JP4202481B2 - 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.
[0002]
[Prior art]
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 this way, when supplying purified water, a water faucet dedicated to water purification is provided separately from the single water faucet, or the raw water can be discharged and the water can be discharged with a single water faucet. Was.
When the raw water and the purified water are discharged from the same single faucet, the raw water passage and the purified water passage are independently formed in the single faucet. A switching valve is provided at the tip of the water mouth, the faucet body, and the like, and the discharge of the raw water and the discharging of the purified water are switched by operating the switching valve.
The switching valve for switching between the raw water discharge and the purified water discharge is provided separately from the switching valve for switching between water discharge and water stop.
[0003]
[Problems to be solved by the invention]
However, as described above, even when a water faucet dedicated to water purification is provided separately from the single water faucet, or when raw water and purified water are discharged from the same water faucet, the raw water spout and purified water If the switching valve that switches between water discharge is provided separately from the switching valve that switches between water discharge and water stop, in addition to the operation of the switch valve that switches between water discharge and water stop when discharging water. In addition, since it is necessary to operate the switching valve for switching between the raw water discharge and the purified water discharge, the operation may be complicated or erroneous operation may occur.
In addition, since the purified water is generally not used frequently, the purified water stays in the water passage between the purified water outlet of the water purifier and the water outlet, and the purified water purified by the water purifier is Since the residual chlorine contained in the tap water has been removed, if it stays in the water passage for a long time, the bactericidal action due to the residual chlorine cannot be expected and the hygiene may not be good.
[0004]
[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.
That is, in a single faucet for discharging the raw water, the raw water and then purified water and that is purified by the water purifier can eject from integral faucet the raw water of the water discharge, the water purification water discharge, and the water stop, single switching device The single water faucet is connected to a raw water conduit for supplying raw water to the single faucet, a water discharge conduit connected to the outlet of the water purifier, and an inlet of the water purifier. The raw water supply pipe connected to the purification water supply pipe and the outlet of the water purifier is inserted, and the raw water supplied to the single water faucet through the raw water conduit pipe is operated by operating the switching device. The raw water sent to the inlet of the water purifier through the purification water supply pipe or to the outlet of the water purifier through the raw water supply pipe, and the raw water sent to the inlet of the water purifier is purified by the water purifier and then the purified water. The water purifier is sent to a composite water faucet through a water discharge conduit. Raw water sent to the outlet section is sent through the spout water conduit to the composite single faucet as it is.
[0005]
In addition, the water discharge conduit and the raw water supply pipe are connected to the outlet of the water purifier through a two-pipe joint, and the two-pipe joint flows from the raw water supply pipe into the two-pipe joint. When the raw water is supplied to the composite single faucet through the water discharge conduit and does not enter the water purifier from the outlet, and the purified water flows into the two-pipe joint from the outlet of the water purifier Is configured so that the purified water is supplied to the composite single water faucet through the water discharge conduit and does not flow out to the raw water supply pipe.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of the present invention will be described.
1 is a front view showing a composite single faucet and a water supply pipe of the present invention, FIG. 2 is a side view, FIG. 3 is a front cross-sectional view showing the inside of the faucet body, FIG. 4 is a plan cross-sectional view, and FIG. FIG. 6 is a rear view showing another embodiment of the composite single faucet and the water supply pipe, and FIG. 7 shows a two-pipe joint at the outlet of the water purifier. 8 is a front cross-sectional view showing the inside of the faucet body of the composite single faucet in FIG. 6, FIG. 9 is a plan cross-sectional view, and FIG. 10 is a view of the composite single faucet in FIG. Fig. 11 is a plan sectional view showing the inside of the faucet body, and Fig. 11 is a plan sectional view showing the inside of the faucet body in the water discharge state.
[0008]
First, the outline | summary of the composite single water tap of this invention is demonstrated using FIG. 1, FIG. A composite single faucet 2 configured to discharge raw water and purified water is attached to a counter top plate 1 such as a kitchen. The composite single faucet 2 selectively discharges either raw water or purified water from a spout 2d through a spout pipe 2c by rotating a switching operation lever 2b provided on the faucet body 2a. It is configured as follows.
