JPH07106348B2 - Pipeline sterilization system - Google Patents

Description

TECHNICAL FIELD The present invention relates to a pipeline sterilization system. More specifically, pipe sterilization that can prevent the invasion of microorganisms from the outlets of various devices used in medical institutions such as hospitals, pharmaceutical manufacturers, medical product manufacturers, food manufacturers, etc., and can sterilize the inside of water distribution pipes Regarding the system.

[Prior Art] The inside of the water pipes of equipment such as ultrasonic washer used in medical institutions such as hospitals and medical equipment such as bladder washer and artificial dialysis machine must be kept sterile. However, in the water distribution pipe, it may be contaminated by microorganisms such as bacteria floating in the air that infiltrate from the discharge port,
It is extremely difficult to maintain a sterile condition free from the invasion of such microorganisms. Therefore, it is conventionally disclosed in sodium bisulfite, formalin, sterilization methods using chemicals such as ozone, hot water, steam, etc., and Japanese Patent Publication Nos. 43-8230 and 44-19596. A sterilizer for sterilizing by using chlorine generated by electrolysis, JP-B-30-13756 and JP-A-56-314
As disclosed in Japanese Patent Laid-Open No. 89, a device for sterilization is adopted by energizing water to be sterilized or generating ions.

[Problems to be Solved by the Invention] However, in the sterilization method using the above-mentioned chemicals, hot water, steam, etc., the operation is complicated and disclosed in JP-B-43-8230 and JP-B-44-19596. In this sterilization device, the structure is complicated and the equipment cost is high, and the reverse pollution prevention zone (barrier) cannot be formed in the pipe, and the device disclosed in Japanese Utility Model Publication No. 30-13756 is used. In that case, the sterilization ability is not sufficient, and the method disclosed in JP-A-56-3148
In the device disclosed in Japanese Patent Publication No. 9, since the amount of the inorganic halide is absent or small even if present,
The bactericidal effect is small, and a reverse pollution prevention zone (barrier) cannot be formed in the pipe.

Therefore, its structure is simpler than before, and it can be surely disinfected and sterilized, and a reverse pollution prevention zone (barrier).
A device capable of forming

In addition, plants such as pharmaceutical factories and food manufacturing factories need to be frequently sterilized, and usually sterilized by chemicals or heating, but as described above, aseptic condition in the drain pipe and discharge port The prevention of the invasion of microorganisms has become an important issue.

[Means for Solving Problems] Therefore, as a result of research to solve the problems of the conventional techniques described above, the present inventors have found that an electrolytic device and a water injection port for electrolyzing an aqueous solution of an inorganic halide. And a discharge conduit, each of which is provided with a water shutoff valve, and an electrolysis device is installed between the water shutoff valves provided at the water injection port and the discharge port. A sterilizer was developed and proposed as Japanese Patent Application No. 61-178205. The inventors of the present invention further conducted research thereafter and found a more improved pipe sterilization system that has a simple structure and can sterilize the inside of the water pipe more efficiently and reliably, and arrived at the present invention.

That is, the present invention provides a water conduit forming a closed circuit, an electrolysis device for electrolyzing an inorganic halide aqueous solution, a pump for circulating the inorganic halide aqueous solution in the water conduit, and an inorganic halide in the water conduit. An inorganic halide supply device for injecting an aqueous solution is connected, and the inorganic halide supply device injects a fixed amount of the inorganic halide aqueous solution container and the inorganic halide aqueous solution in the inorganic halide aqueous solution container into the water conduit. And a feed screw for moving the pressing plate.

[Operation] As described above, the conduit sterilization system of the present invention circulates an electrolytic device for electrolyzing an aqueous solution of an inorganic halide and an aqueous solution of an inorganic halide in the aqueous conduit in a water conduit forming a closed circuit. And a pump for and an inorganic halide supply device for injecting an inorganic halide aqueous solution into the water conduit is connected, the inorganic halide supply device is an inorganic halide aqueous solution container, the inorganic halide in the inorganic halide aqueous solution container It is characterized by comprising a pressing plate for injecting a fixed amount of the aqueous solution into the water conduit and a feed screw for moving the pressing plate. A tank may be included in the middle of the water conduit. Normally, a water conduit or tank has a water injection port and a discharge port, and a water shutoff valve is installed here. It also has a pump for circulating water in the water conduit.

