JP4141870B2 - Compound faucet - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a composite single faucet that can discharge raw water and purified water from an integrated faucet and can switch raw water discharge, purified water discharge, and water stoppage by a single switching device.
[0002]
Conventionally, a single water faucet for discharging tap water in the state of water or hot water is known as raw water, and a water purifier is attached to the water circuit of the single water faucet so that purified water can be added to the raw water. In some cases, water supply was possible. In addition, when supplying purified water, a water faucet dedicated to water purification is provided separately from the single water faucet, or raw water can be discharged and water can be discharged with a single water faucet. It was. Thus, as an example of a faucet configured to discharge raw water and purified water from the same single faucet, there is a technology disclosed in Patent Document 1, for example.
[0003]
In the faucet disclosed in Patent Document 1, the switching valve for switching between the raw water discharge and the purified water discharge is performed by the same switching valve. Compared to this, the operation is easy, and there is no mistaken operation. In addition, by making the raw water containing chlorine pass through the water passage between the water purification outlet of the water purifier and the water discharge outlet, secondary contamination due to the propagation of germs in this water passage can be avoided. The configuration was to prevent. Purified water is used less frequently, and the purified water purified by the water purifier is in a state where residual chlorine contained in tap water has been removed, so if it stays in the waterway for a long time, antibacterial ( (Anti-proliferation prevention) action is not expected, but this measure has been taken.
[0004]
[Patent Document 1]
JP 2000-110955 A
[0005]
[Problems to be solved by the invention]
The faucet shown in Patent Document 1 assumes that purified water is used less frequently. However, depending on the use of the faucet, there are cases where the frequency of use of purified water is high and raw water is rarely used. In such a case, the antibacterial (preventive growth of germs) effect due to chlorine contained in the raw water (tap water) cannot always be expected. Therefore, the present invention provides a composite single faucet that can be surely expected to have an antibacterial effect (preventing propagation of various bacteria) using raw water even when the use frequency of purified water is high.
[0006]
[Means for Solving the Problems]
The problems to be solved by the present invention are as described above. Next, means for solving the problems will be described.
In claim 1, In a composite single faucet (2) that can discharge raw water and purified water from an integrated faucet, and can switch raw water discharge, purified water discharge, and water stoppage by a single switching operation lever (2b). A columnar movable plate (17) is fixed to the distal end side of the switching valve (15) operated by the switching operation lever (2b), and is rotatable within a valve bearing (21) having a cylindrical outer shape. The movable plate (17) is formed with a through hole (17a) penetrating in the axial direction (A) of the switching valve (15) and along the axial direction (A). A communication recess (17b) not penetrating is formed, and a fixed plate is provided on the side opposite to the switching operation lever (2b) of the movable plate (17) in the axial direction (A) of the switching valve (15). (19) is disposed, and the fixed plate (19) is the valve bearing ( 1) fixed in, and formed in the fixing plate (19) three through holes (19a, 19b, 19c) that penetrate the fixing plate (19) along the axial direction (A). The operation range of the switching operation lever (2b) is a range having both the water stop position (N) and the water purification position (C) as both ends, and the raw water between the water stop position (N) and the water purification position (C). Position (P) was placed Is.
[0007]
In claim 2, The composite single faucet according to claim 1, wherein the rotation range of the switching operation lever (2b) is such that the position where the switching operation lever (2b) is parallel to the horizontal plane is a stop in the composite single faucet (2). The water stop position (N) at the time of water and the position where the switching operation lever (2b) is rotated upward from the water stop position (N) is the raw water position (P) at the time of discharging raw water, and the switching operation lever The position rotated (2b) further upward from the raw water position (P) is defined as the purified water position (C) when discharging the purified water. Is.
