JP2017127391A - Dresser washstand - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a dresser washstand capable of suppressing generation of molds and growth of microbes in the inside of a scupper even when a drain plug capable of opening and closing the scupper is provided and even when many microbes adhere to the bowl part.SOLUTION: A dresser washstand comprises: a wash stand 110 comprising a bowl part 111 which comprises a drainage slope inclined downward toward a scupper 113, and a drain plug 112 capable of opening and closing the scupper; a water faucet device 120 which comprises a discharge part for discharging city water to the bowl part; and a functional water discharge device 130 for discharging functional water having sterilization action in a misty state. The functional water discharge device discharges the functional water in the misty state to land the functional water in a prescribed area in the vicinity of the scupper, suppresses the functional water landed in the prescribed area from spreading on the bowl part to create a water screen, and passes the water screen into the scupper along the drainage slope to guide the functional water to inside of the scupper.SELECTED DRAWING: Figure 5

Description

  Aspects of the present invention generally relate to a vanity.

  2. Description of the Related Art Generally, a bathroom vanity is known that includes a wash basin having a bowl portion provided with a drain outlet and a faucet device having a water discharge unit that discharges water to the bowl portion. Further, there is provided a water-around equipment washing apparatus comprising electrolyzed water generating means for generating functional water having a sterilizing action, and electrolyzed water spraying means for spraying functional water generated by the electrolyzed water generating means to the water-around equipment. Known (Patent Document 1). According to the water surrounding equipment cleaning apparatus described in Patent Document 1, it is possible to suppress the growth of bacteria on the surface of the bowl portion.

  Almost all of the water flowing on the surface of the bowl of the vanity flows into the drain. Therefore, in the bowl part, the drain outlet and the inside of the drain outlet are most often wetted. Since pods and bacteria are easy to propagate in wet places, a lot of sharks and bacteria are propagated inside the drain and the drain. Therefore, it is desirable to discharge the functional water also into the drain port and the drain port.

  In addition, when functional water such as electrolyzed water or ozone water reacts with bacteria, the sterilized component of the functional water that has been sterilized is lost. That is, for example, the concentration of functional water such as electrolyzed water or ozone water decreases when it reacts with bacteria. Here, the functional water landing range when functional water is discharged may expand on the landing surface due to the momentum of the discharged functional water. When functional water spreads after landing, it reacts with bacteria on a wide area of the surface of the bowl. As a result, the concentration of functional water may decrease when it flows into the drain.

  However, when the drain plug of the vanity is moved up and down to open and close the drain port, functional water cannot be directly discharged into the drain port due to the presence of the drain plug. Therefore, when the vanity is equipped with a drain plug that moves up and down in the vertical direction (when a drain plug that can open and close the drain port is permanently installed), functional water is unlikely to reach the interior of the drain port. There is a problem that it is difficult to suppress the occurrence of wrinkles and bacterial growth inside.

  Thus, according to the knowledge obtained by the present inventors, when the functional water that has landed on the bowl portion spreads on the surface of the bowl portion, the surface of the bowl portion can be sterilized, while the inside of the drain port Since functional water with reduced sterilization action flows in the, it becomes difficult to sterilize the inside of the drain. Therefore, there is a problem that it is difficult to suppress the generation of soot and the propagation of bacteria inside the drain outlet.

JP-A-10-28721

  The present invention has been made on the basis of recognition of such a problem, and even when a drain plug capable of opening and closing the drain port is permanently installed, even if a lot of bacteria adhere to the bowl portion, An object of the present invention is to provide a vanity that can suppress the occurrence of wrinkles and the growth of bacteria inside.

  The first invention includes a bowl portion having a drain opening and having a drain gradient inclined downward toward the drain opening, a wash basin having a drain plug capable of opening and closing the drain opening, and the bowl section. A faucet device having a water discharge unit that discharges tap water, and a functional water discharge device that discharges functional water having a sterilizing action in a mist shape, the functional water discharge device discharging the mist Functional water is made to land on a predetermined area near the drain, and the functional water that has landed on the predetermined area is prevented from spreading in the bowl portion to generate a water film, and the water film is made to the drain gradient. It is a bathroom vanity characterized by guide | inducing the said functional water to the inside of the said drain outlet by flowing along the said drain outlet along.