A raw water conduit 3 for supplying raw water to the composite single faucet 2 and a purified water conduit 4 for supplying purified water are fitted into the composite single faucet 2 from the lower end thereof. A water supply pipe 7 is connected to the lower end portion of the water conduit 3 via a check valve 6 and a water stop cock 5a.
The connecting portion between the water supply pipe 7 and the raw water guide pipe 3 is branched and connected to the inlet 6a of the water purifier 6 via the water purification faucet 5b, and the outlet 6b of the water purifier 6 is used for the water purification. It is connected to the lower end of the water conduit 4.
[0009]
And the tap water as the raw water supplied from the water supply pipe 7 is directly sent to the composite single faucet 2 through the raw water guide pipe 3, and from the inlet 6 a of the water purifier 6 connected to the water supply pipe 7. Water is supplied to the water purifier 6. The raw water supplied to the water purifier 6 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.
In this way, either tap water, which is raw water, or purified water obtained by purifying tap water with the water purifier 6 is supplied to the composite single faucet 2, and the switching operation lever 2b is rotated to turn either the raw water or the purified water. One of them is selectively discharged from the water outlet 2d.
The tap water as the raw water supplied to the composite single faucet 2 through the raw water conduit 3 is discharged from the spout 2d as water when directly supplied from the water pipe, and is added by a water heater or the like on the way. When heated and supplied, it is discharged from the water outlet 2d as hot water.
[0010]
Next, a switching mechanism 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. 3 and 4, the raw water conduit 3 fitted into the composite single faucet 2 from the lower end is connected to the raw water flow path 11 in the faucet body 2a, and the purified water conduit 4 is purified water. The flow path 12 is connected. The raw water channel 11 has a communication hole 11a, and the purified water channel 12 has a communication port 12a.
The faucet body 2a is provided with a switching valve 15, and the switching valve shaft 15c of the switching valve 15 is configured to be rotated integrally with the switching operation lever 2b. The switching valve shaft 15c is formed with a switching channel 15a in the axial direction, and one end of the switching channel 15a communicates with the switching channel 15a and the outer peripheral surface of the switching valve shaft 15c. The opening 15b is opened, and the other end of the switching channel 15a is always in communication with the discharge channel 13 formed in the faucet body 2a. The water discharge pipe 2c inserted from the upper end of the faucet body 2a is connected to the discharge flow path 13.
[0011]
And the communication port 11a of the raw | natural water flow path 11 and the switching communication port 15b of the switching flow path 15a are connected by the rotation position of the switching valve axis | shaft 15c of the switching valve 15 rotated by the switching control lever 2b (FIG. 5), the state where the communication port 12a of the water purification channel 12 and the switching communication port 15b of the switching channel 15a communicate with each other, and the switching communication port 15b of the switching channel 15a is the communication port 11a of the raw water channel 11. And the communication port 12a of the purified water flow path 12 are configured to be selectively switched to any one of the states (states shown in FIGS. 3 and 4) that are not in communication with each other.
[0012]
In a state where the communication port 11a of the raw water channel 11 and the switching communication port 15b of the switching channel 15a communicate with each other, the raw water from the raw water conduit 3 is supplied to the raw water channel 11, the switching channel 15a, and the discharge channel. 13 is guided to the water discharge pipe 2c and discharged from the water discharge port 2d, and the composite single faucet 2 enters the raw water discharge state.
In the state where the communication port 12a of the water purification channel 12 and the switching communication port 15b of the switching channel 15a communicate with each other, the purified water from the water purification conduit 4 flows into the purified water channel 12, the switching channel 15a, and the discharge flow. The composite single faucet 2 enters a clean water discharge state, passing through the passage 13 and being guided to the water discharge pipe 2c and discharged from the water discharge port 2d.
Further, when the switching communication port 15b of the switching channel 15a is not in communication with either the communication port 11a of the raw water channel 11 or the communication port 12a of the purified water channel 12, the communication port 11a of the raw water channel 11 is switched. Since it is blocked by the valve 15, the raw water from the raw water guide pipe 3 does not flow downstream from the raw water flow path 11, and the communication port 12 a of the purified water flow path 12 is closed by the switching valve 15. For this reason, the purified water from the water purification conduit 4 does not flow downstream from the purified water flow path 12, so that the composite single faucet 2 is in a water-stopped state.
