JP2008018326A - Apparatus for generating electrolytic water, and sink equipped with the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus for generating electrolytic water which makes manage of pipes linked to each flow path connected to a water purifier body and a water conditioner flexible, and is capable of locating the water conditioner adjacent to the wall face of the accommodation part of a sink. <P>SOLUTION: The apparatus for generating electrolytic water comprises: the water purifier body having a filtration part for purifying raw water; and the water conditioner 2 having a raw water inflow pipe 12 for streaming the raw water in a casing 11, a raw water supply pipe 14 for supplying the raw water to the water purifier body by opening and closing of a valve 13 for terminating the raw water flowing in the casing through this raw water inflow pipe, a purified water supply pipe 15 for supplying purified water filtrated by the filtration part into the casing, an electrolytic cell 16 for electrolyzing the purified water into anode water and cathode water, and a first discharge pipe 18 and a second discharge pipe 19 for discharging the respective anode water and cathode water, wherein a joint portion to the water conditioner 2 of at least the raw water supply pipe 14 and the purified water supply pipe 15 is mounted on the side face 11b of the casing 11 constructing the water conditioner 2. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an electrolyzed water generating device used for an alkali ion water conditioner and the like and a sink equipped with the same.

  The water sink with an undersink type water purifier is installed not on the top of the sink that can secure sufficient installation space but on the lower part of the sink where the installation space is narrow. Therefore, the water purifier and the water purifier are accommodated in the same casing. Many of them have an integrated structure.

  However, since the water purifier needs to replace the cartridge (filtering part), the replacement work is troublesome in this integrated structure, so that it can be attached to any place of the water conditioner instead of the conventional structure. There has been proposed a water purifier with a water purifier in which a holder is provided and the water purifier is detachably attached to the holder (see, for example, Patent Document 1).

According to this water purifier with a water purifier, it becomes extremely easy to remove the water purifier from the holder and replace it with a new one, and it is possible to attach the water purifier to any location around the water purifier.
Utility Model Registration No. 2601415

  However, in the water purifier with a water purifier described in Patent Document 1, although the water purifier and the water purifier are stored in the cabinet at the bottom of the pedestal, piping and raw water for connecting the water purifier and the water purifier are adjusted. No consideration is given to the handling of piping that supplies water to the water purifier via a water purifier or piping that discharges cathodic water and anode water generated by a water conditioner. For this reason, these various pipes are in the way, and the water purifier with a water purifier cannot be disposed in the vicinity of the wall surface, and the storage space is damaged.

  Therefore, in order to solve such a conventional problem, the present invention is designed so that the piping connected to each flow path connected to the water purifier main body and the water purifier main body is flexible and close to the wall surface of the sink portion. It is an object of the present invention to provide an electrolyzed water generating apparatus capable of arranging a water conditioner main body and a sink equipped with the same.

  The electrolyzed water generating device according to claim 1 has a water purifier main body having a filtration unit for purifying raw water, a raw water inflow path for allowing the raw water to flow into the casing, and flowing into the casing through the raw water inflow path. A raw water supply path that supplies raw water to the water purifier main body by opening and closing a valve that stops the raw water, a purified water supply path that supplies purified water filtered by the filtration unit into the housing, and purified water as a cathode An electrolyzer that electrolyzes water and anodized water, and a water purifier main body having a first water discharge path and a second water discharge path for discharging the cathode water and the anode water, respectively. The water purifier main body is configured as a separate body, the water purifier main body and the water purifier main body are connected by the raw water supply path and the purified water supply path, and at least the raw water supply path and the purified water supply path are adjusted. The connecting part to the water main unit is connected to the side surface of the casing constituting the water adjuster main body. Characterized in that rotatably provided for.

  The electrolyzed water generating apparatus according to claim 2, wherein the connection portion is provided in a groove formed by opening on one side surface of the housing and one side surface adjacent to the one side surface or both sides. It is characterized by.

