metal fittings for fixing to the sink are attached to the fixing metal fitting 23. Next, the display on the operation panel 6 will be described with reference to FIG. As an operation switch function, in order to select the water quality to be used with the water stop / water flow switch for performing the ON / OFF control of the tap water supply, the alkali switch 25 for selecting the alkaline water, the water purification switch 26 for selecting the purified water, the acidity Selectable acid switch 27 is provided, and as a display function to notify the user, the cartridge life for informing the life of the cartridge for the purpose of filtering tap water by gradually turning on / off / lighting off the LED according to the amount of use. When the lamp 28 reaches the specified filtration capacity (usage amount) or the cartridge is clogged due to contamination of tap water and decreases below the specified filtration flow rate, the replacement of the cartridge is notified by LED lighting / flashing / off. The cartridge replacement lamp 29 is used to adjust the pH level when using alkaline water step by step. Alkaline water selection lamp 30 that informs that the water is selected by turning on the LED, the water purification selection lamp 31 that informs that the purified water is selected by turning on the LED, and LED lighting that the acidic water is selected There are provided an acidic water selection lamp 32 for notifying, and a water signal lamp 33 for notifying the blinking / lighting of the LED whether water can be drunk or not (for example, see Patent Document 1).
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-123485 [0006]
[Problems to be solved by the invention]
In the faucet 7 of the conventional built-in alkaline water conditioner and built-in water purifier, the LED is blinked and lit in a single color and in a narrow display range in the operation panel 6 provided in front of the faucet 7 and can be drunk.・ There was a water signal to inform the user that drinking was impossible. However, a sufficient visibility for the display range is an LED of magnitude comparable levels, colors can not recognize you are using any water because it was one color, the installation position is also the operation of the front of the faucet 7 Since it is provided in the panel 6, there is a problem that the user cannot recognize unless looking in front of the faucet 7.
[0007]
Therefore, the present invention solves the above-mentioned conventional problems, and in a faucet of a built-in alkaline water conditioner and a built-in water purifier installed in a sink, a ring-shaped panel is provided on the side surface of the faucet, and a plurality of color LEDs With a water signal lamp mechanism that turns on, blinks, and turns off the entire surface of the ring-shaped panel, and informs the user whether or not it is possible to drink water or not, and the quality of water from any position 360 ° to the faucet It is an object of the present invention to provide a faucet characterized by the above and to improve visibility and workability.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, the water tap of the built-in alkaline water conditioner and built-in water purifier installed in the sink of the present invention, comprising a ring-shaped panel on the side surface of the water faucet, and the ring using a plurality of LEDs the entire surface of the Jo panel performs lighting or flashing on and off, the water to the user from any 360 ° where the position relative to the faucet drinking good and drinking Call and a water signal ramp mechanism to inform the water, the ring A water discharge joint having a reflector and a water signal board on which the light emitter is mounted are disposed inside the panel, and light from the light emitter is reflected by the reflector to form the ring shape. It passes through the panel and is discharged . According to the present invention, it is possible to improve the workability of the kitchen by improving the visibility, and the built-in alkaline water conditioner and the faucet of the built-in water purifier that can sufficiently cope with the visible range of a face-to-face kitchen that has been increasing in recent years. Can be provided. Moreover, with the water discharge joint which also has a reflecting plate, the light of a light-emitting body can be spread | diffused and the whole perimeter surface of a ring-shaped panel can be light-emitted.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The invention according to claim 1 is a faucet of a built-in alkaline water conditioner and a built-in water purifier installed on a sink, comprising a ring-shaped panel on a side surface of the faucet, and the ring-shaped light emitting body having a plurality of colors. The ring-shaped panel is equipped with a water signal lamp mechanism that turns on, blinks, and turns off the entire surface of the panel, and notifies the user whether water can be drunk or not, and the quality of water from any position at 360 ° to the faucet. A water discharge joint that also has a reflector and a water signal board on which the light emitter is mounted are disposed inside, and the light of the light emitter is reflected by the reflector and the ring-shaped panel It was set as the structure which passes and is discharged | emitted . According to this structure, improving the visibility leads to an improvement in the kitchen workability, and can sufficiently cope with the visible range of the facing kitchen, which has been increasing in popularity in recent years. Moreover, with the water discharge joint which also has a reflecting plate, the light of a light-emitting body can be spread | diffused and the whole perimeter surface of a ring-shaped panel can be light-emitted.
