JP4613834B2 - Water treatment equipment - Google Patents

Description

  The present invention relates to a water treatment apparatus that treats raw water such as tap water and supplies the produced treated water.

  In the water treatment apparatus, a water supply unit provided in a kitchen or kitchen sink for supplying raw water such as tap water, a switching unit for switching the raw water channel, and water supply from the switching unit to the treatment unit. And a processing unit that generates treated water of a predetermined quality such as electrolyzed water, mineral water, or purified water.

  In addition, the switching unit includes a switching lever for operating the switching of the raw water channel and an operating unit for operating the processing unit wirelessly. The operating unit is detachably provided from the switching unit. Yes.

  In the above configuration, when the user sets a predetermined water quality with a switch provided on the operation unit of the switching unit, the setting content is transmitted from the switching unit to the processing unit by a radio signal.

Then, when the user operates the switching lever to switch the raw water channel and opens the faucet, the raw water is supplied from the switching unit to the processing unit. In this processing unit, the raw water is set to the water quality set by the operation unit. A water treatment device has been proposed in which treated water is generated by being treated, the treated water is returned from the treatment unit to the switching unit, and the treated water can be discharged from the switching unit (see Patent Document 1). ).
Japanese Patent Laid-Open No. 11-277046

  However, the water treatment device described in Patent Document 1 of the background art is configured such that the operation unit can be detached from the mounting unit of the switching unit regardless of the switching position of the switching lever.

  For this reason, when the treated water having a predetermined water quality generated in the treatment unit is discharged from the switching unit, that is, when the treatment unit is in an operating state, for example, when the user cleans the operation unit or When the battery used for the power source of the operation unit is replaced, when removing the operation unit from the switching unit, a switch other than the switch set in advance by the user may be erroneously pressed.

  Due to the so-called erroneous operation of the operation unit, for example, treated water having a water quality different from the water quality set by the user is generated in the treatment unit and discharged from the switching unit.

  The present invention solves the above-mentioned problems of the background art, and when the raw water channel is switched to a water channel that supplies raw water to the treatment unit, removal of the operation unit is prevented. Accordingly, an object of the present invention is to provide a water treatment device that can prevent erroneous operation of the operation unit.

  In order to solve the above-mentioned problem, the invention described in claim 1 of the present application is provided in a faucet for supplying raw water and discharging a raw water, or a water channel for supplying raw water to a processing unit for processing the raw water. A switching unit for switching is provided, and the switching unit is detachably equipped with an operation unit for wirelessly operating the processing unit, and the operation unit is switched by switching the raw water channel of the switching unit to a water channel for supplying raw water to the processing unit. Is prevented from being removed.

Further, the invention of claim 1 wherein is the SWITCHING unit includes an operation lever for operating the switch of the raw water of the water channel, the operation unit, when detaching the operation unit is provided with a finger receiving portion applying a hand, The operation lever is switched to a water channel for supplying raw water to the treatment unit, so that the handle portion is hidden by the operation lever, so that the removal of the operation portion is prevented.

The invention of claim 2, in water treatment apparatus of the claim 1 Symbol placement, is characterized in that the operation unit is in no as magnetically attached to the switching unit.

The invention according to claim 3 of the present application is the water treatment apparatus according to claim 1 or 2, wherein the switching unit includes a bottomed recess in which the operation unit is mounted, and the operation unit stores a battery. A storage part is provided, and when the operation part is mounted in the bottomed recess, the storage part is arranged to face the bottom part of the bottomed recess.

Invention of Claim 4 of this application WHEREIN: The water treatment apparatus of any one of the said Claim 1 to 3 WHEREIN: An operation part is provided with the display part which displays the switched water channel, and an operation part is a switching unit. It is characterized in that it is possible to clean the inside of the display unit by removing from the inside.

  In the water treatment apparatus according to the first aspect of the present invention, when the raw water channel of the switching unit is switched to the water channel supplying the raw water to the treatment unit, removal of the operation unit is prevented. Thus, it is possible to provide a water treatment apparatus that can prevent erroneous operation of the operation unit and can constantly supply treated water of the quality set by the user.

In the water treatment apparatus according to the first aspect of the present invention, particularly when the switching position of the operation lever for operating the switching of the raw water channel is switched to the water channel for supplying the raw water to the processing unit, Since the handle portion to be put on when removing the portion is hidden by the switching lever, it is possible to reliably prevent erroneous operation of the operation portion by preventing the removal of the operation portion with a simple configuration.

In the water treatment device of the invention according to claim 2 of the present application, in particular, by magnetizing the operation unit to the switching unit, the operation unit can be easily detached from the switching unit and can be easily attached. In addition, it is possible to prevent the operation unit attached to the switching unit from falling off.