  The electrolyzed water generating apparatus according to claim 3, wherein a connecting portion of the raw water supply path to the water purifier main body is constituted by a raw water supply connecting member that connects a raw water supply pipe to the housing, and the purified water supply path. The connecting portion to the water purifier main body is constituted by a purified water supply connecting member for connecting a purified water supply pipe to the housing, and the groove is formed in the raw water supply connecting member and the purified water supply connecting member. It is characterized in that the raw water supply pipe and the purified water supply pipe can be freely routed in the direction of the pipe along the groove.

  In the electrolyzed water generating device according to claim 4, the connecting portion of the raw water inflow passage to the water conditioner main body is constituted by a raw water inflow connection member for connecting the raw water inflow piping to the bottom surface of the housing, A raw water inflow connection member is attached to the bottom surface of the housing so as to be able to rotate 360 degrees, and the connection portion of the first water discharge channel and the second water discharge channel to the water conditioner main body has a water discharge pipe connected to the housing. The water discharge connecting member is connected to the top surface, and the water discharge connecting member is attached to the top surface of the housing so as to be rotatable 360 degrees.

  The electrolyzed water generating apparatus according to claim 5, wherein a connecting portion of the raw water inflow passage with respect to the water conditioner body connects raw water inflow piping to a symmetrical back surface opposite to the one side surface of the housing. The raw water inflow connection member is rotatably attached to the housing at a portion where the groove formed on the symmetrical back surface is formed, and the first water discharge channel and the second water discharge channel The connecting portion of the water conditioner main body is constituted by a water discharge connecting member for connecting the water discharge pipe to the top surface of the housing, and the water discharge connecting member is rotated 360 degrees with respect to the top surface of the housing. It is characterized by being mounted freely.

  The electrolyzed water generating apparatus according to claim 6, wherein an inlet for introducing an electrolysis accelerator that promotes electrolysis in the electrolytic cell is provided in the middle of the raw water supply path or the purified water supply path. And

  The sink according to claim 7 is characterized in that the water conditioner main body of the electrolyzed water generating device according to any one of claims 1 to 6 is arranged close to a storage wall surface of the sink. .

  According to invention of Claim 1, a water purifier main body and a water purifier main body are connected by a raw water supply path and a purified water supply path, and the connection part with respect to the said water purifier main body of these raw water supply paths and a purified water supply path is provided. Since the water regulating device main body is provided so as to be rotatable with respect to the side surface of the casing, the direction of the pipes constituting the raw water supply path and the purified water supply path can be directed in an arbitrary direction. Therefore, according to this invention, it becomes possible to arrange | position the water conditioner main body close to the storage wall surface of a sink, without piping interfering.

  According to the second aspect of the present invention, the raw water supply channel is formed in one side surface of the casing constituting the water purifier main body and one or both surfaces adjacent to the one side surface. Since the connecting portion of the water purifier supply path to the water purifier main body is provided, the direction of the pipe can be freely routed along the groove, and the pipe can be connected from one side of the casing in which the groove is formed. Jumping out of the way is prevented. Therefore, according to the present invention, it is possible to dispose the water conditioner body close to the wall surface of the sink of the sink without taking care of the piping.

  According to the third aspect of the present invention, the raw water supply connecting member and the purified water supply connecting member are rotatably attached to the housing at the portion where the groove is formed, and the raw water supply pipe and the purified water supply are attached. Since the piping can be routed freely along the groove, both the piping and the connecting member connecting the piping are arranged in the groove. Eliminates the protrusion, and this water conditioner body can be brought close to the storage wall of the sink.

  According to the fourth aspect of the present invention, the raw water inflow connection member is attached to the bottom surface of the casing constituting the water adjuster main body so as to be rotatable 360 degrees, and the water discharge connection member is attached to the top surface of the casing. Since it can be rotated 360 degrees, the direction of all the pipes connected to the body of the water conditioner can be directed to any direction. Depending on the type of sink, etc. The water conditioner main body can be disposed close to the storage wall surface.