[0008]
In claim 3, The composite single faucet according to claim 1, wherein in the water channel formed in the composite single faucet (2), three portions of a water supply channel (11), a water discharge channel (12) and a switching channel (13). The raw water conduit (3) is connected to the water supply passage (11), the purified water conduit (4) is connected to the water discharge passage (12), and the discharge port (2d ) Is connected to the water discharge pipe (2c) provided at the tip, the switching valve (15) is disposed in the switching flow path (13), and the purification water guide pipe (8) is connected to communicate with the water supply flow. The channel (11) and the switching channel (13) can be connected to each other, and the switching channel (13) and the water discharge channel (12) can also be connected to each other. And the same route Is.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of a composite single water faucet of the present invention will be described with reference to the drawings. As shown in FIG. 1, the composite single water tap 2 which is one embodiment is attached to a counter top plate such as a kitchen. Then, as shown in FIG. 2, by rotating the switching operation lever 2b provided on the faucet body 20, either one of the raw water and the purified water is selectively selected from the spout 2d through the spout pipe 2c. It is configured to discharge. In FIG. 2, the water stop position N where the switching operation lever 2 b is parallel to the horizontal plane is the time when the composite single faucet 2 is stopped. The position where the switching operation lever 2b is rotated upward by 30 degrees from the water stop position N is the raw water position P, and the time when this position is set is when raw water is discharged. Further, the position where the switching operation lever 2b is turned upward by 90 degrees from the water stop position N is the water purification position C, and the time when this position is set is the time when the purified water is discharged.
[0010]
As shown in FIG. 3, a raw water guide pipe 3 for supplying tap water as raw water to the composite single faucet 2 is connected to the inlet 6 a of the water purifier 6 from the lower end of the composite single faucet 2. Was Water conduit 8 for purification The water purifying water guide pipe 4 whose lower end is connected to the outlet 6b of the water purifier 6 is fitted.
[0011]
As shown in FIG. 1, the lower end of the raw water conduit 3 is connected to a water supply pipe (water pipe) via a check valve 7 and a stop cock 5, and raw water (water pipe) from the water supply pipe is connected. Water) is supplied to the composite single faucet 2 through the raw water conduit 3. When discharging the raw water (tap water) from the spout 2d, the raw water supplied into the composite single faucet 2 is directly discharged from the discharge port 2d via the composite single faucet 2. When discharging purified water from the spout 2d, first, the raw water supplied into the composite single faucet 2 is used for purification as a route to the water purifier 6. Water conduit 8 is supplied to the water purifier 6. And purification Water conduit The raw water sent to the water purifier 6 through 8 is purified by the water purifier 6 and then sent to the composite single faucet 2 through the water purification conduit 4 as purified water and discharged from the discharge port 2d.
[0012]
Compound faucet 2 A check valve is provided in the pipe for supplying raw water or purified water to the side. The raw water conduit 3 is provided with a check valve 7, and the purified water conduit 4 is provided with a check valve 14. And raw water or purified water is prevented from flowing back. In addition, Water conduit 8 for purification Alternatively, a check valve may be provided.
[0013]
In this way, raw water and purified water are supplied to the composite single faucet 2, and either the raw water or the purified water is selected from the spout 2d by rotating the switching operation lever 2b. It is constituted so that it may discharge. In addition, when the tap water as the raw water supplied to the composite single faucet 2 through the raw water conduit 3 is supplied as it is from the water pipe or the like, it is discharged from the water outlet 2d as water, and on the way by a water heater or the like. When heated and supplied, it is discharged from the water outlet 2d as hot water. In addition, water purifiers generally do not support hot water (warmed raw water), Compound faucet 2 In the switching at, the hot water is not passed through the water purifier 6 for purification. Of course, when using the water purifier of the structure corresponding to hot water, you may make it purify by passing the hot water produced | generated by heating raw water to this water purifier.
[0014]
Next, a switching device that switches between raw water discharge, purified water discharge, and water stoppage of the composite single faucet 2 will be described. As shown in FIGS. 4 and 5, the faucet body 20 is roughly divided into three parts, a water supply channel 11, a water discharge channel 12, and a switching channel 13. Here, the raw water conduit 3 is connected to the composite water faucet 2 to the water supply passage 11, and the water purification conduit 4 is connected to the water discharge passage 12, and the discharge port 2 d is connected to the water supply passage 11. A water discharge pipe 2c provided at the tip is connected. A switching valve 15 is disposed in the switching channel 13 and the purification water conduit 8 is connected in communication. Further, the water supply channel 11 and the switching channel 13 are connected to each other through a communication hole 20a, and the switching channel 13 and the water discharge channel 12 are connected to each other through a communication hole 20b. The switching channel 13 will be described in detail later. Switching valve 15 By switching, the communication hole 20a, the communication hole 20b, and the purification water guide pipe 8 are switched between communication and blocking.
