JP2004098007A - Water purifier and water purification system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a water purifier which can inhibit the propagation of general bacteria beforehand, and sterilize the general bacteria even if a purified water discharge port is contaminated and the bacteria propagate in a purified water passage. <P>SOLUTION: The water purifier has a raw water inlet port, a raw water outlet port, a purified water inlet port, and a purified water outlet port, and is provided with a switching mechanism for selectively communicating or closing the above ports, a filter cartridge in which filter material is accommodated, a raw water passage for communicating the raw water outlet port and the filter cartridge, and a purified water passage for communicating the filter cartridge and the purified water inlet port. The switching mechanism is structured so as to be switchable at least between a position communicating the raw water inlet port with the raw water outlet port and a position communicating the raw water inlet port with the purified water inlet port. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a water purifier for purifying tap water and the like, and more particularly, general bacteria grow in purified water after residual chlorine is removed by a filtration cartridge equipped with a filter medium such as a hollow fiber membrane and activated carbon. Water purifier to prevent
[0002]
[Prior art]
In recent years, pollution by various organic and inorganic substances in tap water has become a problem. This is due to increased pollution of water sources and deterioration of water supply tanks and pipes of high-rise houses and buildings. For this reason, in order to obtain safe water, a water purifier having a filtration cartridge in which a filter medium such as a hollow fiber membrane or activated carbon is disposed has been widely used.
[0003]
In a water purifier equipped with such a filter medium, chlorine-based ions and the like, which cause odor, are removed by adsorption and decomposition by a chlorine-free filter medium such as an activated carbon layer, and then iron rust and various bacteria are removed by a hollow fiber membrane. Although it is prevented, calcium and magnesium, which are the factors of delicious water, pass through, so that it becomes safe and delicious purified water and is discharged from the purified water discharge section.
[0004]
However, in such a water purifier, chlorine is not contained in water after passing through the filtration cartridge due to its structure. For this reason, if you touch the clean water discharge part with your hand or wash the discharge part with detergent, leave it for several days, general bacteria will propagate, and the clean water flow from the filter material to the clean water discharge part will be obvious, not to mention the clean water discharge part. Roads can also be contaminated.
[0005]
Therefore, for the purpose of preventing contamination, a water purifier that is provided with a bactericide on the outflow side of the purified water to prevent invasion of various germs from outside when not in use (for example, see Patent Document 1), and an insoluble antibacterial agent having a contact bactericidal action. A water purifier fixed to the inner surface of a water purification channel (for example, see Patent Document 2), and a water purifier having an antibacterial plastic sintered filter disposed in the water purification channel have been proposed (for example, Patent Document 3). reference).
[0006]
However, these water purifiers only provide the antibacterial agent on the inner surface of the water purification channel or on a section of the channel, and only a small part of the water contacts the antibacterial agent. No effect can be exerted. Further, once the water purification channel is contaminated, it cannot be sterilized.
[0007]
[Patent Document 1] Japanese Unexamined Utility Model Publication No. 2-117090 (Page 4, FIG. 1)
[0008]
[Patent Document 2] JP-A-3-262593 (Page 2, FIG. 1)
[0009]
[Patent Document 3] JP-A-6-91261 (page 2, FIG. 1)
[0010]
[Problems to be solved by the invention]
The present invention has been made in view of the above problems, and provides a water purifier capable of preventing propagation of general bacteria in advance and sterilizing even when the purified water discharge port is contaminated and general bacteria propagate in a water purification channel. The purpose is to do.
[0011]
[Means for Solving the Problems]
The present invention has a raw water inlet, a raw water outlet, a purified water inlet and a purified water outlet, a switching mechanism for selectively communicating or closing these, a filtration cartridge containing a filter medium therein, and a raw water outlet. And a raw water flow path communicating the filtration cartridge, and a purified water flow path communicating the filtration cartridge and the purified water introduction port, and the switching mechanism includes at least:
1) the position where the raw water inlet communicates with the raw water outlet, and
2) Position where the raw water inlet communicates with the purified water inlet,
It is a water purifier configured to be switchable between the two positions.
[0012]
When the raw water inlet is connected to the raw water outlet, the raw water flows through the raw water flow path to the filtration cartridge. The purified water filtered by the filter medium passes through the purified water flow path and finally flows out of the purified water nozzle. On the other hand, when the raw water inlet communicates with the purified water inlet, the raw water flows into the purified water flow path. That is, the raw water containing chlorine flows into the water purification channel, and sterilizes the water purification channel. By switching the switching mechanism periodically to feed the raw water to the purified water flow channel, the propagation of general bacteria is prevented in advance, and sterilization is also performed when the purified water discharge port is contaminated and general bacteria grow in the purified water flow channel. Is possible.