In the water treatment device of the invention according to claim 3 of the present application, in particular, the switching unit is provided with a bottomed recess to which the operation part is attached, and when the operation part is attached to the bottomed recess, By disposing the battery storage part of the operation part so as to face the bottom part of the bottomed recess, the switching unit prevents water from splashing from below the switching unit and is prevented from getting wet into the storage part. Since water splashed from above can also be prevented from getting wet in the storage section, the water resistance of the storage section can be improved.

In the water treatment device according to the invention of claim 4 of the present application, in particular, when the operation unit is removed from the switching unit when the operation unit is provided with a display unit that displays the switched water channel, the inside of the display unit Since the inside of the display unit can be cleaned by opening, the water channel displayed on the display unit can always be surely confirmed.

  1 to 9 show a water treatment apparatus according to a first embodiment of the present invention. As shown in FIGS. 1 to 9, this water treatment apparatus is attached to a faucet 1 that supplies raw water, and switches to a water channel that discharges raw water or a water channel that supplies raw water to a treatment unit 3 that processes the raw water. A switching unit 2 is provided, and the switching unit 2 is detachably provided with an operation unit 5 for operating the processing unit 3 wirelessly, and the raw water channel of the switching unit 2 is switched to a water channel for supplying raw water to the processing unit 3. This prevents the operation unit 5 from being removed.

  Further, the switching unit 2 is provided with an operation lever 4 for operating the switching of the water channel of the raw water, and the operation unit 5 is provided with a convex portion 35 as a handle for holding a hand when the operation unit 5 is removed. The lever 4 is switched to a water channel for supplying raw water to the processing unit 3, so that the operation portion 5 is prevented from being removed by hiding the convex portion 35 as a handle portion by the operation lever 4.

  Hereinafter, the water treatment apparatus of this embodiment will be described in more detail. As shown in FIGS. 1 to 3, there is a faucet 1 that is provided in a kitchen or kitchen sink and feeds raw water such as tap water and is manually opened and closed by a user. When the unit 2 is provided and the user switches the switching lever 4 as the switching unit of the switching unit 2, the raw water can be supplied to the processing unit 3 through the water supply pipe 7 connected to the switching unit 2. .

  A connection port 8 for connecting the switching unit 2 to the faucet 1 is provided at the upper part of the switching unit 2, and this connection port 8 is fixed to the faucet 1 by a nut 9.

  In addition, an operation unit 5 for operating the processing unit 3 is provided in front of the switching unit 2. A plurality of switches 10 for setting a predetermined water quality are set on the upper part of the operation unit 5 and set by the switch 10. A transmission unit 11 that wirelessly transmits the content thus processed to the processing unit 3 and a display unit 12 that displays a switched water channel made of a transparent resin or the like are provided. On the front side, a switching lever 4 for switching the channel of the raw water is provided.

  Furthermore, at the lower part of the switching unit 2, when the raw water channel is switched by the switching lever 4, the straight port 13 that discharges the raw water as it is, the shower port 14 that discharges the raw water in the form of a shower, and the processing unit 3. A water discharge port 15 for discharging the treated water returned from is disposed.

  And in the rear part of the switching unit 2, a water supply port 16 to which the water supply pipe 7 is connected and a return port 18 to which a return pipe 17 for returning treated water from the processing unit 3 to the switching unit 2 is connected are provided. The water supply pipe 7 and the return pipe 17 are fixed to the water supply port 16 and the return port 18 by nuts 9, respectively.

  Next, in the treatment unit 3, a water purification unit 19 that performs purification of raw water, and an electrolytic cell 20 that electrolyzes raw water purified in the water purification unit 19 to generate alkaline ionized water and acidic ionized water, And a control unit 21 for controlling an electrolytic voltage applied to the electrolytic cell 20 and the like.

  At the upper part of the processing unit 3, a receiving unit 22 connected to the control unit 21 and receiving a radio signal transmitted from the operation unit 5 is provided. The control unit 21 is supplied with power to the control unit 21. A power cord 23 is connected.

  The raw water supplied to the treatment unit 3 by the water supply pipe 7 is introduced into the treatment unit 3 by the introduction pipe 24 connected to the water supply pipe 7. In the middle of the introduction pipe 24, residual chlorine contained in the raw water Activated carbon for removing water turbidity or trihalomethane to perform water purification treatment, a water purification unit 19 incorporating a hollow fiber membrane or the like, and a water purification unit 19 that detects the flow rate of the purified water and controls the control unit 21 The flow rate sensor 25 is arranged for transmission to.

  Further, the introduction pipe 24 is branched into two on the downstream side of the flow sensor 25, and the chamber on the electrode 26 side divided into two chambers by the diaphragm 25 a in the electrolytic cell 20, and the electrode 27 side, respectively. Connected to the room.