[0015]
First here Switching valve 15 The change of the channel structure by the switching and its action will be described. In the switching channel 13 Switching valve 15 The switching configuration will be described in detail later. In the switching channel 13, when the communication hole 20 a and the communication hole 20 b communicate with each other, raw water is discharged from the composite single faucet 2. That is, the raw water from the raw water guide pipe 3 is discharged from the discharge port 2d through the water supply flow path 11, the communication hole 20a, the switching flow path 13, the communication hole 20b, the discharge flow path 12, and the discharge pipe 2c. This is when raw water is discharged from the composite single faucet 2. Moreover, in the switching flow path 13, when the communication hole 20 a communicates with the purification water conduit 8, purified water is discharged from the composite single faucet 2. That is, first, the raw water from the raw water conduit 3 is supplied to the switching channel 13, the purification conduit 8, and the water purifier 6 through the water supply channel 11 and the communication hole 20 a. Subsequently, the purified water produced by purifying the raw water by the water purifier 6 is discharged from the discharge port 2d through the water purification conduit 4, the discharge flow path 12, and the discharge pipe 2c. This is the time when the composite single faucet 2 discharges purified water. Furthermore, in the switching flow path 13, when all communication between the communication holes 20 a and 20 b and the purification water conduit 8 is blocked, the raw water supplied to the raw water flow path 11 does not flow to the other than the switching flow path 13. The discharge of raw water and purified water from the discharge port 2d is stopped. This is when the composite single faucet 2 is stopped.
[0016]
A water channel switching configuration by the switching valve 15 will be described. As shown in FIG. 6A, the switching valve 15 has a cylindrical outer shape, and can be freely rotated in the valve bearings 21 and 22 fixed to the faucet body 20 in the switching channel 13. Is provided. The valve bearings 21 and 22 are disposed along the axial direction A, and the valve bearing 22 is disposed on the switching operation lever 2 b side with respect to the valve bearing 21. Further, the switching valve 15 has a switching valve shaft 25 whose switching operation lever is 2b The switch operating lever is fixed via a screw 16. 2b The switching valve 15 is turned by this turning operation. The rear portion of the switching valve shaft 25 (the portion on the switching operation lever 2b side) is pivotally supported by the valve bearings 21 and 22 via a seal member, and watertightness is maintained. The valve bearings 21 and 22 partition the inside of the switching flow path 13 and divide the switching flow path 13 inside and outside the valve bearings 21 and 22. Here, the valve bearing 21 is formed with a communication hole 21 a that communicates the inside and outside of the valve bearing 21, and the inside of the valve bearing 21 and the purifying water conduit 8 connected to the switching flow path 13 are connected to the switching valve. Communication is possible by 15 rotations. This communication is realized when the switching valve 15 is in the water purification position C. Further, a notch 25a is formed at the tip of the switching valve shaft 25, and a water channel that can communicate with the communication hole 21a is formed inside the valve bearing 21 by the notch 25a. The communication between the communication hole 21a and the notch 25a is also due to the rotation position of the switching valve 15, and is realized when the switching valve 15 is set to the water purification position C. In addition, the communication holes 20 a and 20 b are opened inside the valve bearing 21 in the switching flow path 13 and can communicate with each other by the rotation of the switching valve 15. This communication is realized when the switching valve 15 is set to the raw water position C.