[0013]
Here, the switching mechanism communicates at least 1) the raw water inlet with the raw water outlet, and communicates the purified water inlet with the purified water outlet,
2) A position where the raw water inlet communicates with the purified water inlet, and the purified water outlet communicates with the raw water outlet.
And a bypass flow path that bypasses the filtration cartridge and communicates with the raw water flow path and the purified water flow path; a raw water flow path side between the filter medium and the bypass flow path; Preferably, a check valve provided on at least one of the flow paths is provided.
[0014]
With this configuration, when the raw water inlet communicates with the purified water inlet, the raw water flowing to the purified water flow path flows through the bypass flow path to the raw water flow path, and further, the raw water discharge port and the purified water discharge port. And finally out of the water purification nozzle. That is, raw water not filtered by the filtration cartridge flows out of the water purification nozzle. Generally, in a water purifier, switching between purified water and raw water is performed according to the situation. In the water purifier having the above configuration, the tap water containing chlorine always passes through the water purification channel when using the raw water, so that the user switches between the purified water and the raw water according to the normal use form without any particular consciousness. It has an excellent effect that the purified water flow path is periodically sterilized just by using it.
[0015]
Here, if the check valve provided between the filter medium and the bypass flow path is provided on only one of the raw water flow path side and the purified water flow path side, it is possible to prevent the raw water from flowing to the filtration cartridge. However, it is more preferable to provide both.
[0016]
Further, it is preferable to provide a check valve also in the bypass passage. Thereby, it is possible to prevent water from flowing into the bypass flow path at the position 1), that is, when using purified water. In addition, instead of a check valve, an open / close valve or the like that opens and closes in conjunction with the switching mechanism may be provided, but the check valve has a simpler structure, and is cost-effective and compact. preferable.
[0017]
The switching mechanism may further include, in addition to the positions 1) and 2),
3) Position where raw water inlet and purified water outlet are closed at the same time,
, And is preferably configured to be switchable between at least three positions. By closing the raw water inlet and stopping the supply of raw water and also closing the purified water outlet, contamination from the purified water nozzle can be more effectively stopped.
[0018]
It is preferable that the raw water flow path and the purified water flow path are made of a heat-resistant material. Thereby, it can be used even when the supply water is hot water.
[0019]
Preferably, the filtration cartridge comprises activated carbon and a hollow fiber membrane. As a result, chlorine, iron rust, and bacteria contained in the raw water can be prevented, so that safer and more delicious water can be supplied.
[0020]
Preferably, at least one of the components of the filtration cartridge contains an antimicrobial agent. Thus, even when the filtration cartridge is contaminated due to reverse contamination, or when general bacteria are attached during production of the filtration cartridge, it is possible to suppress the general bacteria from growing in the filtration cartridge.
[0021]
It is preferable that the filtration cartridge is configured to be detachable. This makes it possible to easily replace an old filtration cartridge having a deteriorated purification performance.
[0022]
Preferably, it is installed below the kitchen. It is preferable to install it under the kitchen without affecting the appearance around the sink.
[0023]
In addition, a water purification system including any of the above water purifiers, a water purification nozzle, and a water tap is also a preferable embodiment.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described using a so-called undersink type water purifier installed below a kitchen as shown in FIG. 2 as an example. Note that the present invention is not limited to the following embodiments.
[0025]
As shown in FIG. 2, the water purification system of this embodiment includes a water tap 4, a filtration cartridge 3, a switching mechanism 1, and a water purification nozzle 12, and is installed below the kitchen. The water tap 4 and the switching mechanism 1 are connected by a raw water introduction pipe 11, and the switching mechanism 1 and the filtration cartridge 3 are connected by two hoses, a raw water hose 18a and a water purification hose 18b.
[0026]
In such an undersink type water purification system, only the switching mechanism 1 and the water purification nozzle 12 are present at the upper part of the sink, and the other members are stored at the lower part of the sink, which affects the appearance around the sink. Has no effect.
[0027]
FIG. 5 shows a sectional view of a conventional undersink type water purifier. FIG. 5 shows a state in which the switching mechanism 14 is at the water purification position and purified water is being discharged from the water purification nozzle 12. On the other hand, when the switching mechanism 14 is rotated by 90 degrees to the raw water position, the raw water inlet 13a is communicated with the purified water outlet 13d, and the tap water is directly sent to the purified water nozzle 12. On the other hand, since the raw water outlet 13b and the purified water inlet 13c are shut off from the flow path, the water in the raw water flow path 21 and the purified water flow path 41 stays. Since chlorine having a bactericidal effect has been removed from the retained water in the water purification channel, general bacteria may invade from the tip of the water purification nozzle and proliferate, and eventually reach the filtration cartridge. In particular, in the undersink type water purification system, since the water purification hose 18b has to be long due to its structure, general bacteria easily proliferate in this portion.