  The introduction pipe 24 connected to the chamber on the electrode 26 side is connected to a discharge pipe 28 for discharging a part of the purified water supplied from the introduction pipe 24 and the accumulated water in the electrolytic cell 20. A resistor 29 made of an orifice or the like for restricting the flow rate in the discharge pipe 28 is disposed therein.

  Further, the introduction pipe 24 connected to the chamber on the electrode 27 side is provided with an addition portion 30 for adding an electrolytic auxiliary agent such as calcium glycerophosphate and calcium lactate, and is provided above the addition portion 30. By removing the lid 31, it is possible to replenish the electrolytic auxiliary agent as necessary.

  Since the electrode 26 is normally on the negative side and the electrode 27 is on the positive side, alkali ion water is generated in the chamber on the electrode 26 side, and the generated alkali ion water is stored in the chamber on the electrode 26 side. Is returned to the switching unit 2 from the water discharge pipe 32 connected to the upper portion of the water supply pipe via the return pipe 17 to which the water discharge pipe 32 is connected.

  On the other hand, acidic ionic water is generated in the chamber on the electrode 27 side, and the generated acidic ionic water is drained out of the processing unit 3 through a drain pipe 33 connected to an upper portion of the chamber on the electrode 27 side. The drain pipe 33 is connected to the drain pipe 28, and part of the purified water supplied from the introduction pipe 24 and stagnant water in the electrolytic bath 20 are also drained out of the processing unit 3 from the drain pipe 33. ing.

  Next, as shown in FIG. 2, the operation unit 5 is configured to be detachable from a mounting unit 6 provided at the front of the switching unit 2, and the operation unit 5 is provided on both sides of the operation unit 5. When mounted on the mounting portion 6, the projection 34 is inserted into the grooves 33 a formed on both sides inside the mounting portion 6 to prevent the operating portion 5 from falling off the mounting portion 6, and the operating portion 5. When removing from the mounting part 6, the convex part 35 which makes a removal easy by hooking a finger | toe etc. of a user's hand is provided.

  On the upper side of the mounting portion 6, a display plate 36 that describes the type of water channel and rotates in conjunction with the switching lever 4 to display the switched water channel on the display unit 12 of the operation unit 5 is provided.

  As shown in FIG. 3, a storage unit 37 for storing a battery (not shown) serving as a power source for the operation unit 5 is provided below the operation unit 5. By removing from 5, the battery can be replaced.

  Next, as shown in FIG. 4, when the switching position of the switching lever 4 is located below, the switching unit 2 switches the raw water to a water channel that discharges water from the straight port 13 provided at the lower part of the switching unit 2. At this time, since the switching position of the switching lever 4 is located below, the projections 35 provided on both sides of the operation unit 5 are exposed, so that the user can The operating portion 5 can be easily detached from the mounting portion 6 by hooking the protrusion 35 on the convex portion 35.

  On the other hand, as shown in FIG. 5, when the switching position of the switching lever 4 is located above, the switching unit 2 switches the raw water to a water channel that discharges water from the shower port 14 provided around the straight port 13. Also at this time, since the switching position of the switching lever 4 is located upward, the convex portions 35 provided on both sides of the operation unit 5 are exposed. The operation part 5 can be easily detached from the mounting part 6 by hooking the finger or the like on the convex part 35.

  When the switching position of the switching lever 4 is substantially horizontal, the switching unit 2 is switched to a water channel that supplies raw water to the treatment unit 3 from the water supply port 16. Since the convex portion 35 formed on the convex portion 35 is hidden inside the switching lever 4, the user cannot hook a finger or the like on the convex portion 35. Removal from 6 is prevented.

  Next, as shown in FIG. 6, when the water channel of the switching unit 2 is switched to a water channel that discharges raw water from the straight port 13, the valve rod 38 provided in the switching unit 2 is connected to the switching lever 4. The cam 39 provided on the center side of the valve stem 38 presses the valve body 40 on the center side and the spring 41 attached to the valve body 40 to rotate to the straight port 13. The water channel 42 is opened.

  Further, as shown in FIG. 7, when the water channel of the switching unit 2 is switched to a water channel that discharges raw water from the shower port 14, the valve rod 38 provided in the switching unit 2 is interlocked with the switching lever 4. The cam 39 provided on the side portion of the valve rod 38 presses the valve body 40 on the side portion and the spring 41 attached to the valve body 40, thereby bringing the cam 39 into the shower port 14. The water passage 42 is opened.

  Further, as shown in FIG. 8, when the water channel of the switching unit 2 is switched to a water channel for supplying raw water to the treatment unit 3, the valve rod 38 provided in the switching unit 2 is interlocked with the switching lever 4. Then, a cam 39 provided on the side of the valve rod 38 opposite to the above is attached to the valve body 40 and the valve body 40 disposed on the side of the opposite side. By pushing the spring 41, the water passage 42 to the processing unit 3 is opened.

