JPH0827848A - Water supply mechanism - Google Patents

Abstract

PURPOSE:To prevent bacteria, molds, and algae from mixing in service water, by sticking a plastic film coated with particles of copper oxide, copper sulfide, silver, etc., on the surface thereof on the inner face of the water supply path or the water supply tank. CONSTITUTION:Particles 42 of copper oxide and/or copper sulfide and silver particles 44 are stuck to the surface 40 of polyethylene base film 38 having a specified thickness so as to be exposed to the outside in a part thereof in order to obtain a plastic film 36. The plastic film 36 are stuck on at least a part of the inside face 34 of the water supply path or the water supply tank 10 through an adhesive layer 46. As a result, bacteria molds, algae, etc., are effectively prevented from proliferation or disinfected in the inside face of the water supply path or the water supply tank 10 or in these path and tank, by the action of particles 42, 44 of copper oxide, copper sulfide, silver, etc.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a clean water supply mechanism provided with a water supply channel or a water tank, and in particular, prevents the growth of bacteria, mold, algae, or the like inside the water supply channel or the water tank. The present invention relates to a water supply mechanism that can be killed and that can supply and distribute sanitary clean water.

[0002]

BACKGROUND ART In general, a water supply mechanism that supplies and distributes tap water used for beverages, hand washing, etc. to a target place is
There are two types, a direct connection type and a water tank type. That is,
The former method is to connect a water supply pipe such as a water supply pipe to the water supply buried underground, and to directly supply and distribute the water from the water supply to the intended place through the water supply pipe. In the latter method, water tanks such as elevated water tanks and ground water tanks are installed on the roof or underground of the building, while the first water channel connecting these water tanks and the waterworks, and the water tank. A second water supply channel that connects with the intended place inside the building is provided respectively, and by the first water supply channel, a predetermined amount of clean water is guided from the water supply to the water tank, and once stored, Then, the clean water stored in the water supply tank is supplied to and distributed from the water supply tank to intended locations. In addition, in this water tank type water supply mechanism, usually, a pump or the like is provided in the first water supply passage or the second water supply passage, and from the water supply to the elevated water tank,
Alternatively, the clean water can be led from the ground water tank to the intended place.

By the way, in such a water supply mechanism, the damage caused by bacteria, molds, algae, etc. grown on the inner surface of the water supply channel or the water supply tank or inside the water supply channel has conventionally been a problem. That is, in the conventional water supply mechanism, the inner surface of a water supply channel such as a water supply pipe or a pump for guiding clean water or the inside thereof, or the inner surface of a water supply tank such as an elevated water tank or a ground water tank or the inside thereof,
When bacteria, mold, algae, etc. are allowed to grow,
The clean water that flows through such a water supply channel or mixes with the clean water stored in the water tank contaminates the clean water, and as a result, clean water that is distributed and distributed to the intended place is unsanitary. However, there is a problem in that a strange odor such as a musty odor is produced in some cases.

In a large-scale water tank type water supply mechanism installed in a large building such as a building, since a particularly large water tank is used, bacteria are not formed on the inner surface or inside of such a water tank. A large amount of mold, mold, algae, etc. are proliferated,
The large amount of bacteria, molds, algae, etc. pollute the clean water, and as a result, the health of the person who drinks or uses the clean water may be impaired.

[0005]

[Solution] Here, the present invention has been made in view of the above-mentioned circumstances, and the problem to be solved is that bacteria and mold are formed on the inner surface of a water supply channel or a water tank or inside thereof. Prevents or suppresses the growth of algae, or kills them, and is effective in mixing bacteria, mold, algae, etc. in the drinking water that flows through the water supply channel or is stored in the water tank. SUMMARY OF THE INVENTION It is an object of the present invention to provide a water supply mechanism which is capable of effectively preventing or suppressing, thereby effectively eliminating the adverse effect on the user of drinking such clean water.

[0006]

In the present invention, in order to solve the above problems, particles of copper oxide and / or copper sulfide are formed on the inner surface of at least a part of a water supply channel or water tank. It is characterized by a water supply mechanism to which a plastic film is attached, which is attached to the surface with a part exposed to the outside.

According to a preferred embodiment of the water supply mechanism according to the present invention, the plastic film has silver oxide particles on the surface thereof along with copper oxide and / or copper sulfide particles, and a part of these particles is exposed to the outside. It is configured to be attached in a state of being exposed to.