[0013]
In this way, the composite single faucet 2 switches between raw water discharge, purified water discharge, and water stop by simply operating a single switching device composed of the switching valve 15 and the switching operation lever 2b. Can do it.
Thereby, the switching operation between the water discharge and the water stop and the switching operation between the raw water discharge and the purified water discharge can be performed at the same time, and these switching operations can be simplified and an erroneous operation can be prevented.
[0014]
Further, the switching flow path 15a, the discharge flow path 13 and the water discharge pipe 2c of the switching valve 15 function as a raw water flow path when discharging raw water from the raw water conduit 3 from the water discharge port 2d, When the purified water from the water purification conduit 4 is discharged from the water outlet 2d, it functions as a purified water passage.
That is, on the downstream side of the switching valve 15, the raw water passage and the purified water passage are shared.
[0015]
In this way, by sharing the raw water passage and the purified water passage, for example, after the purified water is discharged from the spout 2d, tap water that is the raw water is discharged, and the switching passage 15a that is the passage is discharged. The purified water remaining in the discharge flow path 13 and the water discharge pipe 2c can be washed with tap water, and germs are generated inside the water passage through which the purified water passes on the downstream side of the switching device. Can be prevented.
[0016]
That is, since the purified water supplied from the water purifier 6 has the residual chlorine contained in the tap water removed by the water purifier 6, the purified water remaining inside the water passage after discharging the purified water from the outlet 2d. If it stays for a long time, there is a risk that germs may be generated. However, since the tap water from the raw water guide pipe 3 contains residual chlorine, if the tap water is discharged after washing the purified water and the inside of the water passage is washed, it is sterilized by the residual chlorine of the tap water and passes through. It is possible to prevent germs from being generated inside the water channel.
Generally, the frequency of discharging purified water from the composite single faucet 2 is low, and the frequency of tap water discharge is high, so if it is used normally, tap water will be discharged within a short time after discharging the purified water. In other words, the passage of water can be kept hygienic by suppressing the generation of germs.
[0017]
Next, as another embodiment of the composite single faucet of the present invention, a schematic configuration of the composite single faucet 32 shown in FIG. 6 will be described first. The composite single faucet 32 is attached to a counter top plate 1 such as a kitchen, and by rotating a switching operation lever 32b provided on the faucet body 32a, either the raw water or the purified water is used. The water discharge pipe 32c is configured to selectively discharge from the water discharge port 32d.
In the composite water faucet 32, a raw water conduit 33 for supplying tap water as raw water to the composite single faucet 32 from the lower end, and a water discharge conduit connected to the outlet 36 b of the water purifier 36 at the lower end. 34, a purification water supply pipe 38 whose lower end is connected to the inlet 36a of the water purifier 36, and a raw water supply pipe 39 whose lower end is connected to the outlet 36b of the water purifier 36 are fitted.
[0018]
A water supply pipe 37 is connected to the lower end portion of the raw water conduit 33 through a check valve 36 and a stop cock 55, and the raw water from the water supply pipe 37 passes through the raw water conduit 33 to form a composite single faucet. 32. The raw water supplied into the composite single faucet 32 is sent to the inlet 36a of the water purifier 36 through the purification water supply pipe 38 or sent to the outlet 36b of the water purifier 36 through the raw water supply pipe 39. .
The raw water sent to the inlet portion 36a of the water purifier 36 through the purification water supply pipe 38 is purified by the water purifier 36 and then sent to the composite single faucet 32 through the water discharge conduit 34 as purified water. The raw water sent to the outlet 36b of the water purifier 36 is sent to the composite single faucet 32 through the water discharge conduit 34 as it is.
[0019]
As shown in FIG. 7, the water discharge conduit 34 and the raw water supply pipe 39 are connected to an outlet 36 a of the water purifier 36 through a two-pipe joint 40.