  According to the fifth aspect of the present invention, the raw water inflow connecting member is not the bottom surface of the casing constituting the water conditioner body, but the symmetrical back surface opposite to the one side surface to which the raw water supply pipe and the purified water supply pipe are attached. Since the water discharge connecting member is attached to the groove formed on the top of the case so as to be able to rotate 360 degrees with respect to the top surface of the case, all of the members connected to the water conditioner main body are attached. The direction of the pipe can be directed to an arbitrary direction, and the water conditioner body can be arranged close to the storage wall surface corresponding to various storage space forms depending on the type of the sink.

  According to the invention described in claim 6, since the inlet for introducing the electrolysis accelerator for promoting electrolysis in the electrolytic cell is provided in the middle of the raw water supply path or the purified water supply path, the electrolysis accelerator Can be easily carried out.

  According to the seventh aspect of the present invention, the water conditioner main body of the present invention can be arranged close to the storage wall surface of the sink so that the water conditioner main body can be arranged close to the storage wall surface. The storage space below the sink can be used effectively.

  Hereinafter, specific embodiments to which the present invention is applied will be described in detail with reference to the drawings. The present embodiment is an example of an undersink type electrolyzed water generating device in which the electrolyzed water generating device according to the present invention is disposed in a lower space of a sink.

"Example"
FIG. 1 shows an arrangement example when the electrolyzed water generating device of the present invention is installed on a sink, the layout view of the sink viewed from the front, FIG. 2 is the layout view of the sink of FIG. 1 viewed from the plane, and FIG. FIG. 4 is a perspective view when the water conditioner body of the present invention is viewed from one direction, FIG. 4 is a perspective view when the water conditioner body of the present invention is viewed from the other direction, and FIG. 5 is a perspective view of the water conditioner body of the present invention. It is sectional drawing.

  The electrolyzed water generating apparatus of the present embodiment includes a water purifier main body 1 having a filtration unit that purifies raw water, and an electrolytic cell that electrolyzes purified water filtered by the filtration unit into cathode water and anode water. A water main body 2 is provided.

  As shown in FIG. 1, the water purifier main body 1 is disposed in a lower space 5 in which the sink 4 of the sink 3 is provided, and a slide storage portion 7 provided below a partition plate 6 that partitions the lower space 5 up and down. Is arranged. As shown in FIG. 2, the slide storage portion 7 is configured to be freely drawn out from the sink 3 as indicated by a two-dot chain line, and the water purifier main body 1 is taken in and out between the inside and the outside of the lower space 5. It is possible.

  The water purifier main body 1 includes a cartridge 8 that is a filtration unit that purifies raw water, and a case 9 that accommodates the cartridge 8 therein. The cartridge 8 has an activated carbon layer and a hollow fiber membrane layer inside, and purifies raw water such as tap water. In the case 9, an electrolysis accelerator (for example, calcium preparation) that promotes electrolysis in an electrolysis tank provided in the water conditioner body 2 to be described later is supplied to the raw water before flowing into the cartridge 8. An accelerator addition unit 10 is provided. The inlet for introducing the electrolysis accelerator is provided in front of the cartridge 8 in the middle of the raw water supply path (not shown).

  The electrolysis accelerator may be mixed with the filter medium of the cartridge 8 in addition to being added to the raw water in front of the cartridge 8, or the purified water purified by the cartridge 8 may be supplied to the water purifier main body 2 as purified water. You may add to the purified water in the middle of flowing through a path.

  As shown in FIGS. 1 and 2, the water conditioner body 2 is erected on a partition plate 6 that divides the lower space 5 of the sink 3 in the vertical direction with its longitudinal direction directed in the height direction. . As shown in FIGS. 3 to 5, the water adjuster main body 2 includes a raw water inflow pipe 12 that constitutes a raw water inflow passage through which raw water flows from the bottom of the water adjuster main body 2 into the housing 11. A raw water supply pipe 14 constituting a raw water supply path for supplying raw water to the water purifier main body 1 by opening and closing a valve 13 for stopping the raw water flowing into the casing through the raw water inflow pipe 12, and the water purifier main body 1 A purified water supply pipe 15 that constitutes a purified water supply path for supplying purified water filtered by the cartridge (filtering section) 8 into the casing of the water conditioner body 2 again, and an electrolytic cell 16 provided with purified water in the casing. The first water discharge pipe 18 constituting the first water discharge passage and the second water discharge constituting the second water discharge passage are electrolyzed into the cathode water and the anode water and discharged to the faucet 17 provided on the upper portion of the sink 4. The pipe 19 is connected.