  Since a large number of bacteria adhere to the bowl part, the function water sterilization action that has directly landed on the bowl part is lost due to the reaction of the functional water with the bacteria on the surface of the bowl part. Therefore, according to the knowledge obtained by the inventors, when the functional water that has landed on the bowl portion spreads along the bowl portion, the surface of the bowl portion is sterilized while the inside of the drain outlet is sterilized. Since functional water with reduced action flows, it becomes difficult to disinfect the inside of the drain.

  On the other hand, in the vanity according to the first aspect, the functional water discharge device discharges the functional water in a mist toward a predetermined region of the bowl portion. Therefore, the functional water that has landed on the bowl becomes water droplets, and after a lapse of time, the functional water droplets combine to grow into a water film. The functional water grown on the water film flows into the drain outlet along the slope of the drainage gradient.

  Since the functional water is discharged to the predetermined area, the predetermined area is sterilized. Therefore, the functional water will land on the area where the bacteria are dying. Therefore, the functional water that flows into the drain port gradually flows into the drain port with a high sterilization effect. Therefore, even in a bathroom vanity in which a drain plug is permanently installed in the upper part of the drain port, generation of soot and bacterial growth inside the drain port can be suppressed.

  According to a second aspect of the present invention, in the first aspect, the predetermined area includes the entire periphery of the drain outlet.

  According to this vanity, the functional water lands on the entire periphery of the drain outlet to form a water film and flows into the drain outlet. For this reason, functional water efficiently spreads inside the drain outlet, so the amount of functional water required for sterilization inside the drain outlet can be reduced, and the time for discharging functional water from the functional water discharge device is shortened. be able to. Thereby, water saving can be aimed at. Moreover, when functional water is electrolyzed water, the energization time of an electrode can be shortened and power saving can be aimed at. Therefore, the cost for generating functional water can be reduced. In addition, consumption of the electrode can be suppressed, and the life of the electrode can be extended.

  According to a third aspect, in the second aspect, the inclination of the surface of the bowl portion between the functional water landing position and the inside of the drain outlet is from the water landing position to the inside of the drain outlet. It is a vanity characterized by gradually becoming steep toward.

  The functional water discharged in the form of a mist forms a water film in which water droplets are connected, and uses the slope (drainage gradient) of the bowl surface between the functional water landing position and the inside of the drain. It flows toward the inside of the drainage port with its own weight. At this time, the water film is divided by moving on the surface of the bowl portion, becomes smaller, and may not flow on the surface of the bowl portion even with its own weight. On the other hand, according to the bathroom vanity according to the third aspect of the invention, the inclination of the surface of the bowl portion between the functional water landing position and the interior of the drain outlet is from the landing position to the inside of the drain outlet. Since the water film gradually becomes steeper toward the water, the water film can surely flow into the drain outlet even if it becomes smaller.

  According to a fourth aspect of the present invention, in the second or third aspect of the present invention, the functional water discharged from the functional water discharge device is a full conical water discharged filled with the mist-like functional water. This is a vanity table.

  According to this vanity, functional water is discharged in a conical shape from the functional water discharge device. Moreover, the space inside the functional water discharged conically is filled with mist-like functional water. That is, the form of water discharged from the functional water discharge device is full conical water discharge. As a result, the drain plug can be sterilized, and soot generation and bacterial growth can be suppressed.

  According to the aspect of the present invention, even when a drain plug capable of opening and closing the drain port is permanently installed, even if a large amount of bacteria adheres to the bowl portion, generation of soot and propagation of bacteria inside the drain port A vanity table that can suppress the above is provided.

It is a typical perspective view showing the vanity table concerning embodiment of this invention. It is a block diagram showing the principal part structure of the vanity according to this embodiment. It is a typical perspective view which illustrates the example of the functional water discharge apparatus of this embodiment. It is typical sectional drawing showing the specific example of the functional water production | generation part of this embodiment. It is a typical perspective view showing the vicinity of the bowl part of this embodiment. It is the typical top view which looked at the bowl part of this embodiment from the top. It is typical sectional drawing in cut surface C7-C7 represented to FIG. It is typical sectional drawing in cut surface C8-C8 represented to FIG. It is typical sectional drawing in cut surface C9-C9 represented to FIG. It is typical sectional drawing in cut surface C10-C10 represented to FIG. It is typical sectional drawing showing the modification of the bowl part of this embodiment.