[0017]
Tip side of switching valve 15 (anti-switching operation lever 2b A cylindrical (disc) shaped movable plate 17 is fixed on the side. As shown in FIG. 7, the movable plate 17 communicates with a through hole 17 a that penetrates the movable plate 17 in the axial direction A of the switching valve 15 and is formed along the axial direction A but does not penetrate. A recess 17b is formed. In the present embodiment, the through hole 17 a and the communication recess 17 b are formed in a sector shape centered on the axis of the switching valve shaft 25. When the upper side (left side in FIG. 7, etc.) with respect to the axis is 0 degree, the through hole 17a is located at 120 degrees counterclockwise, and the communication recess 17b is located at 90 degrees clockwise. The upper side with respect to the axis is also above the composite single faucet 2 (upper side perpendicular to the paper surface of FIG. 6A). Then, the movable plate 17 rotates together with the switching valve 15, and the through hole 17 a and the recess 17 b rotate about the axis of the switching valve 15, which acts to form a water channel in the switching channel 13. The movable plate 17 is formed with a pair of mounting recesses 17c and 17c along the axial direction A. The mounting recesses 17c and 17c are formed at the tip of the switching valve shaft 25 (the anti-switching operation lever). 2b The movable plate 17 is fixed to the switching valve shaft 25 by engaging with the protruding portion formed on the side). Further, the notch 25a formed at the tip of the switching valve shaft 25 overlaps with the through hole 17a in the axial direction A, and a water channel can be formed through the through hole 17a and the notch 25a. It has become. In particular, when the turning position of the switching valve 15 is the water purification position C, a water channel that passes through the through hole 17a and the notch 25a is formed.
[0018]
In the axial direction A of the switching valve 15, the front side of the movable plate 17 (anti-switching operation lever) 2b The fixed plate 19 is arranged on the side. The fixed plate 19 is fixed to the valve bearing 21. As shown in FIG. 8, the through-holes 19 a, 19 b, and 19 c that penetrate the fixed plate 19 are formed in the fixed plate 19 along the axial direction A. In the present embodiment, the through holes 19 a, 19 b, and 19 c are all formed in a sector shape centered on the axis of the switching valve shaft 25. When the upper side (left side in FIG. 8, etc.) with respect to the axis is 0 degree, the through hole 19a is located 30 degrees counterclockwise with respect to the axis, and the through hole 19b is located 75 degrees clockwise. 19a is located at 165 degrees clockwise.
[0019]
Front side of fixed plate 19 (anti-switching operation lever 2b The packing 23 is arranged on the side. The packing 23 is fixed to the valve bearing 21. As shown in FIG. 9, the packing 23 includes an annular portion 23 a centering on the axis of the switching valve shaft 25 and a partition portion 23 b that partitions the inside of the annular portion 23 a. The partition part 23b of the packing 23 first blocks communication between the communication holes 20a and 20b in the switching flow path 13. Note that the communication between the communication holes 20a and 20b is blocked in the packing 23, but depending on the rotational position of the movable plate 17 (the switching valve 15), the blocking is released in the valve portion 26 and the communication is made. (See below). In addition, the partition part 23b of the packing 23 secondly blocks communication between the through holes 19a and 19c and the through hole 19b. The through holes 19a and 19c are always in communication with the communication hole 20a, and the through hole 19b is in communication with the communication hole 20b. Depending on the rotational position of the movable plate 17 (switching valve 15), the blocking between the through holes 19b and 19c may be released, and the communication holes 20a and 20b may communicate with each other (described later).
[0020]
The movable plate 17 and the fixed plate 19 constitute a valve portion 26 in the composite single faucet 2, and the rotational position of the movable plate 17 is changed with respect to the fixed fixed plate 19. Opening and closing is performed.
[0021]
In the present embodiment, the material of the movable plate 17 and the fixed plate 19 is made of ceramic. The packing 23 is made of rubber so that watertightness is maintained between the fixed plate 19 disposed on both sides of the packing 23 and the inner wall (on the side opposite to the switching operation lever 2b) of the switching channel 13. I have to.