  As shown in FIG. 9, the raw water introduced into the water supply introduction pipe 43 from the water passage 42 is supplied to the water supply pipe 7 from the water supply port 16 provided at the tip of the water supply introduction pipe 43. The treated water returned from the return pipe 17 is discharged from the water outlet 15 through the water discharge introduction pipe 44.

  With the above configuration, the operation of the water treatment apparatus according to the first embodiment of the present invention will be described with reference to FIGS.

  When the user operates the switching lever 4 of the switching unit 2 to switch the type of water channel displayed on the display unit 12 of the operation unit 5 attached to the switching unit 2 to purified water, the switch unit 2 is provided in the switching unit 2. The driven valve stem 38 rotates in conjunction with the switching lever 4, and the cam 39 disposed on the side portion of the valve stem 38 pushes the valve body 40 and the spring 41 on the side portion, thereby processing unit 3. The waterway 42 to is opened.

  At this time, the switching position of the switching lever 4 is a substantially horizontal position as shown in FIG. 5, and the convex portions 35 provided on both sides of the operation unit 5 are hidden inside the switching lever 4. Therefore, removal of the operation unit 5 from the mounting unit 6 of the switching unit 2 is prevented.

  Next, when a predetermined water quality (in this example, alkali is selected) is set by the switch 10 provided in the operation unit 5, the setting content is transmitted from the transmission unit 11 of the operation unit 5 by a radio signal.

  The transmitted radio signal is received by the receiving unit 22 of the processing unit 3 and transmitted to the control unit 21 of the processing unit 3. The control unit 21 that has received the setting content performs switching so that the set water quality (in this case, alkaline ionized water) is generated in the processing unit 3.

  Next, when the user opens the faucet 1, raw water such as tap water supplied from the faucet 1 to the switching unit 2 flows from the water passage 42 into the water supply introduction passage 43. Water is supplied to the processing unit 3 through a water supply pipe 7 connected to a water supply port 16 provided at the tip.

  The raw water supplied to the treatment unit 3 is introduced into the water purification unit 19 from the introduction pipe 24 connected to the water supply pipe 7, and in the water purification unit 19, residual chlorine, trihalomethane, and the like in the raw water are adsorbed by activated carbon, By removing general bacteria, impurities, and the like by the hollow fiber membrane, the raw water is purified.

  In the water purification unit 19, the purified water generated by subjecting the raw water to the water purification process flows again through the introduction pipe 24 and passes through the flow sensor 25. At this time, the flow rate of the purified water flowing through the introduction pipe 24 is changed in the flow sensor 25. The detected flow rate is detected and transmitted to the control unit 21.

  The purified water that has passed through the flow sensor 25 is introduced into each of the two branched introduction pipes 24 on the downstream side of the flow sensor 25, and the purified water that flows through one of the introduction pipes 24 is on the electrode 26 side of the electrolytic cell 20. Although flowing into the chamber, a part of the purified water is drained from the discharge pipe 28 connected to the introduction pipe 24 to the drain pipe 33 and then to the outside of the processing unit 3.

  Since the resistor 29 including an orifice or the like for regulating the flow rate of purified water flowing through the discharge pipe 28 is disposed in the discharge pipe 28, the flow rate of the purified water discharged to the discharge pipe 28 is closer to the electrode 26 side. It is set so that the flow rate of the purified water flowing into the chamber is larger.

  Further, the purified water flowing through the other introduction pipe 24 flows into the chamber on the electrode 27 side after an electrolysis auxiliary agent such as calcium glycerophosphate or calcium lactate is added in the addition section 30.

  Alkaline ion water is generated in the chamber on the electrode 26 side into which the purified water has flowed in, and acidic ion water is generated in the chamber on the electrode 27 side in which the purified water to which the electrolytic assistant has been added flows.

  And the produced | generated alkaline ionized water flows out into the water discharge pipe 32 connected to the chamber by the side of the electrode 26, is returned to the switching unit 2 via the return pipe 17 to which this water discharge pipe 32 was connected, and acidic ion water Is drained out of the processing unit 3 through a drain pipe 33 connected to the chamber on the electrode 27 side.

  The alkaline ionized water returned to the switching unit 2 from the return pipe 17 is discharged from the return port 18 through the water discharge introduction pipe 44 and from the water outlet 15 provided at the lower part of the switching unit 2.

  As described above, since the switching position of the switching lever 4 of the switching unit 2 is a substantially horizontal position, the convex portions 35 provided on both sides of the operation unit 5 are located on the inner side of the switching lever 4. Hiding.