[0028]
The water purifier and the water purification system of the present invention solve such a problem. Hereinafter, one embodiment of the water purifier of the present invention will be described in detail.
[0029]
As shown in FIG. 1, the switching mechanism 1 includes a raw water inlet 13 a connected to the raw water inlet pipe 11, a raw water outlet 13 b for supplying tap water to the filtration cartridge 3, and a purified water inlet 13 c for taking purified water from the filtration cartridge 3. And four ports of a purified water outlet 13d communicating with the purified water nozzle 12. The switching mechanism 1 is provided with a switching valve 14 so as to be rotatable. By rotating the switching valve 14, three positions of a water purification position, a raw water position, and a water stop position can be taken.
[0030]
The raw water outlet 13b is connected to the raw water inlet 39 of the filtration cartridge via the raw water outlet pipe 15a, the raw water hose 18a, and the bypass mechanism 2. The raw water discharge pipe 15a and the bypass mechanism 2 are provided with joints 16a and 16b, respectively, and are connected to the raw water hose 18a through packings 17a and 17b in a watertight manner. Will not leak.
[0031]
The purified water inlet 13c is connected to the purified water outlet 40 of the filtration cartridge via the purified water outlet pipe 15b, the purified water hose 18b, and the bypass mechanism 2. The water purification pipe 15b and the bypass mechanism 2 are provided with joints 16e and 16d, respectively, and are connected to the water purification hose 18b through packings 17e and 17d in a watertight manner. Will not leak.
[0032]
The bypass mechanism 2 includes a bypass passage 22 that connects the raw water passage 21 and the purified water passage 41.
[0033]
In the raw water flow path 21, a check valve 23a is provided between the bypass flow path 22 and the filter medium. In the purified water flow path 41, a check valve 23b is provided between the filter medium and the bypass flow path 22. A check valve 23c is provided in each of the paths 22.
[0034]
Here, the direction of the check valve 23 is released in the check valve 23a installed in the raw water flow path 21 with respect to the flow from the raw water inlet 13b to the raw water intake 39, and with respect to the reverse flow. It is installed to be closed. The check valve 23b installed in the purified water flow passage 41 is installed so as to be opened for the flow from the purified water outlet 40 to the purified water inlet 13c and closed for the reverse flow. Further, the check valve 23c provided in the bypass flow path 22 is provided so as to be opened for the flow from the purified water flow path 41 to the raw water flow path 21 and closed for the reverse flow. .
[0035]
The filtration cartridge 3 forms a container by connecting a main body upper part 30 and a main body lower part 34 having a raw water inlet 39 and a purified water outlet 40 on substantially the same plane via a seal ring 38a, and forms a hollow fiber membrane module. It contains chlorine-free filter media such as carbon and activated carbon.
[0036]
The hollow fiber membrane module is housed in a case 35 in which a plurality of hollow fiber membranes 36 are aligned and bent in a U-shape and both ends are opened, and the hollow fiber membranes 36 and the hollow fiber membrane 36 and the case 35 are connected to each other. The space between them is sealed and fixed with a synthetic resin 37. At this time, the end of each hollow fiber membrane 36 is opened. Further, the hollow fiber membrane module is disposed at the center of the inside of the main body upper part 30 so that the open end of the hollow fiber membrane faces the purified water outlet 40. 30 is attached.
[0037]
Further, a primary filter 31 having a net for preventing activated carbon 32, which is a dechlorinating filter medium, from leaking from the container, and a secondary filter 33 at the opposite end are fixed to the container. Activated carbon 32 is accommodated in a space formed by 31, secondary filter 33, case 35 and upper part 30 of the main body.
[0038]
In use, the filtration cartridge 3 having the above-described configuration is detachably connected to the bypass mechanism 2 by joints 16c and 16d via packings 17c and 17d provided in the bypass mechanism 2. It is preferable to use a one-touch joint as this joint because the cartridge can be replaced with one touch.
[0039]
In the above-described water purifier 50, when the switching valve 14 of the switching mechanism 1 is turned to select a water purification position, the raw water inlet 13a is connected to the raw water outlet 13b, and the purified water inlet 13c is connected to the purified water outlet 13d. You. Tap water supplied from the water tap 4 passes from the raw water inlet pipe 11 through the raw water inlet 13a, the raw water outlet 13b, the raw water outlet pipe 15a, and the raw water hose 18a, and reaches the bypass mechanism 2.