Embodiments of the present invention will be described below with reference to the drawings. In addition, in each drawing, the same code | symbol is attached | subjected to the same component and detailed description is abbreviate | omitted suitably.
FIG. 1 is a schematic perspective view showing a vanity according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a main configuration of the vanity according to the present embodiment.
FIG. 3 is a schematic perspective view illustrating a specific example of the functional water discharge device of the present embodiment.
FIG. 4 is a schematic cross-sectional view showing a specific example of the functional water generating unit of the present embodiment.

  The vanity table 100 according to the present embodiment includes a washstand 110, a faucet device 120, and a functional water discharge device 130. As shown in FIG. 1, the washstand 110 is provided on a cabinet 192, for example. A makeup mirror 191 may be provided on the washstand 110. In addition, the member arrange | positioned around the washstand 110 is not limited only to the cabinet 192 and the makeup mirror 191.

  In the present specification, the descriptions “up”, “down”, “right”, and “left” are based on the person who viewed the vanity 100 in front of the vanity 100, below, right, And left, respectively. In the present specification, the direction from the bathroom vanity 100 toward the person in front of the bathroom vanity 100 is defined as the “front” direction, and the opposite direction is defined as the “rear” direction.

  The washstand 110 has a bowl portion 111. The wash basin 110 has a drain port 113 (see FIG. 5). Details of the drain port 113 will be described later.

  As shown in FIG. 2, the faucet device 120 has a water discharger 121. The water discharger 121 discharges tap water 167 to the bowl 111. More specifically, the faucet device 120 is connected to a water supply source 145 via a branch fitting 142 and an on-off valve 144. The branch fitting 142 is provided, for example, under the bowl portion 111. The tap water 167 is discharged from the water discharge unit 121 to the bowl unit 111 through the on-off valve 144 when the on-off valve 144 is opened by manual operation of the operation lever 122 which is an operation unit of the faucet device 120. The In the present embodiment, the operation lever 122 and the on-off valve 144 are provided integrally with each other.

  The functional water discharge device 130 has an operation unit 131. For example, when the user operates the operation unit 131, the functional water discharge device 130 discharges the functional water 161 having a sterilizing action in a mist form. The particle size of the mist-like functional water 161 has a distribution and ranges from submicron order to over 2000 micrometers (μm). The average particle diameter of the mist-like functional water 161 is, for example, about 200 μm or more and 1500 μm or less. As shown in FIG. 2, the functional water discharge device 130 is connected to the water supply source 145 via the branch fitting 142 and the electromagnetic valve 143. The electromagnetic valve 143 is provided below the bowl part 111, for example. A functional water generator 150 is provided between the electromagnetic valve 143 and the functional water discharge device 130.

The functional water generation unit 150 generates functional water 161 having a sterilization effect. For example, as illustrated in FIG. 4, the functional water generation unit 150 includes an anode 151 and a cathode 152 inside, and the anode 151 and the cathode 152 are controlled by an energization control signal output from the control unit 141. And the tap water flowing through the space (flow path) between them can be electrolyzed. Tap water contains chloride ions. Chloride ions are contained as salt (NaCl), calcium chloride (CaCl ₂ ) and the like in a water source (for example, groundwater, dam water, river water, etc.).

Therefore, when a voltage is supplied between the anode 151 and the cathode 152, the reaction expressed by the formula (1) occurs at the cathode 152.

H ⁺ + e ⁻ → 1 / 2H ₂ ↑ (1)

On the other hand, when a voltage is supplied between the anode 151 and the cathode 152, the reactions expressed by the equations (2) and (3) occur at the anode 151.