The two-pipe joint 40 includes a check valve 40a. When raw water flows into the two-pipe joint 40 from the raw water supply pipe 39, the raw water passes through the water discharge conduit 34 to the composite single faucet 32. When the purified water flows into the two-pipe joint 40 from the outlet 36b of the water purifier 36, the purified water is supplied to the water purifier 36. It is configured to be supplied to the composite single water tap 32 through and not flow out to the raw water supply pipe 39.
[0020]
Thus, raw water and purified water are supplied to the composite single faucet 32, and either the raw water or the purified water is selected from the spout 32d by rotating the switching operation lever 32b. It is constituted so that it may discharge.
The tap water as the raw water supplied to the composite single faucet 2 through the raw water conduit 33 is discharged from the water discharge port 32d as water when supplied as it is from the water pipe or the like, and on the way by a water heater or the like. When heated and supplied, the hot water is discharged from the water outlet 32d.
[0021]
Next, a switching mechanism that switches between raw water discharge, purified water discharge, and water stoppage of the composite single faucet 32 will be described. As shown in FIGS. 8 and 9, the raw water conduit 33 fitted into the composite single faucet 32 from the lower end is connected to the water supply channel 41 in the faucet body 32a, and the water conduit 34 is discharged. The purification water supply pipe 38 is connected to the purification water flow path 43, and the raw water supply pipe 39 is connected to the raw water flow path 42.
A switching valve 45 to be operated is provided. The switching valve 45 has a switching valve shaft 45a whose one end is integrally connected to the switching operation lever 32b, and a screw at the other end of the switching valve shaft 45a. The first valve 45b and the second valve 45c attached by 52 and a valve case 45d into which the switching valve shaft 45a is rotatably fitted.
The switching valve 15 and the switching operation lever 2b constitute a switching device that switches between water or hot water discharge, purified water discharge, and water stoppage.
[0022]
The first valve 45b and the second valve 45c are slidably fitted to the screw 52, and a spring 51 is interposed between the first valve 45b and the second valve 45c. The one valve 45b is biased in the direction of the raw water flow path 42, and the second valve 45c is biased in the direction of the purification water flow path 43. The switching valve shaft 45a of the switching valve 45 is screwed into the screw portion of the valve case 45d, and is configured to move in the axial direction in accordance with the turning operation of the switching valve shaft 45a.
In addition, a space around the outer periphery of the first and second valves 45b and 45c of the switching valve 45, which is surrounded by the wall surface of the faucet body 32a, is formed as a valve chamber 47. The passage 41 and the valve chamber 47 communicate with each other, the notch 45e formed in the switching valve shaft 45a communicates with the raw water flow path 42 through the communication hole 45f, and the valve chamber 47 and the purification water flow path 43 are communicated with each other. A communication hole 43a that communicates the two is opened, and the water discharge passage 44 communicates with the water discharge pipe 32c. The valve chamber 47 and the notch 45e are divided by a first valve 45b, and the communication hole 43a is closed by a second valve 45c.
[0023]
And in the rotation state of the switching operation lever 32b shown to FIG. 8, FIG. 9, the composite single water tap 32 is a water stop state.
That is, the raw water supplied from the raw water conduit 33 to the water supply channel 41 and entering the valve chamber 47 is separated from the valve chamber 47 and the notch 45e by the first valve 45b. It does not flow into the supply pipe 39, and the communication hole 43 a that connects the valve chamber 47 and the purification water flow path 43 is closed by the second valve 45 c, so that it does not flow into the purification water flow path 43 and the purification water supply pipe 38. .
Accordingly, the raw water supplied from the raw water conduit 33 to the water supply passage 41 is not sent to the water discharge passage 44 in the faucet body 32a through the water discharge conduit 34, and water is discharged from the water outlet 32d. It is not forgotten.
[0024]
On the other hand, as shown in FIG. 10, when the switching operation lever 32b is turned in one direction (for example, upward in FIG. 10) from the state shown in FIGS. 8 and 9, raw water is discharged from the water discharge port 32d. It becomes.