  The connection portion of the raw water inflow pipe 12 to the water conditioner main body 2 is constituted by a raw water inflow connection plug 20 which is a raw water inflow connection member for connecting the raw water inflow pipe 12 to the bottom surface 11a of the housing 11. The inflow connection plug 20 is attached to the bottom surface 11a so as to be rotatable 360 degrees. The raw water inflow connection plug 20 is rotatable 360 degrees in the horizontal direction (in-plane direction) with respect to the bottom surface 11a of the casing 11, and the connection port 20A for connecting the raw water inflow pipe 12 is in any direction. To be able to turn to.

  The connecting portion of the raw water supply pipe 14 to the water purifier main body 2 is constituted by a raw water supply connection plug 21 which is a raw water supply connecting member for connecting the raw water supply pipe 14 to one side surface 11b of the housing 11. The raw water supply connection plug 21 is rotatably attached to the one side surface 11b. The raw water supply connection plug 21 has one side of a groove 22 having a substantially U-shaped cross section formed by opening on one side surface 11b of the housing 11 and both surfaces 11c and 11d adjacent to the one side surface 11b. It is attached to the side wall 22a.

  Specifically, the raw water supply connection plug 21 is connected to one side wall 22a of the groove 22 by a cylindrical connection of a raw water supply pipe 26 provided in a casing connected to the valve 13 protruding into the groove 22. It is rotatably attached to the portion 26A. The raw water supply connection plug 21 has a rotation angle of about 180 degrees between the side opening the connection port 21A for connecting the raw water supply pipe 14 to the one surface 11c and the side opening the other surface 11d. It can be rotated. A seal member 28 is provided between the raw water supply connection plug 21 and the cylindrical connecting portion 26A to prevent leakage of the raw water.

  The connection part of the purified water supply pipe 15 to the water conditioner main body 2 is constituted by a purified water supply connection plug 23 which is a purified water supply connection member for connecting the purified water supply pipe 15 to one side surface 11b of the housing 11. A purified water supply connection plug 23 is rotatably attached to the one side surface 11b. Similar to the raw water supply connection plug 21, the purified water supply connection plug 23 is provided in the groove 22 and is attached to the other side wall 22 b of the groove 22.

  Specifically, the purified water supply connection plug 23 is a cylinder of a purified water supply pipe 29 provided in a housing connected to the electrolytic cell 16 protruding into the groove 22 on the other side wall 22b of the groove 22. It is rotatably attached to the connecting portion 29A. The purified water supply connection plug 23 has a rotation angle of about 180 degrees between the side opening the connection port 23A for connecting the purified water supply pipe 15 to the one surface 11c and the side opening the other surface 11d. It can be rotated. A seal member 30 for preventing leakage of purified water is provided between the purified water supply connection plug 23 and the cylindrical connecting portion 29A.

  A connection portion of the first water discharge pipe 18 to the water conditioner main body 2 includes a first water discharge connection plug 24 that is a water discharge connection member that connects the first water discharge pipe 18 to the top surface 11 e of the housing 11. The first water discharge connection plug 24 is rotatably attached to the top surface 11e. The first water discharge connection plug 24 is rotatably attached to the first water discharge cylindrical connecting portion 31 of the electrolytic cell 16 provided in the housing 11, and is attached to the top surface 11e. Thus, it can be rotated 360 degrees in the horizontal direction (in-plane direction), and the connection port 24A for connecting the first water discharge pipe 18 can be directed in an arbitrary direction. A seal member 32 for preventing leakage of cathode water (alkaline water) is provided between the first water discharge connecting plug 24 and the first water discharge cylindrical connecting portion 31.