2OH ⁻ → 2e ⁻ + H ₂ O + 1 / 2O ₂ ↑ (2)
Cl ⁻ → e ⁻ + 1 / 2Cl ₂ (3)

Chlorine generated in the formula (3) hardly exists as bubbles, and most of the chlorine is dissolved in water. Therefore, for the chlorine generated in formula (3), the reaction represented by formula (4) occurs. Thus, hypochlorous acid (HClO) is produced by electrolyzing chloride ions. As a result, the water electrolyzed in the functional water generator 150 changes to a liquid containing hypochlorous acid.

Cl ₂ + H ₂ O → HClO + H ⁺ + Cl ⁻ (4)

  Hypochlorous acid functions as a sterilizing component. The liquid containing hypochlorous acid is used to remove bacteria adhering to, for example, the bowl portion 111, the drain port 113, the interior 116 of the drain port 113, the hair catcher 165 (see FIGS. 9A to 9C), and the like. It can be sterilized.

When functional water reacts with bacteria, the reaction represented by formula (5) occurs.

R−H + HClO → R−OH + H ⁺ + Cl ⁻ (5)

“RH” represented in the formula (5) is an organic substance, for example, a bacterial cell. “R—OH” represented in the formula (5) is a decomposed organic substance. Thereby, bacterial cells are denatured and sterilized (sterilized). And if functional water reacts with bacteria, since a disinfection component (HClO) will be lost, as a result, the density | concentration of functional water (sanitization water) will fall.

Further, over time, the reaction represented by the formula (6) occurs.

2HClO → 2H ⁺ + 2Cl ⁻ + O ₂ (6)

In this way, the sterilization component (HClO) is lost over time, and as a result, the concentration of functional water (sanitized water) decreases.

  In addition, the functional water production | generation part 150 of this embodiment is not limited to producing | generating the liquid containing hypochlorous acid. For example, the functional water 161 generated in the functional water generator 150 may be a liquid containing ozone or the like. In addition, the functional water generating unit 150 is not limited to an electrolytic cell unit having an anode plate and a cathode plate.

  When the control unit 141 transmits a signal to the electromagnetic valve 143 and opens the electromagnetic valve 143, the tap water supplied from the water supply source 145 is supplied to the functional water generation unit 150 through the branch fitting 142 and the electromagnetic valve 143. The tap water supplied to the functional water generator 150 is generated as the functional water 161 in the functional water generator 150 and discharged from the functional water discharge device 130 to the bowl portion 111.

  For example, as illustrated in FIG. 3, the functional water discharge device 130 includes an operation unit 131, a functional water discharge unit 132, and an irradiation unit 133. For example, when the user operates the operation unit 131, the functional water discharge device 130 discharges the functional water 161 generated by the functional water generation unit 150 from the functional water discharge unit 132 toward the bowl unit 111. The functional water discharge device 130 may emit light from the irradiation unit 133 and irradiate the functional water 161 discharged from the functional water discharge unit 132 with light. The functional water 161 discharged in the form of a mist from the functional water spouting unit 132 lands on a predetermined area near the drain port 113. This will be further described with reference to the drawings.

FIG. 5 is a schematic perspective view showing the vicinity of the bowl portion of the present embodiment.
FIG. 6 is a schematic plan view of the bowl portion of this embodiment as viewed from above.
FIG. 7 is a schematic cross-sectional view taken along section line C7-C7 shown in FIG.
FIG. 8 is a schematic cross-sectional view taken along section line C8-C8 shown in FIG.

  As shown in FIGS. 5 to 8, the bowl portion 111 has a drain port 113. As shown in FIGS. 7 and 8, a drainage gradient inclined downward toward the drainage port 113 is formed on the surface 115 of the bowl portion 111. A drain plug 112 is provided on the drain port 113. The drain plug 112 is permanently installed in the portion of the drain port 113 and can open and close the drain port 113 by moving up and down in the vertical direction.

  Here, many bacteria are attached to the bowl portion. Therefore, the sterilization action of the functional water that has directly landed on the bowl portion is lost due to the reaction of the functional water with the bacteria on the surface of the bowl portion. Therefore, according to the knowledge obtained by the inventors, when the functional water that has landed on the bowl portion spreads along the bowl portion, the surface of the bowl portion is sterilized while the inside of the drain outlet is sterilized. Since functional water with reduced action flows, it becomes difficult to disinfect the inside of the drain.