[0040]
Tap water that has reached the bypass mechanism 2 is shut off by the check valve 23 c provided in the bypass passage 22, and does not flow into the bypass passage 22. For this reason, water pressure is applied to the check valve 23 a provided in the raw water flow path 21, the check valve 23 a is released, and tap water enters the filtration cartridge 3 from the raw water intake 39. The chlorine contained in the tap water is removed by the activated carbon 32, and then the fine particles and the like are filtered by the hollow fiber membrane 36. The tap water becomes purified water and is discharged out of the filtration cartridge 3 through the purified water outlet 40. The check valve 23b installed in the water purification flow path 41 is also released by the water pressure, and the purified water reaches the purified water outlet pipe 15b from the bypass mechanism 2 via the water purification hose 18b. At this time, water pressure is applied to the check valve 23c installed in the bypass flow passage 22 from the water purification flow passage 41 side. However, when tap water passes through the filtration cartridge 3, a large pressure loss occurs in the activated carbon layer 32, and the water purification flow passage The water pressure of 41 becomes lower than the raw water flow path 21. Therefore, since the check valve 23c maintains the closed state, the tap water does not pass through the bypass passage 22 in a short path.
[0041]
The purified water that has reached the purified water outlet pipe 15b is discharged from the water purifier 50 to the outside of the water purifier 50 via the purified water inlet 13c and the purified water outlet 13d.
[0042]
Next, when the raw water position is selected by rotating the switching valve 14 as shown in FIG. 3, the raw water inlet 13a is connected to the purified water inlet 13c, and the raw water outlet 13b is connected to the purified water outlet 13d. For this reason, tap water containing chlorine and having a sterilizing effect reaches the bypass mechanism 2 from the raw water inlet 13a via the purified water inlet 13c, the purified water outlet pipe 15b, and the purified water hose 18b. At this time, since water pressure is applied to the check valve 23b installed in the purified water flow path 41, the check valve 23b is closed, so that tap water does not enter the filtration cartridge 3. Further, the water pressure is simultaneously applied to the check valve 23c provided in the bypass flow passage 22, and the check valve 23c is released, so that the tap water flows through the bypass flow passage 22 to the raw water flow passage 21. At this time, water pressure is applied to the check valve 23a installed in the raw water flow path 21 to be in an open state. However, the check valve 23b installed in the purified water flow path 41 shuts off the flow path flowing in the filtration cartridge 3. Therefore, water does not flow to the filtration cartridge 3 side.
[0043]
The tap water thus introduced into the raw water flow path 21 is discharged from the water purification nozzle 12 through the raw water hose 18a, the raw water introduction pipe 15a, the raw water outlet 13b, and the purified water outlet 13d.
[0044]
When the use is stopped, the raw water inlet 13a and the purified water outlet 13d are simultaneously closed by turning the switching valve 14 to select the water stop position as shown in FIG. Therefore, the water pressure of the tap water is shut off at the raw water inlet 13a. In addition, since the water purification outlet 13d is closed, even if general bacteria intrude from the tip of the water purification nozzle 12, it does not invade the flow path.
[0045]
By adopting such a water purification system, it is possible to prevent contamination of the water purification channel, etc., and even if the water purification channel, etc. is contaminated, sterilization can be performed when using raw water. Can be supplied to
[0046]
Since tap water supplied from the raw water introduction pipe 11 may be hot water, the members constituting the raw water flow path and the purified water flow path are preferably made of a heat-resistant material. In the conventional undersink type water purification system as described above, when the switching mechanism 11 is at the raw water position, tap water does not pass through the raw water flow path and the purified water flow path. Therefore, the material of the raw water hose 18a and the water purification hose 18b may not have heat resistance in some cases. However, in this embodiment, it is preferable that these members are also made of a heat resistant material. Such a heat-resistant material may be a nylon resin, a polyurethane resin, a fluorine resin, or the like in the case of a plastic resin, or a SUS flexible tube.
[0047]
In addition, since the inside of a filtration cartridge is not sterilized also by the water purifier of this aspect, it is preferable to impart antibacterial properties by including an antibacterial agent in at least one of the components of the filtration cartridge. Thereby, even if the filtration cartridge is contaminated by reverse contamination, it is possible to suppress general bacteria from growing in the filtration cartridge. Also, even if general bacteria adhere to the filtration cartridge during production or replacement, it is also possible to suppress the propagation of general bacteria in the filtration cartridge. In order to make the components of the filtration cartridge contain an antibacterial agent, it is preferable to attach silver to the activated carbon 32, or to apply or knead a silver-based antibacterial agent to any of the components such as the upper body 30.