[0008]

In other words, in the water supply mechanism according to the present invention, particles of copper oxide and / or copper sulfide are exposed to the outside on the inner surface of at least a part of the water supply channel or the water supply tank. Since the plastic film that is attached to the surface in the pressed state is attached,
Particles of copper oxide or copper sulfide that have an antibacterial effect, that is, the effect of inhibiting the growth of bacteria, mold, algae, etc., or killing them, expose some of these particles inside the water supply channel or water tank. In this state, the water can be advantageously distributed on the inner surface of the water supply channel or the water tank, and as a result, bacteria, mold,
Proliferation of algae or the like can be effectively prevented or suppressed, or they can be killed, and as a result, bacteria, mold, algae, etc. in the tap water that flows through the water supply channel or is stored in the water tank. Therefore, it is possible to effectively prevent or suppress the contamination.

Therefore, in the water supply mechanism according to the present invention, it is possible to effectively prevent the clean water supplied and distributed to the intended place from being contaminated by bacteria, mold, algae, etc. The generation of offensive odor such as musty odor can be advantageously prevented, and furthermore, such a situation that drinking the clean water and damaging the health of the user can be very effectively avoided.

Further, in the present invention, the plastic film is adhered on the surface thereof together with particles of copper oxide and / or copper sulfide in a state where silver particles are partially exposed to the outside. In the case of being configured, the antibacterial action of silver and the antibacterial action of copper oxide or copper sulfide can be synergistically exerted, and bacteria and mold on the inner surface of the water supply channel or water tank or inside thereof, Propagation of algae, etc. can be more effectively prevented, and thus pollution or offensive odor of tap water to be supplied to the intended place is caused, and drinking such tap water causes adverse effects on users. Such a situation can be prevented more effectively.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS In order to clarify the present invention more specifically, representative embodiments of the present invention will be described in detail with reference to the drawings.

First, FIG. 1 schematically shows an example of a water tank type water supply mechanism as an example of the water supply mechanism according to the present invention. In this figure, 10 is an elevated water tank as a water supply tank, which is made of a predetermined resin material such as FRP as in the conventional case. Further, the elevated water tank 10 has a tank shape having a predetermined volume, and a side wall portion thereof has a clean water inflow water supply pipe 12, and a lower side bottom wall portion thereof has a clean water outflow water supply pipe 14. Each is installed. And, in such an elevated water tank 10, it is supported by a support member 16 made of steel frame which is fixed to a predetermined place on the rooftop 15 of the building, and is fixedly installed at such a place. I'm supposed to get it. In addition, in FIG.
Is a lid for covering the window 13 for internal inspection provided on the upper bottom wall of the elevated water tank 10 so as to be openable and closable.

Further, the water supply water supply pipe 12 attached to the elevated water tank 10 as described above extends downward from the roof to the ground along the outer wall of the building in which the elevated water tank 10 is installed. The pump 18 is connected to the outlet 20 of the pump 18 installed on the ground. And the inflow port 2 of this pump 18
A water supply pipe 24 for direct connection to waterworks extends from 2 and its tip is connected to waterworks 26 buried underground.

On the other hand, the clean water outflow water supply pipe 14 is composed of a main water supply pipe 28 and a plurality of auxiliary water supply pipes 30. The main water supply pipe 28 penetrates each floor from the roof inside the building to While being provided so as to extend downward toward the floor, a plurality of auxiliary water supply pipes 30 are provided at each floor so as to branch off from the main water supply pipe 28 and extend toward the intended location. Further, a predetermined water tap 32 such as a faucet is attached to each of the tip end portions thereof.

Thus, in the water supply mechanism according to the present embodiment, the water supply 2 is operated by operating the pump 18.
The clean water, which is introduced into the pump 18 from the water supply pipe 24 for directly connecting to the waterworks from 6, passes through the clean water inflow water supply pipe 12 and the elevated water tank 1
0, so that a predetermined amount of clean water can be stored in the elevated water tank 10.
In addition, the clean water thus stored in the elevated water tank 10 is caused to flow toward the intended place on each floor through the clean water outflow water supply pipe 14, and the respective water taps 32 are opened. By doing so, it can be used for beverages, hand washing, etc. in such places.

By the way, as shown in FIG. 2, in the water supply mechanism according to this embodiment, the inner surface 3 of the elevated water tank 10 is particularly used.
4, a thin plastic film 36 is attached so as to cover the entire inner surface 34.