The water injected into the water conduit is secondarily contaminated by microorganisms that have entered through the discharge port or the like when it is kept in water for a long time. In the pipeline sterilization system of the present invention, the water shutoff valves at the water inlet and the outlet are closed, and the stored water in the water conduit is electrolyzed by the electrolysis device provided in the water conduit. At the same time, the water in the water conduit is circulated by a pump in the water conduit forming a closed circuit.

If the stored water in the water conduit contains an inorganic halide that can generate a sufficient amount of hypohalite for sterilization by electrolysis, the electrolysis device is energized. The halogen ion contained in is anodized to form hypohalite.

When the inorganic halide is sodium chloride, for example, this reaction is shown by the reaction formula as follows.

NaCl + H ₂ O → NaOH + 1 / 2H ₂ ↑ + 1 / 2Cl ₂ ↑ Cl ₂ + 2NaOH → NaClO + NaCl + H ₂ O Sodium hypochlorite thus produced is a virus,
Effective against most microorganisms such as general asporeless bacteria, acid-fast bacteria, bacterial spores, filamentous fungi, algae, protozoa,
Usually, it has the ability to complete sterilization in a short time at a concentration of about 10 ppm.

Here, it consists of a water conduit with a water stop valve provided at each of the water inlet and the water outlet, and the electrolysis device is installed at the water conduit between the two water shutoff valves provided at the water inlet and the water outlet. In the case of the pipeline sterilizer thus constructed, the generated sodium hypochlorite may not evenly spread to the water conduit between the two water shutoff valves, and the sterilization inside the water conduit may be insufficient.

However, in the case of the system of the present invention, since the water conduit forms a closed circuit and the water in the water conduit circulates in the closed circuit by the pump, there is no such problem, and the pipes are thoroughly sterilized to the end. . In addition, the concentration of sodium hypochlorite is increased by chlorine continuously generated by the electrode during circulation, and sterilization in a wide range of water conduit is sufficiently performed.

If the stored water in the water conduit does not contain enough inorganic halide to generate hypohalite at a concentration sufficient for sterilization by electrolysis, supply the inorganic halide into the water conduit. Such electrolysis can be performed by using a device having a function.

[Embodiment] Next, embodiments of the conduit sterilization apparatus of the present invention will be described in more detail with reference to the drawings, but the present invention is not limited to these.

In FIG. 1, (1) is a water conduit forming a closed circuit (hereinafter, water conduit), (2) and (2 ') are electrolyzers, (3) is sodium chloride injecting device, (4) is pump, and (5). ) Is a water injection port, (6) is a water stop valve, and (7) is a discharge port. FIG. 2 shows an example in which the tanks (21) and (21 ') are included in the water conduit.

The water conduit (1) forms a closed circuit by the water shutoff valve (6),
Water can be circulated in the closed circuit by driving the pump (4).

As the pump (4), a volute pump, a diaphragm pump, a flanger pump, etc. are used, but the volute pump is usually preferable because it has a simple structure and can perform quantitative circulation. If the water conduit is made of a flexible material, a tube pump can also be used.

As the electrolysis device (2), for example, a device configured as shown in FIG. 3 can be used.

In FIG. 3, two electrodes, that is, an anode (32) and a cathode (33) are provided under the water conduit (1),
DC electricity is supplied from the power source (34).

As the electrodes used for the anode (32) and the cathode (33), a platinum electrode that does not cause changes such as corrosion even when immersed in water for a long time is usually preferable, but a metal such as copper or nickel, or a synthetic resin, or a ceramic. Also used are electrodes that have been plated or vapor-deposited with gold or platinum. Further, in order to facilitate the exchange of these electrodes, the cap (35) provided with the electrodes may be fixed by screws as shown in FIG.