  Therefore, since the operation unit 5 is prevented from being removed from the mounting unit 6 of the switching unit 2, the battery is removed from the storage unit 37 when the operation unit 5 is cleaned or the battery of the operation unit 5 is replaced. When the operation unit 5 is removed from the mounting unit 6 in some cases, it is possible to prevent erroneous operation of the operation unit 5 due to accidental pressing of the switch 10 other than the switch 10 set in advance by the user. The treated water of the quality set by the user (in this case, alkali ion water) is discharged from the outlet 15.

  When the user closes the faucet 1, the supply of raw water from the switching unit 2 to the processing unit 3 is stopped, so that the flow rate sensor 25 provided in the introduction pipe 24 of the processing unit 3 flows in the introduction pipe 24. It is detected that water flow is stopped and transmitted to the control unit 21, and the control unit 21 stops the electrolysis voltage applied to the electrolytic cell 20, so that the alkaline ionized water and acidity in the electrolytic cell 20 are stopped. The production of ionic water is stopped.

  When the supply of raw water is stopped, the accumulated water in the chamber on the electrode 26 side of the electrolytic cell 20 and the accumulated water in the introduction pipe 24 and the water discharge pipe 32 connected to the chamber on the electrode 26 side are discharged into the discharge pipe 28. Further, the water is discharged out of the processing unit 3 through the drain pipe 33, and the operation of the water treatment apparatus is completed.

  On the other hand, when the user operates the switching lever 4 of the switching unit 2 to switch the type of water channel displayed on the display unit 12 of the operation unit 5 attached to the switching unit 2 to a shower, Is rotated in conjunction with the switching lever 4, and the cam 39 disposed on the side of the valve stem 38 presses the valve body 40 and the spring 41 on the side, thereby causing a shower. A water passage 42 to the mouth 14 is opened.

  At that time, the switching position of the switching lever 4 is an upper position as shown in FIG. 5 and the convex portions 35 provided on both sides of the operation unit 5 are exposed. The operation unit 5 can be detached from the mounting unit 6 of the switching unit 2 by hooking the finger or the like on the convex portion 35.

  At this time, even if the processing unit 3 is not in an operating state and treated water is not discharged from the switching unit 2, even if the switch 10 other than the switch 10 set in advance by the user is accidentally pressed. This does not mean that the operation unit 5 has been erroneously operated.

  In addition, after removing the operation unit 5 from the mounting unit 6, the operation unit 5 can be cleaned or the battery can be replaced from the storage unit 37 of the operation unit 5. When the operation unit 5 is mounted on the mounting unit 6 again, the projections 34 provided on both sides of the operation unit 5 are fitted into the grooves 33a formed on both side portions of the mounting unit 6 so that the operation unit 5 is operated. It is possible to prevent the part 5 from falling off the mounting part 6.

  Next, when the user opens the faucet 1, raw water such as tap water supplied from the faucet 1 to the switching unit 2 is introduced from the water passage 42 into the shower port 14 and discharged from the shower port 14. . When the user closes the faucet 1, the supply of raw water is stopped, and the water discharged from the shower port 14 is also stopped.

  Further, when the user operates the switching lever 4 of the switching unit 2 to switch the type of water channel displayed on the display unit 12 of the operation unit 5 attached to the switching unit 2 to raw water, The valve rod 38 provided on the center of the valve rod 38 rotates in conjunction with the switching lever 4, and the cam 39 disposed on the center side of the valve rod 38 pushes the valve body 40 and the spring 41 on the center side. The waterway 42 to is opened.

  At this time, the switching position of the switching lever 4 is a lower position as shown in FIG. 4 and the convex portions 35 provided on both sides of the operation unit 5 are exposed. The operation unit 5 can be detached from the mounting unit 6 of the switching unit 2 by hooking the finger or the like on the convex portion 35.

  At this time, even if the processing unit 3 is not in an operating state and treated water is not discharged from the switching unit 2, even if the switch 10 other than the switch 10 set in advance by the user is accidentally pressed. This does not mean that the operation unit 5 has been erroneously operated.

  In addition, after the operation unit 5 is removed from the mounting unit 6, the battery can be replaced by cleaning the operation unit 5 or the storage unit 37 of the operation unit 5. When the operation unit 5 is mounted on the mounting unit 6 again, the projections 34 provided on both sides of the operation unit 5 are fitted into the grooves 33a formed on both side portions of the mounting unit 6 so that the operation unit 5 is operated. It is possible to prevent the part 5 from falling off the mounting part 6.

  Next, when the user opens the faucet 1, raw water such as tap water supplied from the faucet 1 to the switching unit 2 is introduced from the water passage 42 into the straight port 13 and discharged from the straight port 13. . When the user closes the faucet 1, the supply of raw water is stopped, and water discharge from the straight port 13 is also stopped.

  As described above, according to the first embodiment of the present invention, when the switching position of the switching lever 4 of the switching unit 2 is substantially horizontal, that is, when the raw water is switched to the water channel for supplying water to the processing unit 3, the operation unit 5 Since the projections 35 provided on both sides of the switch are hidden inside the switching lever 4, the user is prevented from removing the operation unit 5 from the mounting unit 6 of the switching unit 2.