[0010]
In the invention according to claim 2, the water discharge joint is coaxial with the central axis of the ring-shaped panel, the light emitter is mounted in a state orthogonal to the central axis of the ring-shaped panel, and the water signal board is a horseshoe-shaped or The structure is a ring shape . According to this structure, the assemblability is excellent, and the ring-shaped panel can be in a uniform state with no unevenness in lighting / flashing state.
[0011]
The invention according to claim 3 has a structure in which the reflecting surface of the water discharge joint also having a reflector is formed by R or taper. According to this structure, the lighting state of the ring-shaped panel can be made uniform with no unevenness.
[0012]
The invention according to claim 4 has a structure in which the water discharge joint having a reflector is also provided with a water passage. According to this structure, the number of parts can be reduced, and cost merit and assemblability can be improved.
[0013]
The invention according to claim 5 has a structure in which the water signal board and the operation board are coupled by a lead wire and are orthogonally arranged. According to this structure, the ring-shaped panel can be freely arranged, and the assembly can be made excellent.
[0014]
The invention according to claim 6 has a structure in which the water signal board is located below the visual field range of the ring-shaped panel. According to this structure, it is possible to make the ring-shaped panel light and flash in a uniform state without unevenness.
[0015]
The invention described in claim 7 has a structure in which the ring-shaped panel is sandwiched between the upper case and the discharge pipe fixing nut and fixed by screwing. According to this structure, a screw is not required for fixing the ring-shaped panel, and the assembly can be made excellent.
[0016]
According to the eighth aspect of the present invention, the light emission color of the water signal lamp is selected from the light emission color of the alkaline water selection lamp or the alkali switch provided on the operation panel, the light emission color of the water purification selection lamp or the color of the water purification switch, and the acid water selection. The display was adapted to the color of the lamp or the color of the acid switch. According to this display, the user can easily confirm which water quality is used.
[0017]
According to the ninth aspect of the present invention, since the light emitter is an LED, a long-life and power-saving faucet can be provided.
[0018]
Hereinafter, an embodiment of a built-in alkaline water hydrant faucet of the present invention will be described in detail with reference to the drawings. Since the built-in water purifier faucet has the same structure, description thereof is omitted. FIG. 1 is a diagram showing installation of a built-in alkaline water conditioned device in a sink according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of a built-in alkaline water hydrant faucet according to one embodiment of the present invention, and FIG. FIG. 4 is an external view of a built-in alkaline water hydrant faucet in one embodiment of the present invention, FIG. 4 is a detailed view of an operation panel of the built-in alkaline water hydrant faucet in one embodiment of the present invention, and FIG. FIG. 5B is a structural diagram of a water signal lamp mechanism of a built-in alkaline water hydrant faucet in the embodiment, FIG. Part drawing, FIG.5 (c) Part drawing of the ring-shaped panel used for the water signal lamp mechanism of the faucet for built-in alkaline water conditioners in one embodiment of this invention, FIG.5 (d) One embodiment of this invention It is the part view of the water discharge joint using the definitive built alkaline water conditioner faucet water signal ramp mechanism. In the following embodiment, members corresponding to the built-in alkaline water conditioner described in the related art are given the same reference numerals, and redundant descriptions are omitted here. In FIG. 1, 1 is a water pipe, 2 is a water supply pipe, 3 is a main body, 4 is a water discharge pipe, 5 is a drain pipe, 6 is an operation panel, 7 is a faucet, 9 is a discharge pipe, and 20 is a nut for fixing the discharge pipe. , 11 is a discharge pipe, 22 is a nut for fixing the discharge pipe, and 33 is a water signal lamp. Here, the flow of water and a simple operation will be described. In FIG. 1 to FIG. 4, when the water stop / water switch 34 of the operation panel 6 is pressed, the electromagnetic valve in the main body 3 opens the water passage, and tap water flows into the main body 3 from the water pipe 1 through the water supply pipe 2. To do. In the main body 3, tap water is filtered by a cartridge and flows into the electrolytic cell. When alkaline water is selected on the operation panel 6, it is electrolyzed in the electrolytic cell, and the alkaline water flows out to the water discharge hose 41. Water passes through the water passage 38 a in the stopper 7 and is discharged from the discharge pipe 