That is, the switching valve shaft 45a moves in the direction of the purification water flow path 43 in FIG. 10 as the switching operation lever 32b rotates, and the first valve 45b is biased by the spring 51 by the switching valve shaft 45a. It is moved in the direction of the purification water flow path 43 against this. By the movement of the first valve 45 b, the valve chamber 47 and the cutout portion 45 e of the switching valve shaft 45 a communicate with each other, and the raw water that has entered the valve chamber 47 flows into the raw water flow path 42.
And the raw | natural water which flowed into the raw | natural water flow path 42 is sent to the water discharge flow path 44 through the raw | natural water supply pipe | tube 39 and the water discharge conduit 34, and is discharged from the water discharge port 32d.
[0025]
Further, as shown in FIG. 11, when the switching operation lever 32b is turned in the other direction (for example, downward in FIG. 11) from the state shown in FIGS. 8 and 9, purified water is discharged from the water discharge port 32d. It becomes.
That is, the switching valve shaft 45a moves in the direction of the raw water flow path 42 in FIG. 11 as the switching operation lever 32b rotates, and the second valve 45c is attached to the spring 51 by the head 52a of the screw 52. It is moved in the direction of the raw water flow path 42 against the force. By the movement of the second valve 45 c, the valve chamber 47 and the purification water channel 43 communicate with each other, and the raw water that has entered the valve chamber 47 flows into the purification water channel 43.
The raw water that has flowed into the purification water flow path 43 is sent to the water purifier 36 through the purification water supply pipe 38, purified by the water purifier 36, and then purified into the water discharge flow path 44 through the water discharge conduit 34. It is sent out and discharged from the water outlet 32d.
[0026]
In this way, the composite single faucet 32 can be switched between raw water discharge, clean water discharge, and water stop by simply rotating a single switching device composed of the switching valve 45 and the switching operation lever 32b. It can be done.
Thereby, the switching operation between the water discharge and the water stop and the switching operation between the raw water discharge and the purified water discharge can be performed at the same time, and these switching operations can be simplified and an erroneous operation can be prevented.
[0027]
In addition, the water discharge conduit 34, the water discharge channel 44, and the water discharge pipe 42c function as a raw water passage when the raw water from the raw water conduit 33 is discharged from the discharge port 32d, and the water purifier 36. When discharging purified water from the water outlet 32d, it functions as a water passage for purified water.
That is, on the downstream side of the outlet 36a of the water purifier 36, the raw water passage and the purified water passage are shared.
[0028]
In this way, by sharing the raw water channel and the purified water channel, for example, after discharging purified water from the water discharge port 32d, tap water as raw water is discharged, and the water discharge conduit is a water channel. 34, purified water remaining inside the water discharge channel 44 and the water discharge pipe 42c can be washed with tap water, and it is possible to prevent germs from being generated inside all water passages through which the purified water passes. it can.
[0029]
That is, the purified water supplied from the water purifier 36 has the residual chlorine contained in the tap water removed by the water purifier 36, and therefore the purified water remaining inside the water passage after discharging the purified water from the water outlet 32d. If it stays for a long time, there is a risk that germs may be generated. However, since the tap water from the raw water conduit 33 contains residual chlorine, if the tap water is discharged and the inside of the water passage is washed after discharging the purified water, it is sterilized by the residual chlorine of the tap water and It is possible to prevent germs from being generated inside the water channel.
In general, the frequency of discharging purified water from the composite single faucet 32 is low, and the tap water that is the raw water is discharged frequently. Therefore, if the water is used normally, tap water is discharged within a short time after discharging the purified water. Will be discharged, the generation | occurrence | production of miscellaneous bacteria will be suppressed, and the inside of all the water passages through which purified water will pass can be kept hygienic.