  For this reason, when removing the operation part 5 from the mounting part 6 when cleaning the operation part 5 or when removing the battery from the storage part 37 in order to replace the battery of the operation part 5, the user sets in advance. Since it is possible to prevent erroneous operation of the operation unit 5 due to, for example, pressing the switch 10 other than the switch 10 by mistake, it is possible to provide a water treatment apparatus capable of supplying treated water of water quality set by the user at all times. .

  Further, when the position of the switching lever 4 is above or below, since the convex portions 35 provided on both sides of the operation portion 5 are exposed, the user hooks a finger or the like on the convex portion 35. Accordingly, the operation unit 5 can be detached from the mounting unit 6 of the switching unit 2, and the operation unit 5 can be cleaned or the battery can be replaced from the storage unit 37 of the operation unit 5 as necessary.

  FIG. 10 shows a water treatment apparatus according to the second embodiment of the present invention. Here, only matters different from the first embodiment will be described, and the description of the first embodiment is used for those having the same configuration, operational effects, and the like.

  As shown in FIG. 10, the second embodiment of the present invention is different from the first embodiment in that convex portions 35 are formed on both side portions of the operation portion 5 and grooves 33 a on both side portions inside the mounting portion 6. The magnet 45 can be adsorbed to the place where the thin plate-shaped magnet 45 is attached to the lower side of the operation unit 5 and the operation unit 5 of the mounting unit 6. A suction plate 46 made of a metal such as iron or nickel is provided.

  Furthermore, a cleaning port 47 that can clean the inside of the display unit 12 is provided behind the operation unit 5 and below the display unit 12.

  Based on the above differences, the operation of the water treatment apparatus according to the second embodiment of the present invention will be described with reference to FIGS.

  When the user operates the switching lever 4 of the switching unit 2 to switch the type of water channel that is attached to the switching unit 2 and displayed on the display unit 12 of the operation unit 5 to purified water, the above first The operation is the same as that of the embodiment.

  On the other hand, when the user operates the switching lever 4 to switch the type of water channel displayed on the display unit 12 of the operation unit 5 to the shower, the switching lever 4 is operated similarly to the operation of the first embodiment. As shown in FIG. 5, the switching position is an upper position, and the convex portions 35 provided on both sides of the operation portion 5 are exposed. The operation unit 5 can be detached from the mounting unit 6 of the switching unit 2 by being hooked on 35.

  At this time, the operation unit 5 is mounted by attaching a thin plate-shaped magnet 45 attached to the lower side of the operation unit 5 to a suction plate 46 provided at a position facing the operation unit 5 of the mounting unit 6. Since it is attached to the part 6, the operation part 5 can be easily detached from the attachment part 6 of the switching unit 2.

  At that time, since the treatment unit 3 is not in an operating state and treated water is not discharged from the switching unit 2, the switch 10 other than the switch 10 set in advance by the user is accidentally pressed. However, it does not mean that the operation unit 5 has been erroneously operated.

  At that time, since the treatment unit 3 is not in an operating state and treated water is not discharged from the switching unit 2, the switch 10 other than the switch 10 set in advance by the user is accidentally pressed. However, it does not mean that the operation unit 5 has been erroneously operated.

  In addition, after the operation unit 5 is removed from the mounting unit 6, the operation unit 5 can be cleaned or the battery can be replaced from the storage unit 37 of the operation unit 5, but the cleaning provided at the rear part of the operation unit 5 From the opening 47, the back side of the display unit 12 can also be cleaned. Therefore, the type of water channel of the switching unit 2 displayed on the display unit 12 can always be reliably confirmed.

  When the operation unit 5 is mounted on the mounting unit 6 again, the thin plate-shaped magnet 45 attached to the lower side of the operation unit 5 is simply mounted on the mounting unit 6. Therefore, the operation unit 5 can be mounted on the mounting unit 6 very easily, and the operation unit 5 can be prevented from falling off the mounting unit 6.

  Next, when the user opens the faucet 1, raw water such as tap water supplied from the faucet 1 to the switching unit 2 is introduced from the water passage 42 into the shower port 14 and discharged from the shower port 14. . When the user closes the faucet 1, the supply of raw water is stopped, and the water discharged from the shower port 14 is also stopped.

  Further, when the user operates the switching lever 4 to switch the type of water channel displayed on the display unit 12 of the operation unit 5 to raw water, the operation of the switching lever 4 is similar to the operation of the first embodiment. As shown in FIG. 4, the switching position is a lower position, and the convex portions 35 provided on both sides of the operation portion 5 are exposed. The operation unit 5 can be detached from the mounting unit 6 of the switching unit 2 by being hooked on the mounting unit 6.