9. The acidic water flows out to the drain hose 42, passes through the water passage 39 b in the faucet 7, and drains from the discharge pipe 11. Next, when acidic water is selected on the operation panel 6, it is electrolyzed in the electrolytic cell, the acidic water flows out to the water discharge hose 41, passes through the water passage 38 a in the faucet 7, and discharges water from the discharge pipe 9. To do. Alkaline water flows out to the drain hose 42, passes through the water passage 39 b in the faucet 7, and drains from the discharge pipe 11. Finally, when purified water is selected on the operation panel 6, electrolysis is not performed in the electrolytic cell, and the water is discharged to the water discharge hose 41 and the water discharge hose 42 at a predetermined flow rate ratio. The water is discharged from the discharge pipe 9 and the discharge pipe 11 through the water passage 38 a and the water passage 39 b in the faucet 7. In addition, when the drainage cut function is provided when using purified water, the entire flow rate flows out to the water discharge hose 41, passes through the water passage 38 a in the faucet 7, discharges from the discharge pipe 9, and does not drain from the discharge pipe 11.
[0019]
Next, the structure of the faucet 7 will be described with reference to FIGS. First, each part 35 is an upper case, a frame 35a into which the operation cover 36 is fitted on the front, a mounting hole 35b of the ring-shaped panel 37 on the upper part, and each internal part on the lower part. An insertion hole 35c is provided. Reference numeral 36 denotes an operation cover, which is provided with an operation surface 36b having a hinge-shaped operation switch 12 and an LED viewing hole 36a, and an operation substrate storage chamber 36c to which the operation substrate 16 is attached. Reference numeral 38 denotes a water discharge joint, which is provided with a water passage 38 a, a LED light-emitting reflecting plate 38 b, a pressing rib 38 c of the operation board 16, and a male screw portion 38 d that is a connecting portion with the discharge pipe fixing nut 20. A cable 18 connects the operation board 16 and a control board built in the main body 3. A branch joint 39 includes a water passage 39 a connected to the water discharge joint 38, a water passage 39 b connected to the discharge pipe 11, and a male thread portion 39 c that is a joint portion with the discharge pipe fixing nut 22. . Reference numeral 40 denotes a hose joint, which is provided with a water discharge joint portion 40a connected to the water discharge hose 41 and a drainage joint portion 40b connected to the drain hose 42, and is fixed by the hose band 21 after the connection. Reference numeral 15 denotes a lower case, which is provided with an upper case 35 for fixing each member inside the faucet 7, and a screw hole 15 a for fixing with a water discharge joint 38 and a screw 24. Reference numeral 23 denotes a bracket for fixing to the sink and a fixture for fixing. Next, the operation board 16 is stored in the operation board storage chamber 36c of the operation cover 36, and its position is regulated by the positioning rib 36d. The operation board 16 is pressed from the back surface of the operation board 16 by the holding rib 38c of the water discharge joint 38. Thus, the operation board box 43 in a state in which the operation board 16 is sandwiched by snap fitting the claw 36d of the operation cover 36 and the hole 38e of the water discharge joint 38 is configured. The operation board box 43 is inserted upward from the upper case 35 through the insertion hole 35c located below the upper case 35 while the posture thereof is inclined with respect to the central axis of the faucet 7, and moves upward. Accordingly, the posture is changed to a state parallel to the central axis of the faucet, and the operation surface 36b of the operation cover 36 is temporarily fixed in a state where the operation surface 36b is completely fitted into the frame 35a of the upper case 35. Is completely fixed to the boss 35e provided in A recess 35f is provided on the front surface of the upper case 35 as an attachment surface of the operation panel 6. The attachment surface recess 35f forms the same surface as the operation surface 36b of the operation cover 36. The shape is affixed only on the surface of the recess 35f. Under the operation board box 43, the connector from the operation board 16 is exposed in the vertical direction, and the cable 18 is connected thereto. The water discharge side insertion pipe 39d on the secondary side of the water passage 39a of the branch joint 39 and the water discharge side inlet hole 38f of the water discharge joint 38 are connected via an O-ring 44, and the drain side insertion pipe 39e on the secondary side of the water passage 39b and the upper side. The branch joint insertion hole 35g of the case 35 is connected via an O-ring 44, the discharge pipe 11 and the drain side insertion pipe 39e are connected via an O-ring 44, and the convex portion 11a is connected to the branch joint 39 and a discharge pipe fixing nut. It is clamped