  The connection portion of the second water discharge pipe 19 to the water conditioner main body 2 is configured by a second water discharge connection plug 25 that is a connection member for water discharge that connects the second water discharge pipe 19 to the top surface 11 e of the housing 11. The second water discharge connection plug 25 is rotatably attached to the top surface 11e. The second water discharge connecting plug 25 is rotatably attached to the second water discharge cylindrical connecting portion 33 of the electrolytic cell 16 provided in the housing 11, and is attached to the top surface 11e. Thus, it can be rotated 360 degrees in the horizontal direction (in-plane direction), and the connection port 25A for connecting the second water discharge pipe 19 can be directed in an arbitrary direction. A seal member 34 for preventing leakage of anode water (acidic water) is provided between the second water discharge connecting plug 25 and the second water discharge cylindrical connecting portion 33.

  In the electrolyzed water generating apparatus configured as described above, as shown in the examples shown in FIGS. 1 and 2, the water conditioner body 2 is disposed behind the left corner of the lower space 5 of the sink 3, and the water purifier body. 1 is disposed at the back of the left corner of the slide storage portion 7 with its longitudinal direction in the pull-out direction, the raw water supply connection plug 21 and the purified water supply connection plug 23 are provided on one side of the housing 11. 11b, the raw water supply pipe 14 and the purified water supply pipe 15 connected to the raw water supply connection plug 21 and the purified water supply connection plug 23 are both along the grooves 22 The piping direction can be routed with a rotation angle of 180 degrees, and can be arranged as close to the wall surface of the slide storage portion 7 as possible. Moreover, since these raw | natural water supply piping 14 and the purified water supply piping 15 are routed in the said groove | channel 22, they do not protrude from the one side surface 11b of the housing | casing 11. FIG. Therefore, according to the present embodiment, the storage space of the narrow slide storage portion 7 can be effectively used.

  Moreover, in the electrolyzed water generating apparatus of the present embodiment, the raw water inflow connection plug 20 provided on the bottom surface 11a of the casing 11 is rotatable 360 degrees, so that the raw water inflow connection plug 20 can be connected to the raw water inflow connection plug 20 in any direction. The raw water inflow piping 12 to be connected can be routed.

  Furthermore, in the electrolyzed water generating apparatus of the present embodiment, the first water discharge connection plug 24 and the second water discharge connection plug 25 are also rotatable 360 degrees with respect to the top surface 11e of the casing 11, so that the raw water supply Like the connection plug 21, the first water discharge pipe 18 and the second water discharge pipe 19 connected to the first water discharge connection plug 24 and the second water discharge connection plug 25 can be routed in any direction.

  Moreover, in the electrolyzed water generating apparatus of the present embodiment, since the inlet for introducing the electrolysis accelerator is provided in the middle of the raw water supply path or the purified water supply path, the electrolysis accelerator can be easily added. It becomes possible.

  And in the sink of a present Example, the raw | natural water inflow piping 12, the raw | natural water supply piping 14, the purified water supply piping 15, the 1st water discharge piping 18 and the 2nd water discharge piping 19 which are connected to the water conditioner main body 2 as mentioned above. Since all the pipes can be routed freely in any direction, the narrow lower space 5 of the sink 3 can be used effectively.

"Other examples"
FIG. 6 is a perspective view of a water conditioner body showing an example in which the raw water inflow connecting member is attached to a groove formed on the symmetrical back surface opposite to the side surface on which the raw water supply connecting member is attached instead of the bottom surface of the housing. It is.

  In the above-described embodiment, the raw water inflow connection plug 20 is rotatably attached to the bottom surface 11a of the housing 11, but the one side surface 11b to which the raw water supply connection plug 21 and the purified water supply connection plug 23 are attached is described. You may make it attach rotatably with respect to this housing | casing 11 in the bottom face of the groove | channel 35 formed in the symmetrical back surface 11f of the other side.

  7 to 12 show an arrangement example when the water purifier main body 1 and the water purifier main body 2 are arranged at arbitrary positions on the sink 3.