  At this time, the operation unit 5 is mounted by attaching a thin plate-shaped magnet 45 attached to the lower side of the operation unit 5 to a suction plate 46 provided at a position facing the operation unit 5 of the mounting unit 6. Since it is attached to the part 6, the operation part 5 can be easily detached from the attachment part 6 of the switching unit 2.

  In addition, after the operation unit 5 is removed from the mounting unit 6, the operation unit 5 can be cleaned or the battery can be replaced from the storage unit 37 of the operation unit 5, but the cleaning provided at the rear part of the operation unit 5 From the opening 47, the back side of the display unit 12 can also be cleaned. Therefore, the type of water channel of the switching unit 2 displayed on the display unit 12 can always be reliably confirmed.

  When the operation unit 5 is mounted on the mounting unit 6 again, the thin plate-shaped magnet 45 attached to the lower side of the operation unit 5 is simply mounted on the mounting unit 6. Therefore, the operation unit 5 can be mounted on the mounting unit 6 very easily, and the operation unit 5 can be prevented from falling off the mounting unit 6.

  Next, when the user opens the faucet 1, raw water such as tap water supplied from the faucet 1 to the switching unit 2 is introduced from the water passage 42 into the straight port 13 and discharged from the straight port 13. . When the user closes the faucet 1, the supply of raw water is stopped, and water discharge from the straight port 13 is also stopped.

  As described above, according to the second embodiment of the present invention, the thin plate-shaped magnet 45 attached to the lower side of the operation unit 5 and the suction plate provided at a location facing the operation unit 5 of the mounting unit 6. 46 makes it possible to attach the operation unit 5 to the attachment unit 6 very easily, and to prevent the operation unit 5 from dropping from the attachment unit 6. Further, the operation unit 5 can be easily detached from the mounting unit 6.

  In addition, when the operation unit 5 is removed from the mounting unit 6 by the cleaning port 47 provided at the rear part of the operation unit 5, the back side of the display unit 12 can be cleaned, so that it is displayed on the display unit 12. The type of water channel of the switching unit 2 can be confirmed reliably at all times.

  FIG. 11 shows a water treatment apparatus according to the third embodiment of the present invention. Here, only matters different from the first embodiment will be described, and the description of the first embodiment is used for those having the same configuration, operational effects, and the like.

  As shown in FIG. 11, the third embodiment of the present invention differs from the first embodiment in that the mounting portion 6 of the switching unit 2 is formed as a bottomed recess, and the mounting portion 6 The bottom part 49 of the battery 48 is opposed to the lower side of the operation part 5 provided with the storage part 37 of the battery 48, so that the water scattered from below the switching unit 2 is not covered with the storage part 37. It is in place.

  In addition, since the storage unit 37 is provided below the operation unit 5, water stored in the storage unit 37 is not covered with water splashed from above the switching unit 2.

  Based on the above differences, the operation of the water treatment apparatus according to the third embodiment of the present invention will be described with reference to FIG.

  Generated in the processing unit 3 after the user operates the switching lever 4 of the switching unit 2 to switch the type of water channel displayed on the display unit 12 of the operation unit 5 attached to the switching unit 2 to purified water. Until the treated water is discharged from the water outlet 15 provided at the lower part of the switching unit 2, the operation is the same as that of the first embodiment.

  At this time, even if the treated water spouted from the spout 15 hits the sink of the sink or the tableware placed in the sink and bounces back to the switching unit 2 from below the switching unit 2, The bottom 49 prevents the storage portion 37 of the battery 48 provided below the operation portion 5 from getting wet.

  In addition, since the storage unit 37 is provided below the operation unit 5, water stored in the storage unit 37 is not covered with water splashed from above the switching unit 2. Therefore, the waterproofness of the storage part 37 can be improved.

  And since the switching position of the switching lever 4 of the switching unit 2 is a substantially horizontal position, the convex part 35 provided in the both sides of the operation part 5 is hidden inside the switching lever 4.

  Therefore, since the operation unit 5 is prevented from being removed from the mounting unit 6 of the switching unit 2, the battery is removed from the storage unit 37 when the operation unit 5 is cleaned or the battery of the operation unit 5 is replaced. When the operation unit 5 is removed from the mounting unit 6 in some cases, it is possible to prevent erroneous operation of the operation unit 5 due to accidental pressing of the switch 10 other than the switch 10 set in advance by the user. The treated water of the quality set by the user (in this case, alkali ion water) is discharged from the outlet 15.

  The operation after the user closes the faucet 1 and the supply of raw water from the switching unit 2 to the processing unit 3 is stopped is the same as the operation of the first embodiment.