at 22 and connected and fixed by screwing. The lower case 15 and the upper case 35 forming the outer wall of the faucet 7 are divided in the vertical direction, and a packing 44 is sandwiched between the fitting portions, and the upper case 35 and the lower case 15 are fixed by the screws 24, and water is discharged. The joint 38 and the lower case 15 are fixed, and the water discharge joint 38 having a water passage 38 a serves as a connecting member for the upper case 35 and the lower case 15. The hose joint 40 to which the water discharge hose 41 and the drainage hose 42 are connected is inserted into the water passages 39a and 39b of the branch joint 39 via the O-rings 44, respectively, and is sandwiched between the fixing bracket 23 and the lower case 15. The fixing bracket 23 and the lower case 15 are fixed by screws 24. The water signal lamp 33 mechanism portion independent from the operation panel 6 is fitted into the mounting hole 35b in the upper case 35 via the O-ring 44 from above. The outlet hole 38g of the water discharge pipe 9 and the water discharge joint 38 is connected via an O-ring 44, is sandwiched between the discharge pipe fixing nut 20 and the water discharge joint 38, and is connected and fixed by screwing screws.
[0020]
Next, the display on the operation panel 6 will be described with reference to FIG. As an operation switch function, in order to select the water quality to be used with the water stop / water flow switch for performing the ON / OFF control of the tap water supply, the alkali switch 25 for selecting the alkaline water, the water purification switch 26 for selecting the purified water, the acidity Selectable acid switch 27 is provided, and as a display function to notify the user, the cartridge life for informing the life of the cartridge for the purpose of filtering tap water by gradually turning on / off / lighting off the LED according to the amount of use. When the lamp 28 reaches the specified filtration capacity (usage amount) or the cartridge is clogged due to contamination of tap water and decreases below the specified filtration flow rate, the replacement of the cartridge is notified by LED lighting / flashing / off. The cartridge replacement lamp 29 is used to adjust the pH level when using alkaline water step by step. Alkaline water selection lamp 30 that informs that the water is selected by turning on the LED, the water purification selection lamp 31 that informs that the purified water is selected by turning on the LED, and LED lighting that the acidic water is selected An acidic water selection lamp 32 to inform. In the case of a built-in water purifier, the water quality switch is not provided. Further, the water signal lamp is provided in the operation panel 6 according to the conventional technique, but the present invention has a configuration independent of the operation panel 6. Therefore, the structure of the water signal lamp 33 provided in the faucet 7 according to an embodiment of the present invention will be described in detail. 2 to 5 A plastic ring-shaped panel 37 is provided on the outer side surface of the faucet 7, and is fitted into the mounting hole 38b of the upper case 35 via an O-ring 44. The ring-shaped panel 37 is connected to the nut 20 for fixing the discharge pipe. Between the male screw portion 38d of the water discharge joint 38 and the screw of the discharge pipe fixing nut 20. Reference numeral 46 denotes a water signal board on which a plurality of LEDs 48 of a plurality of colors are mounted, and has a horseshoe shape or a ring shape. The reflection plate of the water discharge joint 38 having a water passage 38a which is the same as the central axis of the ring-shaped panel 37 and has a uniform distance from the inner wall 37a of the ring-shaped panel 37 inside the ring-shaped panel 37. 38b is provided, and the water signal board 46 is fitted in a groove 38h that is orthogonal to the central axis of the ring-shaped panel 37 and is positioned below the visual field range 37b of the ring-shaped panel 37 and provided below the reflecting plate 38b. The structure is sandwiched between water signal board installation surfaces 36e provided on the operation cover 36. The reflection chamber 37 c inside the ring-shaped panel 37 is configured to become narrower as it goes upward from the surface of the water signal substrate 46. The LED reflecting surface of the reflecting plate 38b is formed with R or a taper. The water signal board 46 and the operation board 16 are connected by a lead wire 47 and are in an arrangement relationship orthogonal to each other. As the light emission path of the water signal lamp 33, first, the LED 48 on the water signal board 46 emits light, and the emitted light hits the reflection plate 38b provided in the water discharge joint 38 and is diffused in the reflection chamber 37c. Then, it passes through the inner wall 37a of the ring-shaped panel 37 and is discharged to the outside. With such a structure, LEDs of a plurality of colors are turned on, blinked, and turned off, and the entire surface of the ring-shaped panel 37 is caused to emit light.