More specifically, as shown in FIG. 3, the plastic film 36 includes a large number of Cu ₂ O particles 42 and Ag particles 44 on one surface 40 side in the thickness direction of a base film 38 made of polyethylene. And a large number of Cu ₂ O particles 42 and Ag particles 44.
Most of the particles are embedded or attached to the surface 40 with a part of the particles exposed to the outside,
It is configured.

Here, the plastic film 36 having such a structure is manufactured as follows. That is, first, a polyethylene base film 38 having a predetermined thickness, and preferably Cu ₂ O particles 42 and Ag having a thickness smaller than the thickness of the base film 38.
The particles 44 are prepared, and a large number of the Cu ₂ O particles 42 and the Ag particles 44 are heated by a predetermined heating device or the like at the plasticizing melting temperature of the base film 38 or more and the both metal particles 42, 44. After being heated to a temperature below the melting temperature of the Cu film, the Cu film is distributed on the surface 40 on one side in the thickness direction of the base film 38, and then the Cu ₂ O particles 42 are distributed by using a roller or the like. And Ag particles 44 were pressed at a predetermined pressure. In short, a large number of heated Cu ₂ O particles 42 and Ag particles 44 are
By the heat they have, the contact portion between the metal particles 42 and 44 on the surface 40 of the base film 38 is plasticized and melted, and is embedded at a predetermined depth by the pressing pressure exerted by the roller. hand,
It was manufactured. Note that C used here
The sizes of the u ₂ O particles 42 and the Ag particles 44 are not particularly limited and are appropriately determined depending on the thickness of the plastic film 36 to be obtained, etc., but the average particle diameter is about 10 μm to 1000 μm. It is desirable that

Then, such a plastic film 36 is provided on the inner surface 34 of the elevated water tank 10 with a predetermined adhesive on the surface opposite to the surface 40 on which the Cu ₂ O particles 42 and Ag particles 44 are attached. They are adhered to each other via an adhesive layer 46 composed of. As a result, Cu ₂ O particles 42 and Ag particles 44, which have an action of inhibiting the growth of bacteria, molds, algae, or the like, or killing them, so-called antibacterial action, part of these particles are inside the elevated water tank 10. In the exposed state, the entire surface of the inner surface 34 of the elevated water tank 10 can be attached and distributed.

As described above, in the water supply mechanism according to the present embodiment, an excellent antibacterial action is exerted on the entire inner surface 34 of the elevated water tank 10 which stores the clean water to be supplied and distributed to the intended place. Many of the Cu ₂ O particles 42 and the Ag particles 44 are distributed in a state where some of them are exposed inside the elevated water tank 10,
On the inner surface 34 of the elevated water tank 10 or inside thereof, the growth of bacteria, mold, algae, etc. can be effectively prevented or killed, and the bacteria or water in the clean water stored in the elevated water tank 10 can be Mixing of mold and algae can be effectively prevented or suppressed.

Therefore, in the water supply mechanism according to the present embodiment, the extremely sanitary and odorless clean water can be supplied and distributed to the intended place, and accordingly,
It is also possible to effectively prevent the health of the user who drinks and drinks such clean water.

The representative embodiments of the present invention have been described in detail above, but these are literal examples and the present invention should not be construed as being limited to those examples.

For example, in the above-mentioned embodiment, the plastic film 36 was made of polyethylene, but as the resin material for providing such a plastic film,
The present invention is not limited to this, and various types of thermoplastic resin materials, thermosetting resin materials, and the like that can be formed into a film can be appropriately selected and used.

In the above embodiment, the plastic film is used.
A large number of rums 36 are provided on the surface 40 on one side in the thickness direction.
Cu₂O particles 42 and Ag particles 44 are a part of them.
Is exposed and is attached to the outside,
However, without using Ag particles, Cu₂O particles
Stick the chisel on the surface, and then plastic film
May be configured. Furthermore, in an embodiment not using Ag particles
And Cu₂Instead of or in addition to O particles,
CuO, etc., Cu₂Copper oxide particles other than O and Cu ₂S or C
Copper sulfide particles such as uS may be used alone or
Combine them in various ways and attach them as described above.
To form a plastic film. In addition, before
As mentioned above, copper oxide particles and copper sulfide particles are used individually.
The ones used in
On the other hand, by combining Ag particles,
To adhere to form a plastic film
Of course, it is possible.