  On the other hand, in the bathroom vanity 100 according to the present embodiment, the functional water discharge device 130 causes the functional water 161 discharged in the form of a mist to land on the predetermined area A1 near the drain port 113. The functional water discharge device 130 prevents the functional water 161 that has landed in the predetermined area A1 from spreading in the bowl portion 111 and forms a water film. Then, the functional water discharge device 130 guides the functional water 161 to the interior 116 (see FIG. 9) of the drain port 113 by flowing a water film along the drain gradient of the bowl portion 111 to the drain port 113. This will be further described with reference to the drawings.

FIG. 9 is a schematic cross-sectional view taken along section line C9-C9 shown in FIG.
FIG. 9A is a schematic cross-sectional view illustrating a state immediately after the functional water 161 discharged in a mist form from the functional water discharge device 130 has landed on the bowl portion 111. FIG. 9B is a schematic cross-sectional view showing a state in which water droplets are formed from the mist-like functional water 161. FIG. 9C is a schematic cross-sectional view showing a state in which water droplets have grown on a water film.

  As shown in FIG. 9A, the functional water discharge device 130 discharges the functional water 161 in a mist toward the bowl portion 111. That is, the functional water discharge device 130 causes the functional water 161 discharged in the form of a mist to land on the predetermined area A1 near the drain port 113.

  As shown in FIG. 9B, the functional water 161 that has landed on the bowl portion 111 becomes water droplets 162. As shown in FIG. 9C, the water droplets 162 of the functional water 161 are combined with each other and grow on the water film 163 over time. The functional water 161 that has grown on the water film 163 flows into the interior 116 of the drainage port 113 along the inclined surface of the drainage gradient of the bowl portion 111 due to the weight of the functional water 161 (the weight of the water film 163).

  Since the functional water 161 is discharged to the predetermined area A1, the predetermined area A1 is sterilized. Therefore, the functional water 161 reaches the predetermined area A1 where the bacteria are dying. Therefore, the functional water 161 flowing into the interior 116 of the drain port 113 gradually flows into the interior 116 of the drain port 113 in a state having a high sterilization effect. Therefore, it is possible to suppress the generation of wrinkles and bacterial growth in the entire edge 114 of the drain port 113, and even in the bathroom vanity 100 in which the drain plug 112 is permanently installed at the upper part of the drain port 113, Generation of soot and bacterial growth in the interior 116 of the drain port 113 can be suppressed.

  As described above, the sterilizing action of functional water (for example, electrolyzed water) is lost by reacting with the bacteria attached to the discharged object. Therefore, the functional water discharge device 130 has a certain flow rate, landing range, and discharge time so that the functional water having a certain concentration (for example, 1 ppm or more) flows into the drain along the drainage gradient. It is necessary to discharge the functional water 161 in the form of a mist. For example, the functional water discharge device 130 discharges the functional water 161 at a flow rate of 250 cc / min and at a discharge time of 10 seconds or more in a landing range whose diameter is 1 cm or more larger than the drain port 113. As a result, functional water having a certain concentration (for example, 1 ppm or more) can flow into the interior 116 of the drain port 113.

  As shown in FIGS. 5 and 6, the predetermined area A <b> 1 includes the entire periphery of the drain port 113. According to this, the functional water 161 lands on the entire periphery of the drain port 113 to form the water film 163 and flows into the interior 116 of the drain port 113. Therefore, since the functional water 161 is efficiently distributed to the inside 116 of the drain port 113, the amount of the functional water 161 necessary for sterilization of the inside 116 of the drain port 113 can be reduced, and the functional water is discharged from the functional water discharge device 130. The time for discharging 161 can be shortened. Thereby, water saving can be aimed at. In addition, when the functional water 161 is electrolyzed water, in other words, as illustrated in FIG. 4, when the functional water generating unit 150 is an electrolytic cell having electrodes, the energization time of the electrodes can be shortened. Can save power. Therefore, the cost for generating the functional water 161 can be reduced. In addition, consumption of the electrode can be suppressed, and the life of the electrode can be extended.