[0022]
The water stop time in the composite single faucet 2 will be described with reference to FIGS. The valve portion 26 shown in FIG. 10 (a) is in a state where the switching operation lever 2b is in a horizontal state and the switching valve 15 is in a water stop position N when water is stopped. At this time, the through-hole 17a does not overlap any of the through-holes 19a, 19b, and 19c when viewed from the axial direction A, and the valve portion 26 is closed at the portion of the through-hole 17a. Moreover, although the communication recessed part 17b overlaps only with the through-hole 19b, since the communication recessed part 17b is not a hole which penetrates the movable plate 17, the valve part 26 is closed also in this part. For this reason, as shown in FIG. 11, first, the switching channel 13 is divided between the water supply channel 11 and the water purification conduit 8 by the valve portion 26. Is not supplied to the purification water conduit 8 side. Secondly, the communication between the communication holes 20 a and 20 b is blocked by the valve portion 26, and the raw water from the water supply channel 11 is not supplied to the discharge channel 12. Therefore, in a state where the switching valve 15 is in the water stop position C, neither raw water nor purified water is discharged from the discharge port 2d.
[0023]
The raw water discharge in the composite single water tap 2 will be described with reference to FIGS. The valve portion 26 shown in FIG. 10 (b) is in a state in which raw water is discharged when the switching operation lever 2b is rotated 30 degrees above the water stop position N and the switching valve 15 is set to the raw water position P. . At this time, the through-hole 17a does not overlap any of the through-holes 19a, 19b, and 19c when viewed from the axial direction A, and the valve portion 26 is closed at the portion of the through-hole 17a. On the other hand, the communication recess 17b overlaps with the through holes 19b and 19c simultaneously. Therefore, at this time, a water channel is formed from the through hole 19b to the through hole 19c through the communication recess 17b. Here, as shown in FIG. 9, the through-holes 19 b and 19 c are blocked by the partition portion 23 b in the packing 23, but when the switching valve 15 is at the raw water position P, the communication is made via the valve portion 26. Is realized. Therefore, as shown in FIG. 12, in the state where the switching valve 15 is in the raw water position P, the raw water in the water supply flow path 11 passes through the communication hole 20a, the through hole 19c, the communication recess 17b, the through hole 19b, and the communication hole 20b. Then, it supplies to the water discharge flow path 12, and raw | natural water is discharged from the discharge outlet 2d. Moreover, since the switching flow path 13 is divided between the water supply flow path 11 and the water purification water conduit 8 by the valve portion 26, the raw water from the water supply flow path 11 is directed to the purification water conduit 8 side. Not supplied. Therefore, at this time (when the switching valve 15 is at the raw water position P), the purified water is not supplied to the discharge flow path 12.
[0024]
The time of clean water discharge in the composite single water tap 2 will be described with reference to FIGS. The valve portion 26 shown in FIG. 10 (d) is in a state at the time of clean water discharge when the switching operation lever 2b is rotated 90 degrees above the water stop position N and the switching valve 15 is set to the water purification position C. . At this time, when viewed from the axial direction A, the through hole 17a completely overlaps with the through hole 19a and does not overlap with the other through holes 19b and 19c. For this reason, the valve part 26 is open | released in the site | part of the through-hole 17a, and the communication with the water supply flow path 11 and the purification | cleaning water conduit 8 is implement | achieved. Therefore, as shown in FIG. 6, in the state where the switching valve 15 is in the water purification position C, the communication between the water supply flow path 11 and the purification water conduit 8 is the communication hole 20 a, the through hole 19 a, the through hole 17 a, and the cutout portion. It passes through 25a and is supplied to the water conduit 8 for purification. The raw water flowing through the purification water conduit 8 is purified by the water purifier 6 to become purified water, and the purified water is supplied to the discharge passage 12 through the purified water conduit 4 and the raw water is discharged from the discharge port 2d. Moreover, although the communication recessed part 17b overlaps only with the through-hole 19c, since the communication recessed part 17b is not a hole which penetrates the movable plate 17, the valve part 26 is closed in this part. Further, since the communication recess 17b does not overlap with two of the through holes formed in the fixed plate 19, the communication between the communication holes 20a and 20b is also blocked. Therefore, at this time (when the switching valve 15 is at the water purification position C), the raw water is not supplied to the discharge flow path 12.