[0030]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained. That is, as described in claim 1, the single water faucet is connected to the raw water conduit for supplying raw water to the single faucet, the water discharge conduit connected to the outlet of the water purifier, and the inlet of the water purifier. The purified water supply pipe and the raw water supply pipe connected to the outlet of the water purifier are fitted, and the raw water supplied to the single water faucet through the raw water guide pipe is operated by the switching device, The raw water sent to the inlet of the water purifier through the purification water supply pipe or to the outlet of the water purifier through the raw water supply pipe, and the raw water sent to the inlet of the water purifier is purified by the water purifier as purified water Since the raw water sent to the single water faucet through the water discharge conduit and the outlet of the water purifier is sent as it is to the composite single water tap through the water discharge conduit,
Further, as described in claim 2, the water discharge conduit and the raw water supply pipe are connected to the outlet of the water purifier through a two-pipe joint, and the two-pipe joint is connected to the two-pipe joint from the raw water supply pipe. When raw water flows in, the raw water is supplied to the composite water faucet through the water discharge conduit, and does not enter the water purifier from the outlet. When purified water flows in, the purified water is supplied to the composite single faucet through the water discharge conduit, and does not flow out to the raw water supply pipe.
For example, after discharging the purified water from the composite single tap, tap water is discharged as the raw water, and the downstream side of the outlet of the water purifier, that is, the water discharge conduit, the water discharge channel, and the water discharge Purified water remaining inside the pipe can be washed with tap water, and germs can be prevented from being generated in all the water passages through which the purified water passes. Thereby, a composite single water tap can be hold | maintained in a sanitary state.
Moreover, it is possible to reduce the piping of the raw water and purified water passages, and to reduce the cost of the composite single faucet.
[Brief description of the drawings]
FIG. 1 is a front view showing a composite single water tap and a water supply pipe of the present invention.
FIG. 2 is a side view of the same.
FIG. 3 is a front sectional view showing the inside of the faucet body.
FIG. 4 is a plan sectional view of the same.
FIG. 5 is a plan sectional view showing the inside of the faucet body in a raw water discharging state.
FIG. 6 is a rear view showing another embodiment of the composite single water tap and the water supply pipeline.
FIG. 7 is a side sectional view showing a two-pipe joint at the outlet of the water purifier.
8 is a front sectional view showing the inside of the faucet body of the composite single faucet in FIG. 6. FIG.
FIG. 9 is a plan sectional view of the same.
10 is a plan cross-sectional view showing the inside of the faucet body of the composite single faucet in FIG. 6 in a raw water discharge state.
FIG. 11 is a plan sectional view showing the inside of the faucet body which is also in the water discharge state of clean water.
[Explanation of symbols]
2 Composite single faucet 2a Faucet body 2b Switching operation lever 2d Water outlet 3 · 4 Water conduit 5a · 5b Stop cock 6 Water purifier 6a Inlet portion 6b Outlet portion 7 Water supply pipe 11 Raw water passage 12 Purified water passage 13 Discharge flow Path 15 switching valve 15a switching path 15b switching communication port

Claims (2)

In a single faucet that discharges raw water,
The raw water and the purified water purified by the water purifier can be discharged from an integrated faucet,
The raw water discharge, purified water discharge, and water stop are configured to be switchable by a single switching device,
The single water faucet includes a raw water conduit for supplying raw water to the single faucet, a water discharge conduit connected to the outlet of the water purifier, a purification water supply tube connected to the inlet of the water purifier, and The raw water supply pipe connected to the outlet of the water purifier is inserted,
The raw water supplied to the single faucet through the raw water conduit is sent to the inlet of the water purifier through the purification water supply pipe or the outlet of the water purifier through the raw water supply pipe by the operation of the switching device,
The raw water sent to the inlet of the water purifier is purified by the water purifier and then sent to the single water faucet through the water discharge conduit as purified water, and the raw water sent to the outlet of the water purifier is As it is, it is sent to the composite single faucet through the water discharge conduit.
A composite faucet characterized by that. The water discharge conduit and the raw water supply pipe are connected to the outlet of the water purifier through a two-pipe joint,
The two-pipe joint is
When raw water flows into the two-pipe joint from the raw water supply pipe, the raw water is supplied to the composite single water faucet through the water discharge conduit, and is configured not to enter the water purifier from the outlet. When purified water flows into the two-pipe joint from the outlet of the vessel, the purified water is supplied to the composite single faucet through the water discharge conduit, and is configured not to flow out to the raw water supply pipe.
The composite single faucet according to claim 1 .

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