[0021]
In the present embodiment, the LED 48 is a pair of two colors of the red LED 48a and the green LED 48b, and three sets are arranged at an angle of 120 ° pitch. However, two or more LEDs may be provided, and three or more LEDs may be used depending on the application. Multiple colors may be used.
[0022]
As described above, the water faucet with a water signal panel for the built-in alkaline water conditioner and the built-in water purifier in one embodiment of the present invention turns on, blinks, and turns off the entire surface of the ring-shaped panel with a plurality of LEDs. It is possible to notify the user about drinking and not drinking from any position with respect to the stopper, and the water quality being used.
[0023]
【The invention's effect】
Built-in alkaline water conditioner and built-in water purifier faucet , equipped with a ring-shaped panel on the side of the faucet, by turning on, flashing and extinguishing the entire surface of the ring-shaped panel with a plurality of LEDs, It is a faucet with a water signal lamp that can notify the user about drinking or not drinking from any position 360 ° relative to the faucet and the quality of the water being used . A water discharge joint having a reflector and a water signal board on which a light emitter is mounted are arranged inside the ring-shaped panel, and the light of the light emitter is reflected by the reflector and the ring-shaped panel. And is discharged . According to the present invention, improving the visibility leads to an improvement in workability of the kitchen, and can sufficiently cope with the visual recognition range of the facing kitchen, which has been increasing in popularity in recent years. Moreover, with the water discharge joint which also has a reflecting plate, the light of a light-emitting body can be spread | diffused and the whole perimeter surface of a ring-shaped panel can be light-emitted.
[Brief description of the drawings]
FIG. 1 is a diagram of installation of a built-in alkaline water conditioner on a sink according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of a faucet for a built-in alkaline water conditioner according to an embodiment of the present invention. FIG. 4 is an external view of a built-in alkaline water hydrant faucet according to an embodiment of the present invention. FIG. 4 is a detailed view of an operation panel of a built-in alkaline water hydrant faucet according to an embodiment of the present invention. (B) Structure of a water signal lamp mechanism of a built-in alkaline water hydrant faucet in one embodiment of the present invention (b) Parts of a water signal board used in a water signal lamp mechanism of a built-in alkaline water hydrant faucet in one embodiment of the present invention Fig. (C) Part drawing of a ring-shaped panel used in the water signal lamp mechanism of the faucet for built-in alkaline water conditioner in one embodiment of the present invention (d) Built-in in one embodiment of the present invention Part drawing of the water discharge joint used for the water signal lamp mechanism of the water faucet for the alkaline alkaline water purifier [Fig. 6] Installation drawing of the conventional built-in alkaline water purifier on the sink [Fig. 7] Cross section of the conventional faucet for the built-in alkaline water purifier [Fig. 8] External view of a conventional built-in alkaline water hydrant faucet [Fig. 9] Detailed operation panel of a conventional built-in alkaline water hydrant faucet [Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Water supply pipe 2 Water supply pipe 3 Main body 4 Water discharge pipe 5 Drain pipe 6 Operation panel 7 Water faucet 8 Water discharge channel member 9 Discharge pipe 9a Convex part 10 Drainage channel member 11 Discharge pipe 11a Convex part 12 Operation switch 13 Operation case 14 Back surface Case 15 Lower case 15a Screw hole 16 Operation board 17 Packing 18 Cable 18a Connector 19 Joint 20 Discharge pipe fixing nut 21 Hose