[0048]
【The invention's effect】
The water purifier of the present invention is provided with a switching mechanism that switches between a position where the raw water inlet is connected to the raw water outlet and a position where the raw water inlet is connected to the purified water outlet, so that propagation of general bacteria can be prevented. Even if the purified water discharge port is contaminated and general bacteria grow in the purified water flow path, sterilization can be performed by flowing tap water containing chlorine having a sterilizing effect through the purified water flow path.
[0049]
Also, a bypass flow path that bypasses the filtration cartridge and connects the raw water flow path and the purified water flow path, and a check valve is provided between the raw water flow path or the filter medium of the purified water flow path and the bypass flow path. By configuring so that tap water always passes through the purified water flow path, the user can switch between purified water and raw water in accordance with the normal usage pattern without using any special care. Sterilized.
[0050]
Further, since the material of the pipe portion is made of a heat-resistant material, it can be used even when the supply water is hot water.
[0051]
In addition, since the filtration cartridge is provided with a hollow fiber membrane in addition to a chlorine-free filter medium such as activated carbon, it is possible to prevent bacteria contained in raw water, so that safer and more delicious water can be supplied. .
[0052]
Further, in the case of a water purifier installed below the kitchen, and further in the case of a water purification system provided with a water purification nozzle and a water tap for the water purification nozzle, the water purification passage becomes longer. Especially effective. Such an undersink type water purifier and water purification system are suitable without affecting the appearance around the sink.
[Brief description of the drawings]
FIG. 1 is a schematic vertical sectional view of a water purifier showing one embodiment of the present invention.
FIG. 2 is a perspective view when a water purifier is installed on a sink.
FIG. 3 is a partial cross-sectional view of the water purifier of FIG. 1 in a state of using raw water.
FIG. 4 is a partial cross-sectional view of the water purifier of FIG. 1 in a water stopping state.
FIG. 5 is a schematic vertical sectional view of a water purifier showing one embodiment of a conventional water purifier.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Switching mechanism 2 Bypass mechanism 3 Filtration cartridge 4 Water tap 11 Raw water inlet pipe 12 Purified water nozzle 13a Raw water inlet 13b Raw water outlet 13c Pure water inlet 13d Purified water outlet 14 Switching valve 18 Hose 20 Holder 21 Raw water channel 22 Bypass channel 23 Check valve 39 Raw water inlet 40 Purified water outlet 41 Purified water flow path 50 Water purifier

Claims (10)

It has a raw water inlet, a raw water outlet, a purified water inlet, and a purified water outlet, and a switching mechanism for selectively communicating or closing these, a filtration cartridge containing a filter medium therein, and a raw water outlet and a filtration cartridge. A raw water flow path that communicates with a water purification flow path that communicates a filtration cartridge and a purified water introduction port, and the switching mechanism includes at least:
1) Position where the raw water inlet communicates with the raw water outlet,
2) Position where the raw water inlet communicates with the purified water inlet,
Water purifier configured to be switchable between the two positions. A position where the switching mechanism communicates at least 1) the raw water inlet with the raw water outlet and the purified water inlet with the purified water outlet;
2) A position where the raw water inlet communicates with the purified water inlet, and the purified water outlet communicates with the raw water outlet.
And a bypass flow path that bypasses the filtration cartridge and communicates with the raw water flow path and the purified water flow path; a raw water flow path side between the filter medium and the bypass flow path; The water purifier according to claim 1, further comprising: a check valve provided on at least one of the flow paths. The switching mechanism further comprises:
3) Position where raw water inlet and purified water outlet are closed at the same time,
The water purifier according to claim 1, wherein the water purifier is configured to be switchable between at least three positions including: The water purifier according to claim 2, wherein a check valve is provided in the bypass passage. The water purifier according to any one of claims 1 to 4, wherein the raw water flow path and the water purification flow path are made of a heat-resistant material. The water purifier according to any one of claims 1 to 5, wherein the filtration cartridge includes activated carbon and a hollow fiber membrane. The water purifier according to any one of claims 1 to 6, wherein at least one of the components of the filtration cartridge contains an antibacterial agent. The water purifier according to any one of claims 1 to 7, wherein the filtration cartridge is detachably configured. The water purifier according to any one of claims 1 to 8, which is installed below a kitchen. A water purification system comprising the water purifier according to claim 1, a water purification nozzle, and a water tap.

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