Further, the method of producing the plastic film having such a constitution is not limited to the one adopted in the above-mentioned embodiment. That is,
For example, the surface of the base film that gives the plastic film may be heated and melted, and the particles of copper oxide or copper sulfide may be attached thereto, or the particles of copper oxide or copper sulfide may be mixed in a predetermined adhesive agent. Along with
Such an adhesive may be used as a coating liquid having a predetermined viscosity and then applied on the surface of the base film. Further, it is also possible to mix particles of copper oxide or copper sulfide in a melt of a predetermined resin material and form the film into a film. However, no matter which of the above-exemplified method or any other method is adopted, the plastic film finally obtained has particles of copper oxide or copper sulfide exposed a part of the particles to the outside. It goes without saying that it must be structured and adhered to the surface in the state.

In addition, in the method of producing the plastic film used in the above-mentioned examples, and further in the method of production described above, particles of copper oxide or copper sulfide are used as one of the materials for providing the intended plastic film. However, metal particles of copper may be used in place of the particles of copper oxide. In that case, of course, it is necessary to oxidize at least the portion of the copper metal particles exposed from the surface of the plastic film to form copper oxide.

Further, in the above embodiment, the plastic film 36 is the inner surface 34 of the elevated water tank 10 as a water tank.
However, the plastic film may be attached to the inner surface of at least a part of the water supply tank or the water supply passage. Therefore, for example, such a plastic film may be attached only to a part of the inner surface of the water supply tank, or only to a water supply passage formed by a water supply pipe or a pump, etc. It may be pasted. Further, even if it is attached to the inner surface of a part or all of the water supply tank and the water supply passage, there is no problem.

When a large water supply tank is used, one or a plurality of panels having a predetermined height are erected inside the water supply tank to form a water supply tank, and the inner surface of the water supply tank is formed. That is, a plastic film may be attached to the inner surface of the wall of the water tank and the surface of the panel. Thereby, on the inner surface or inside of such a large water tank, the contact area between the clean water stored therein and the plastic film can be advantageously increased, and the growth of bacteria, mold, algae, etc. is further effective. Therefore, the effects can be effectively prevented, or they can be destroyed, so that the effects as described above can be more effectively enjoyed.

Further, in the above-mentioned embodiment, the plastic film 36 is adapted to be adhered to the inner surface 34 of the elevated water tank 10 by an adhesive, but the adhering structure of such a plastic film is not limited thereto. However, if possible, the plastic film may be attached to the inner surface of the water supply tank or the water supply passage by fixing with a bolt, if possible.

In addition, in the above-described embodiment, a specific example of the present invention applied to a water tank type water supply mechanism in which an elevated water tank is installed on the roof of a building is shown. Of course, it can be advantageously applied to a water tank type in which a water tank is installed or a water supply mechanism directly connected to a water supply which does not use any such water tank.

Although not listed one by one, the present invention
Based on the knowledge of those skilled in the art, it can be implemented in various modified, modified, and improved modes, and such an mode does not depart from the gist of the present invention.
Both are included within the scope of the present invention,
Needless to say.

[Brief description of drawings]

FIG. 1 is an explanatory view of main parts showing an example of a water supply mechanism according to the present invention, and is a view schematically showing an installation state in a building such as a building.

FIG. 2 is an enlarged vertical cross-sectional explanatory view of a water supply tank provided in the water supply mechanism shown in FIG.

FIG. 3 is an enlarged explanatory view of a main part of an AA cross section in FIG.

[Explanation of symbols]

10 Elevated Water Tank 12 Water Supply Water Supply Pipe 14 Water Supply Outflow Water Supply Pipe 18 Pump 24 Water Supply Direct Connection Water Supply Pipe 26 Water Supply 34 Inner Surface 36 Plastic Film 40 Surface 42 Cu ₂ O Particles 44 Ag Particles

Continuation of the front page (51) Int.Cl. ⁶ Identification code Office reference number FI technical display location C02F 1/50 531 EU 540 FD 550 B

Claims (2)

[Claims] 1. A plastic having particles of copper oxide and / or copper sulfide adhered to the inner surface of at least a part of a water supply channel or a water tank, with the particles partially exposed to the outside. A water supply mechanism featuring a film attached. 2. The plastic film is composed of copper oxide particles and / or copper sulfide particles, and silver particles adhered to the surface of the plastic film with some of the particles exposed to the outside. The water supply mechanism according to claim 1.