band 22 Drain pipe fixing nut 23 Fixing bracket 24 Screw 25 Alkaline switch 26 Water purification switch 27 Acid switch 28 Cartridge Life lamp 29 Cartridge replacement lamp 30 Alkaline water selection lamp 31 Purified water selection lamp 32 Acidic water selection lamp 33 Water signal lamp 34 Water stop / water switch 35 Upper case 35a Frame 35b Mounting hole 35c Insertion hole 35e Boss 35f Concave 35g Branch joint insertion 36 Operation cover 36a LED viewing hole 36b Operation surface 36c Operation substrate storage chamber 36d Claw 36e Water signal substrate installation surface 36f Positioning rib 37 Ring-shaped panel 37a Inner wall 37b Field of view range 37c Reflection chamber 38 Water discharge joint 38a Water passage 38b Reflection plate 38c Presser Rib 38d Male thread portion 38e Hole 38f Water discharge side inlet hole 38g Outlet hole 38h Groove 39 Branch joint 39a Water passage 39b Water passage 39c Male screw portion 39d Water discharge side insertion tube 39e Drain side insertion tube 40 Hose joint 41 Water discharge hose 42 Drain hose 43 Operation board box 44 O-ring 45 Packing 46 Water signal board 47 Lead wire 48 LED
48a Red LED
48b Green LED

Claims (9)

A built-alkaline water apparatus and built purifier faucet to be installed in a sink, a side surface of the faucet comprises a ring-shaped panel, the lighting or flashing the entire surface of the ring-shaped panel with a plurality of colors of light emitters - perform off, water to the user from any 360 ° where the position relative to the faucet drinking good and drinking Call and a water signal ramp mechanism to inform the water quality, the inside of the ring-shaped panel, the reflection plate A water discharge joint provided with a water signal board on which the light emitter is mounted is disposed, and the light of the light emitter is reflected by the reflecting plate and passes through the ring-shaped panel to be emitted. A faucet equipped with a water signal lamp mechanism. The water discharge joint is coaxial with the center axis of the ring-shaped panel, the light emitter is mounted in a state orthogonal to the center axis of the ring-shaped panel, and the water signal board is horseshoe-shaped or ring-shaped The faucet provided with the water signal lamp mechanism according to claim 1.   The water faucet provided with the water signal lamp mechanism according to claim 1 or 2, wherein a reflection surface of the water discharge joint also having a reflection plate is formed by R or taper. The faucet provided with the water signal lamp mechanism according to any one of claims 1 to 3, wherein the water discharge joint also has a water passage.   The faucet provided with the water signal lamp mechanism according to any one of claims 1 to 4, wherein the water signal board and the operation board are coupled by a lead wire and have an orthogonal arrangement relationship.   The faucet provided with the water signal lamp mechanism according to any one of claims 1 to 5, wherein the water signal board is positioned below a visual field range of the ring-shaped panel.   The water having a water signal lamp mechanism according to any one of claims 1 to 6, wherein the ring-shaped panel is sandwiched between an upper case and a discharge pipe fixing nut and fixed by screwing. plug.   The light emission color of the water signal lamp is the light emission color of the alkaline water selection lamp or the alkali switch provided on the operation panel, the light emission color of the water purification selection lamp or the color of the water purification switch, the light emission color of the acidic water selection lamp or the acid switch The faucet provided with the water signal lamp mechanism according to any one of claims 1 to 7, wherein the faucet is adapted to the color of the water. The faucet provided with the water signal lamp mechanism according to any one of claims 1 to 8, wherein the light emitter is an LED.

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