FIG. 10 is a schematic cross-sectional view taken along section plane C10-C10 shown in FIG.
As shown in FIGS. 7 and 10, the functional water 161 is discharged from the functional water discharge device 130 in a conical shape. The space inside the functional water 161 discharged in a conical shape is filled with the mist-like functional water 161. That is, the water discharge form of the functional water 161 discharged from the functional water discharge device 130 is full conical water discharge. Thereby, not only the periphery of the drain port 113 but also the drain plug 112 can be sterilized and cleaned.

FIG. 11 is a schematic cross-sectional view showing a modification of the bowl portion of the present embodiment.
FIG. 11 corresponds to a schematic cross-sectional view taken along the cutting plane C9-C9 shown in FIG.

  The functional water discharged from the functional water discharge device in the form of a mist forms a water film in which water droplets are connected, and the inclination of the surface of the bowl portion between the functional water landing position and the inside of the drain (drainage) It flows toward the inside of the drainage port by its own weight using a gradient. At this time, the water film is divided by moving on the surface of the bowl portion, becomes smaller, and may not flow on the surface of the bowl portion even with its own weight.

  On the other hand, in the bowl portion 111A shown in FIG. 11, the bowl portion 111A between the landing position of the functional water 161 discharged from the functional water discharge device 130 in the form of a mist and the interior 116 of the drain port 113. The slope of the surface 115 </ b> A gradually becomes steeper from the landing position of the functional water 161 toward the interior 116 of the drain port 113.

  According to this, the inclination of the surface 115A of the bowl portion 111A between the landing position of the functional water 161 and the inside 116 of the drain port 113 gradually increases from the landing position toward the inside 116 of the drain port 113. It is steep. Therefore, even if the water film 163 becomes small, the water film 163 can surely flow into the interior 116 of the drain port 113.

The embodiment of the present invention has been described above. However, the present invention is not limited to these descriptions. As long as the features of the present invention are provided, those skilled in the art appropriately modified the design of the above-described embodiments are also included in the scope of the present invention. For example, the shape, dimensions, material, arrangement, and the like of each element included in the functional water discharge device 130 and the functional water generation unit 150 and the installation form of the functional water discharge device 130 are not limited to those illustrated, but may be appropriate. Can be changed.
Moreover, each element with which each embodiment mentioned above is provided can be combined as long as technically possible, and the combination of these is also included in the scope of the present invention as long as it includes the features of the present invention.

DESCRIPTION OF SYMBOLS 100 Wash-stand vanity, 110 Wash-stand, 111, 111A Bowl part, 112 Drain plug, 113 Drain outlet, 114 Edge, 115, 115A Surface, 116 Inside, 120 Water faucet device, 121 Water discharge part, 122 Operation lever, 130 Function Water discharge device, 131 operation unit, 132 functional water discharge unit, 133 irradiation unit, 141 control unit, 142 branch fitting, 143 solenoid valve, 144 on-off valve, 145 water supply source, 150 functional water generation unit, 151 anode, 152 cathode, 161 functional water, 162 water droplets, 163 water film, 165 hair catcher, 167 tap water, 191 makeup mirror, 192 cabinet, A1 predetermined area

Claims (4)

A bowl portion having a drain outlet and a drain gradient inclined downward toward the drain outlet, and a wash basin having a drain plug capable of opening and closing the drain outlet;
A faucet device having a water discharge part for discharging tap water to the bowl part;
A functional water discharge device that discharges functional water having a sterilizing action in the form of a mist;
With
The functional water discharge device causes the functional water discharged in the form of a mist to land on a predetermined area near the drain, and prevents the functional water that has landed on the predetermined area from spreading in the bowl portion. A bathroom vanity characterized in that the functional water is guided to the inside of the drain by generating a water film and flowing the water film along the drain gradient to the drain.   2. The vanity according to claim 1, wherein the predetermined area includes the entire periphery of the drain outlet.   Inclination of the surface of the bowl portion between the functional water landing position and the inside of the drain port gradually becomes steeper from the landing position toward the inside of the drain port. The bathroom vanity according to claim 2. 4. The vanity according to claim 2 or 3, wherein the functional water discharged from the functional water discharge device is a full conical water discharge filled with the mist-like functional water. .