[0025]
Further, the valve portion 26 shown in FIG. 10 (c) is in a state where the switching operation lever 2b is rotated 60 degrees above the water stop position N, and this state is also purified water discharge by the composite single faucet 2. It's time. At this time, the through hole 17a partially overlaps with the through hole 19a when viewed from the axial direction A, and does not overlap with the other through holes 19b and 19c. For this reason, the valve part 26 is open | released in the site | part of the through-hole 17a, and the communication with the water supply flow path 11 and the purification | cleaning water conduit 8 is implement | achieved. Moreover, although the communication recessed part 17b overlaps only with the through-hole 19c, since the communication recessed part 17b is not a hole which penetrates the movable plate 17, the valve part 26 is closed in this part. That is, the opening amount of the valve portion 26 is small as compared with the case where the switching operation lever 2b is turned to the purified water position C rotated 90 degrees above the water stop position N, and the discharge speed of the purified water is It is low. Purified water discharge in normal use is performed with the switching operation lever 2b as the purified water position C.
[0026]
In the above, the composite single faucet 2 is configured such that raw water and purified water can be discharged from an integrated faucet, and raw water discharge, purified water discharge, and water stop can be switched by a single switching device. It has become. This single switching device includes a first valve body (fixed plate 19) fixed to the faucet body and a second valve body (movable plate) whose position is changed (turned) by operating means (switching operation lever 2b). 17), and is configured by bringing both valve bodies into contact with each other so as to maintain watertightness. Specifically, the water tightness is ensured by surrounding the fixed plate 19 and the movable plate 17 by the valve bearing 21. The first valve body (fixed plate 19) is formed with through holes 19a, 19b, 19c that penetrate the first valve body, and the second valve body (movable plate 17) penetrates the second valve body. The through-hole 17a which does and the communication recessed part 17b which does not penetrate are formed. And the valve part 26 as a valve which switches a water path is comprised using the duplication of the through-hole between both valve bodies, and a communication recessed part.
[0027]
Further, the switching operation of the switching device is performed by changing the position of the switching operation lever 2b as a single operating means attached to the switching device. The switching operation lever 2b is fixed to the switching valve shaft 25 that fixes the second valve body (movable plate 17). And as shown in FIG. 2, while making the range of this position change into the range which makes the water stop position N and the water purification position C both ends, the raw water position P is set between the water stop position N and the water purification position C. It is arranged.
[0028]
With the above configuration, firstly, at the time of opening the plug for discharging purified water, the raw water is surely discharged in the order of stop water → raw water discharge → purified water discharge. Secondly, when closing the plug after discharging the purified water, the purified water is discharged, the raw water is discharged, and the water is stopped. For this reason, when purified water is discharged, the water is inevitably closed after the raw water is discharged. Therefore, since raw water containing chlorine (tap water) remains in the discharge part 2d, it is possible to prevent the propagation of germs even when using purified water from which chlorine has been removed.
[0029]
In particular, in the composite single water faucet 2, the single operation means for operating the switching device is the switching operation lever 2 b that is a rotary lever, but is not limited to this configuration. If the operation means of the switching device is not constituted by a plurality of operation means (a plurality of switch groups, etc.), the position change range is a range having both the water stop position and the water purification position as both ends. It may be configured as follows. For example, the configuration may be such that the operating means is a sliding lever and the range of position change is a straight path.
[0030]
In particular, in the present embodiment, the switching operation lever 2b as the operation means is constituted by a rotary lever. The center of rotation of the switching operation lever 2 b is the axis of the switching valve shaft 25. In addition, the rotation range of the switching operation lever 2b is smaller than 360 degrees (90 degrees in the present embodiment).
[0031]
For this reason, the switching device can be switched in a rotating manner, and can be made compact. In addition, by setting the rotation range to be smaller than 360 degrees, when the rotation position changes between the water stop position N and the water purification position C, the raw water position P is inevitably passed, A structure for discharging can be easily realized.