  In the above-described embodiment, the water purifier main body 1 is disposed behind the left corner of the slide storage portion 7 with the longitudinal direction as the pulling direction, and the water conditioner main body 2 is disposed behind the left corner of the lower space 5 of the sink 3. However, as shown in FIGS. 7 and 8, even when the water purifier main body 1 is arranged as it is and the water purifier main body 2 is arranged at the back of the right corner of the lower space 5, it is connected to the water purifier main body 2. Since all of the raw water inflow pipe 12, raw water supply pipe 14, purified water supply pipe 15, first water discharge pipe 18 and second water discharge pipe 19 can be routed freely in any direction, these pipes Therefore, the water conditioner main body 2 can be disposed in the vicinity of the storage wall surface without being obstructed, and the narrow lower space 5 of the sink 3 can be effectively utilized.

  In addition, as shown in FIGS. 9 and 10, even when the water purifier main body 2 is arranged as it is and the water purifier main body 1 is arranged behind the right corner of the slide storage portion 7 with its longitudinal direction as the pulling direction, Similarly, all of the raw water inflow pipe 12, the raw water supply pipe 14, the purified water supply pipe 15, the first water discharge pipe 18, and the second water discharge pipe 19 connected to the water conditioner main body 2 have their pipes in any direction. Therefore, the water conditioner main body 2 can be arranged close to the storage wall without interfering with these pipes, and the narrow lower space 5 of the sink 3 can be used effectively.

  In addition, as shown in FIGS. 11 and 12, the water purifier main body 1 is disposed at the back of the right corner of the slide storage portion 7 with the longitudinal direction as the pulling direction, and the water adjuster main body 2 is disposed in the lower space 5 of the sink 3. Even in the case where it is arranged at the back right corner, all of the raw water inflow pipe 12, the raw water supply pipe 14, the purified water supply pipe 15, the first water discharge pipe 18, and the second water discharge pipe 19 that are similarly connected to the water conditioner body 2. Since the piping can be routed freely in any direction, the water conditioner body 2 can be arranged close to the storage wall without interfering with these piping, and the narrow lower space of the sink 3 5 can be used effectively.

  Thus, according to the present embodiment, the lower space 5 of the sink 3 has various forms depending on the type of the sink 3, but the water conditioner body 2 is arranged close to the wall surface in any way. Therefore, the narrow lower space 5 can be used effectively.

The example of arrangement | positioning when the electrolyzed water generating apparatus of this invention is installed in a sink is shown, and it is the layout which looked at the sink from the front. It is the layout which looked at the sink of FIG. 1 from the plane. It is a perspective view when the water adjuster main body of this invention is seen from one direction. It is a perspective view when the water adjuster main body of this invention is seen from the other direction. It is sectional drawing of the water adjuster main body of this invention. It is a perspective view of the water adjuster main body which shows the example which attached the connection member for raw | natural water inflow to the groove | channel formed in the symmetrical back surface on the opposite side to the one side where the connection member for raw | natural water supply was attached instead of the bottom face of a housing | casing. It is the layout which looked at the sink when the water purifier main body was arrange | positioned as it was and the water purifier main body was arrange | positioned in the right corner part back of lower space from the front. It is the layout which looked at the sink of FIG. 7 from the plane. It is the layout which looked at the sink from the front, when the water purifier main body is arrange | positioned as it is and the water purifier main body is arrange | positioned in the right corner part back | inner side of the slide storage part by making the longitudinal direction into the pulling direction. It is the layout which looked at the sink of FIG. 9 from the plane. It is the layout which looked at the sink when the water purifier main body is arranged in the right corner part back of the slide storage part with the longitudinal direction as the pulling direction and the water purifier body is arranged in the right corner part back of the lower space of the sink. . It is the layout which looked at the sink of FIG. 11 from the plane.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Water purifier main body 2 ... Water purifier main body 3 ... Sink stand 4 ... Sink 5 ... Lower space 8 ... Cartridge (filtration part)
DESCRIPTION OF SYMBOLS 10 ... Electrolysis promoter addition part 11 ... Housing | casing 11a ... Bottom surface of housing | casing 11b ... One side surface of housing | casing 11c, 11d ... Surface adjacent to one side surface of housing | casing 11f ... Symmetrical back surface on the opposite side to one side surface 12 ... Raw water inflow piping (raw water inflow passage)
14 ... Raw water supply piping (raw water supply path)
15 ... Purified water supply pipe (purified water supply path)
16 ... electrolytic cell 17 ... faucet 18 ... first water discharge pipe (first water discharge channel)
19 ... 2nd water discharge piping (2nd water discharge channel)
20 ... Raw water inflow connection plug (Raw water inflow connection member)
21 ... Raw water supply connection plug (raw water supply connection member)
22 ... Groove formed in the casing 23 ... Purified water supply connection plug (purified water supply connection member)
24 ... First water discharge connection plug (water discharge connection member)
25 ... Second connection plug for water discharge (connection member for water discharge)