  Further, even when the raw water is discharged from the straight port 13 or the shower port 14 of the switching unit 2, the water 49 scattered from below the switching unit 2 is covered by the storage unit 37 by the bottom 49 of the mounting unit 6. The storage unit 37 is provided on the lower side of the operation unit 5, and water that has splashed from above the switching unit 2 is prevented from being wetted by the storage unit 37. Therefore, the waterproofness of the storage part 37 can be improved.

  As described above, according to the third embodiment of the present invention, the mounting portion 6 of the switching unit 2 is formed as a bottomed recess, and the bottom portion 49 of the mounting portion 6 is provided with the storage portion 37 of the battery 48. Since the operation unit 5 faces the lower side of the operation unit 5, the water splashed from below the switching unit 2 is prevented from getting wet in the storage unit 37.

  In addition, since the storage unit 37 is provided below the operation unit 5, water stored in the storage unit 37 is not covered with water splashed from above the switching unit 2. Therefore, the waterproofness of the storage part 37 can be improved.

  In the embodiment of the present invention, only alkaline ion water is shown as the treated water generated in the treatment unit 3, but in the treatment unit 3, when the electrode 26 is on the plus side, the electrode The acidic ion water produced in the chamber on the 26th side, or so-called purified water produced without electrolysis in the electrolytic cell 20 after purification in the water purification unit 19 can also be supplied.

  Further, in the processing unit 3, a mineral is added to the raw water to produce mineral water, an ion exchange resin or the like, and a soft water production unit for producing soft water, or similarly an ion exchange resin or the like. Thus, a nitrate nitrogen removing unit for removing nitrate nitrogen in the raw water may be provided.

  Furthermore, the processing unit 3 may be installed on a sink or may be a so-called built-in type in which the processing unit 3 is installed in the sink.

  The type of radio signal is not particularly shown, but infrared rays, ultrasonic waves, weak radio waves, or the like may be used as the radio signal.

  In the second embodiment of the present invention, the material of the suction plate 46 is a metal such as iron or nickel, but the magnet 45 may be used for the suction plate 46. In this case, the magnet 45 can be attracted to the suction plate 46 by making the magnetic pole on the surface of the magnet 45 provided in the operation unit 5 different from the magnetic pole on the surface of the suction plate 46.

The side view which shows the structure of the water treatment apparatus which is 1st Embodiment of this invention. (A) The perspective view of the operation part in the water treatment apparatus. (B) The perspective view of the switching unit in the water treatment apparatus. The bottom view of the switching unit in the water treatment apparatus. The side view of the switching unit in the water treatment apparatus (when the switching lever is positioned below). Side view of the switching unit in the water treatment device (when the switching lever is positioned above or approximately horizontally) The upper cross-sectional view of the switching unit in the water treatment apparatus (when the water channel is switched to a straight port). The upper cross-sectional view of the switching unit in the water treatment apparatus (when the water channel is switched to the shower port). The upper cross-sectional view of the switching unit in the water treatment apparatus (when the water channel is switched to the treatment unit). The sectional side view of the water supply introduction pipe and water discharge introduction pipe of the switching unit in the water treatment apparatus. (A) The perspective view of the operation part of the water treatment apparatus which is the 2nd Embodiment of this invention. (B) The perspective view of the switching unit in the water treatment apparatus. The sectional side view of the switching unit of the water treatment apparatus which is the 3rd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Water faucet 2 Switching unit 3 Processing unit 4 Switching lever 5 Operation part 6 Mounting part 12 Display part 35 Convex part (hand part)
37 Storage Unit 45 Magnet 46 Adsorption Plate 47 Cleaning Port 49 Bottom

Claims (4)

There is a switching unit attached to the faucet that supplies raw water to switch the water channel to discharge raw water or the water channel that supplies raw water to the processing unit that treats the raw water. The switching unit wirelessly operates the processing unit. The operation unit is detachably provided, and the water channel of the switching unit is switched to a water channel that supplies raw water to the treatment unit, so that the removal of the operation unit is prevented . An operation lever is provided to operate the switch, and the operation unit is provided with a handle for removing the operation unit, and the operation lever is switched to a water channel for supplying raw water to the treatment unit. A water treatment apparatus characterized in that removal of an operation part is prevented by hiding the handle part . 2. The water treatment apparatus according to claim 1, wherein the operation unit is magnetically attached to the switching unit . The switching unit has a bottomed recess in which the operation unit is mounted. The operation unit is provided with a storage unit for storing the battery. When the operation unit is mounted in the bottomed recess, the storage unit The water treatment device according to claim 1, wherein the water treatment device is disposed so as to face the bottom of the bottomed recess . The operation unit is provided with a display unit that displays the switched water channel, and by removing the operation unit from the switching unit, the inside of the display unit is opened and the inside of the display unit can be cleaned. The water treatment apparatus according to any one of claims 1 to 3, wherein the water treatment apparatus is characterized in that:

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