[0032]
Moreover, in the water channel formed in the composite single water tap 2, the passage of purified water overlaps the passage of raw water. The following is a specific reorganization. Here, the passage route of the purified water is a route that reaches the discharge port 2d through the water purifier 6, the purification water conduit 4, the discharge flow path 12, and the discharge pipe 2c. In particular, in the composite single faucet 2, the passage of purified water is a path that reaches the discharge port 2d through the discharge flow path 12 and the discharge pipe 2c. On the other hand, when the raw water discharge path discharges the raw water, the raw water (tap water) from the water supply pipe is converted into the raw water guide pipe 3, the water supply flow path 11, the switching flow path 13, the discharge flow path 12, and the discharge pipe. This is a path that passes through 2c and reaches the discharge port 2d. In the case of discharging purified water, the discharge path of the raw water is the same up to the water supply flow path 11, and is a path that reaches the water purifier 6 through the purification water conduit 8 in the switching flow path 13. In other words, in the composite single tap 2, the passage of purified water is also the passage of raw water when discharging raw water, and the passage of purified water and a part of the passage of raw water are the same route. It has become.
[0033]
For this reason, it is prevented that only purified water remains in the composite single faucet 2 and bacteria propagate, and the composite single faucet 2 can be always kept in a sanitary state.
[0034]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
As claimed in claim 1, In a composite single faucet (2) that can discharge raw water and purified water from an integrated faucet, and can switch raw water discharge, purified water discharge, and water stoppage by a single switching operation lever (2b). A columnar movable plate (17) is fixed to the distal end side of the switching valve (15) operated by the switching operation lever (2b), and is rotatable within a valve bearing (21) having a cylindrical outer shape. The movable plate (17) is formed with a through hole (17a) penetrating in the axial direction (A) of the switching valve (15) and along the axial direction (A). A communication recess (17b) not penetrating is formed, and a fixed plate is provided on the side opposite to the switching operation lever (2b) of the movable plate (17) in the axial direction (A) of the switching valve (15). (19) is disposed, and the fixed plate (19) is the valve bearing ( 1) fixed in, and formed in the fixing plate (19) three through holes (19a, 19b, 19c) that penetrate the fixing plate (19) along the axial direction (A). The operation range of the switching operation lever (2b) is a range having both the water stop position (N) and the water purification position (C) as both ends, and the raw water between the water stop position (N) and the water purification position (C). Position (P) was placed Therefore, firstly, when opening the plug for discharging purified water, the raw water is always discharged in the order of stop water → raw water discharge → purified water discharge. Secondly, when closing the plug after discharging the purified water, the purified water is discharged, the raw water is discharged, and the water is stopped.
For this reason, when purified water is discharged, the water is inevitably closed after the raw water is discharged. Therefore, since raw water containing chlorine (tap water) remains in the discharge part of the composite single faucet, it is possible to prevent the propagation of germs even when using purified water from which chlorine has been removed.
[0035]
As described in claim 2, The composite single faucet according to claim 1, wherein the rotation range of the switching operation lever (2b) is such that the position where the switching operation lever (2b) is parallel to the horizontal plane is a stop in the composite single faucet (2). The water stop position (N) at the time of water and the position where the switching operation lever (2b) is rotated upward from the water stop position (N) is the raw water position (P) at the time of discharging raw water, and the switching operation lever The position rotated (2b) further upward from the raw water position (P) is defined as the purified water position (C) when discharging the purified water. Therefore, the switching device can be switched in a rotating manner, and can be made compact. In addition, with a small rotation range, when the rotation position changes between the water stop position and the water purification position, it will inevitably pass through the raw water position, making it easy to discharge the raw water when the water stops. Can be realized.
[0036]
As described in claim 3, The composite single faucet according to claim 1, wherein in the water channel formed in the composite single faucet (2), three portions of a water supply channel (11), a water discharge channel (12) and a switching channel (13). The raw water conduit (3) is connected to the water supply passage (11), the purified water conduit (4) is connected to the water discharge passage (12), and the discharge port (2d ) Is connected to the water discharge pipe (2c) provided at the tip, the switching valve (15) is disposed in the switching flow path (13), and the purification water guide pipe (8) is connected to communicate with the water supply flow. The channel (11) and the switching channel (13) can be connected to each other, and the switching channel (13) and the water discharge channel (12) can also be connected to each other. And the same route Therefore, it is prevented that only clean water remains in the composite single water faucet and germs propagate, and the composite single water faucet can be kept in a hygienic state at all times.