Claims (7)

A water purifier body having a filtration section for purifying the raw water;
A raw water inflow passage through which raw water flows into the housing, a raw water supply passage through which the raw water is supplied to the water purifier main body by opening and closing a valve for stopping the raw water flowing into the housing through the raw water inflow passage, A purified water supply path for supplying purified water filtered by the filtration unit into the housing, an electrolytic cell for electrolyzing the purified water into cathode water and anode water, and a first water discharge path for discharging cathode water and anode water, respectively. And a water adjuster body having a second water discharge channel,
While configuring the water purifier main body and the water purifier main body as separate bodies, connecting the water purifier main body and the water purifier main body with the raw water supply path and the water purification supply path,
Electrolyzed water generation characterized in that at least a connecting portion of the raw water supply path and the purified water supply path to the water purifier main body is provided so as to be rotatable with respect to a side surface of a casing constituting the water purifier main body. apparatus. The electrolyzed water generating device according to claim 1,
The electrolyzed water generating apparatus, wherein the connection portion is provided in a groove formed in one side surface of the housing and one or both surfaces adjacent to the one side surface. The electrolyzed water generating device according to claim 2,
The connecting portion of the raw water supply path to the water purifier main body is constituted by a raw water supply connecting member for connecting a raw water supply pipe to the housing,
The connection part of the water purification supply channel to the water purifier main body is constituted by a water purification supply connection member for connecting a water purification supply pipe to the housing,
The raw water supply connection member and the purified water supply connection member are pivotally attached to the housing at a portion where the groove is formed, and the raw water supply pipe and the purified water supply pipe are arranged along the groove. The electrolyzed water generator is characterized in that the piping direction can be freely routed. The electrolyzed water generating device according to any one of claims 1 to 3,
The connecting portion of the raw water inflow passage to the water conditioner body is composed of a raw water inflow connecting member that connects the raw water inflow piping to the bottom surface of the casing, and the raw water inflow connecting member is connected to the bottom surface of the casing. It can be installed 360 degrees so that it can rotate freely.
The connection portion of the first water discharge passage and the second water discharge passage to the water conditioner body is constituted by a water discharge connection member that connects a water discharge pipe to the top surface of the housing, and the water discharge connection member is connected to the housing. An electrolyzed water generating device, wherein the electrolyzed water generating device is attached to the top surface of the body so as to freely rotate 360 degrees. The electrolyzed water generating device according to any one of claims 1 to 3,
The connecting portion of the raw water inflow path to the water purifier main body is composed of a raw water inflow connecting member for connecting the raw water inflow piping to a symmetrical back surface opposite to the one side surface of the casing, and for this raw water inflow A connecting member is pivotally attached to the housing at a portion where a groove formed on the symmetrical back surface is formed,
The connection portion of the first water discharge channel and the second water discharge channel to the water conditioner main body is constituted by a water discharge connection member that connects a water discharge pipe to the top surface of the housing, and the water discharge connection member is An electrolyzed water generating device, wherein the electrolyzed water generating device is attached so as to be rotatable 360 degrees with respect to the top surface of the housing. The electrolyzed water generating device according to any one of claims 1 to 5,
An electrolyzed water generating apparatus characterized in that an inlet for introducing an electrolysis accelerator for accelerating electrolysis in the electrolytic cell is provided in the middle of the raw water supply path or the purified water supply path. A sink according to any one of claims 1 to 6, wherein the water conditioner body of the electrolyzed water generating device is disposed close to a storage wall of the sink.

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