[Brief description of the drawings]
[Figure 1] Compound faucet 2 It is a front view which shows the water conduit connected to it.
[Fig. 2] Viewed from the switching operation lever 2b side Compound faucet 2 FIG.
[Fig. 3] Compound faucet 2 FIG.
[Fig. 4] Compound faucet 2 FIG.
[Figure 5] Compound faucet 2 FIG.
[Figure 6] When discharging raw water Switching valve 15 In particular, FIG. Compound faucet 2 FIG. 4B is a view of the valve portion 26 as viewed from the axial direction A. FIG.
7 is a view of the movable plate 17 as viewed from the axial direction A of the switching valve 15. FIG.
8 is a view of the fixed plate 19 as viewed from the axial direction A of the switching valve 15. FIG.
9 is a view of the packing 23 as seen from the axial direction A of the switching valve 15. FIG.
10 is a view of the opening / closing state of the valve portion 26 as viewed from the axial direction A. In particular, FIG. It is a figure which shows the time of clean water discharge.
[Fig. 11] At the time of water stoppage Switching valve 15 In particular, FIG. Compound faucet 2 FIG. 4B is a view of the valve portion 26 as viewed from the axial direction A. FIG.
[Figure 12] During water discharge Switching valve 15 In particular, FIG. Compound faucet 2 FIG. 4B is a view of the valve portion 26 as viewed from the axial direction A. FIG.
[Explanation of symbols]
2 Composite single faucet
2b Switching operation lever
11 Water supply flow path
12 Discharge flow path
15 Switching valve
17 Movable plate
19 Fixed plate
26 Valve
N Water stop position
P Raw water position
C Clean water position

Claims (3)

In a composite single faucet (2) that can discharge raw water and purified water from an integrated faucet, and can switch raw water discharge, purified water discharge, and water stoppage by a single switching operation lever (2b). A columnar movable plate (17) is fixed to the distal end side of the switching valve (15) operated by the switching operation lever (2b), and is rotatable within a valve bearing (21) having a cylindrical outer shape. The movable plate (17) is formed with a through hole (17a) penetrating in the axial direction (A) of the switching valve (15) and along the axial direction (A). A communication recess (17b) not penetrating is formed, and a fixed plate is provided on the side opposite to the switching operation lever (2b) of the movable plate (17) in the axial direction (A) of the switching valve (15). (19) is disposed, and the fixed plate (19) is the valve bearing ( 1) fixed in, and formed in the fixing plate (19) three through holes (19a, 19b, 19c) that penetrate the fixing plate (19) along the axial direction (A). The operation range of the switching operation lever (2b) is a range having both the water stop position (N) and the water purification position (C) as both ends, and the raw water between the water stop position (N) and the water purification position (C). A composite single faucet characterized by arranging the position (P) . The composite single faucet according to claim 1, wherein the rotation range of the switching operation lever (2b) is such that the position where the switching operation lever (2b) is parallel to the horizontal plane is a stop in the composite single faucet (2). The water stop position (N) at the time of water and the position where the switching operation lever (2b) is rotated upward from the water stop position (N) is the raw water position (P) at the time of discharging raw water, and the switching operation lever A composite single faucet characterized in that the position where (2b) is rotated further upward from the raw water position (P) is the purified water position (C) when discharging purified water. The composite single faucet according to claim 1, wherein in the water channel formed in the composite single faucet (2), three portions of a water supply channel (11), a water discharge channel (12) and a switching channel (13). The raw water conduit (3) is connected to the water supply passage (11), the purified water conduit (4) is connected to the water discharge passage (12), and the discharge port (2d ) Is connected to the water discharge pipe (2c) provided at the tip, the switching valve (15) is disposed in the switching flow path (13), and the purification water guide pipe (8) is connected to communicate with the water supply flow. The channel (11) and the switching channel (13) can be connected to each other, and the switching channel (13) and the water discharge channel (12) can also be connected to each other. Composite single faucet characterized by having the same path as the part .

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