As the power source (34), it is possible to use a household AC electricity (100V) transformed into a direct current by a transformer or a battery such as a dry battery. In addition, the power supply (3
A timer may be installed between 4) and the electrode in order to turn on electricity for a predetermined time.

Since the voltage and current of electricity applied to the anode (32) and the cathode (33) and the energization time vary depending on the type, concentration and amount of the inorganic halide aqueous solution in the water conduit (1), it should be determined unconditionally. I can't
For example, if the inorganic halide is NaCl, usually
The effective chlorine concentration in the water conduit is adjusted to 0.5-500ppm, especially about 10ppm or more to sterilize mold and the like. The energization time varies depending on the concentration of the inorganic halide aqueous solution, the supply amount and the current amount, but is preferably 10 to
120 minutes. However, if organic matter contained in the water in the conduit is contained, chlorine generated by electrolysis may be consumed by the organic matter.In this case, either extend the energization time or change the electrolysis current value. It is preferable to make it large.

If the stored water in the water conduit (1) does not contain an inorganic halide that can generate hypohalite at a concentration sufficient for sterilization by electrolysis,
It is preferable to use an apparatus having a function of supplying an inorganic halide into the water conduit (1).

As a device having a function of supplying an inorganic halide, for example, a device having a structure as shown in FIG. 4 and having a function of supplying an aqueous solution of an inorganic halide can be used.

That is, the serpentine type inorganic halide aqueous solution container (42) stably installed by the container stabilizing rod (41) is mounted in the main body of the apparatus having a function of supplying the inorganic halide aqueous solution, and the inorganic halide aqueous solution is provided. By turning the supply feed handle (43), the feed plate (46) moves the pressing plate (46) by a fixed distance. By this operation, a certain amount of the inorganic halide aqueous solution in the inorganic halide aqueous solution container (42) is injected into the water conduit (1). Further, in order to prevent the solution in the water conduit (1) from flowing back into the inorganic halide aqueous solution container (42) and changing the concentration of the inorganic halide aqueous solution in the inorganic halide aqueous solution container (42), A check valve (44) may be provided at the boundary between the water pipe (1) and the inorganic halide aqueous solution container (42).

As the inorganic halide aqueous solution container (42), in addition to a bellows shape, plastic containers having various shapes can be applied. As an example, it is possible to apply a polyethylene bottle capable of narrowing pressure, but in this case, after supplying the inorganic halide aqueous solution, the air valve is used to restore the original shape of the container. Is preferably provided. Alternatively, a method of using a container having a mechanism such as a syringe and injecting a fixed amount of the inorganic halide aqueous solution by pushing a piston for a fixed length may be adopted.

The concentration and the amount of the inorganic halide aqueous solution injected into the water conduit (1) are different depending on the amount of water stored in the water conduit (1) and so cannot be determined unconditionally, but the water conduit (1) is usually used. Inorganic halide aqueous solution with a concentration of about 0.1 to 30% for about 100 to 400 m
Inject at a rate of.

The inorganic halide used to obtain the aqueous solution of inorganic halide includes NaCl, KCl, LiCl, AlCl ₃ , NH ₄ C
l, inorganic chlorides such as CaCl ₂ that produce chlorine ions when the aqueous solution is electrolyzed, inorganic iodides such as NaI and KI, and inorganic oxalates such as NaBr and KBr. Particularly, NaCl (sodium chloride) can be preferably used from the viewpoint of easy availability.

Further, in the invention, not only the method of injecting the inorganic halide into the water conduit (1) as described above, but also the inorganic halide exhibiting a sustained release property, for example, a tablet or capsule formed into a pellet in a predetermined amount. It is also possible to adopt a method of supplying to the water conduit (1) using. As the tablet or the like, a sustained release tablet in which the component is coated with hydrogel or the like may be used so that the component is gradually eluted. A crosslinked 2-hydroxyethyl methacrylate polymer or copolymer is preferably used as the hydrogel.

Further, it may be a system in which a sustained-release tablet is set in the vicinity of the electrode and is periodically replaced depending on the life of the tablet.

As the water shutoff valve (6) provided at the water injection port and the discharge port, various manual valves or electromagnetic valves may be used.
A solenoid valve using an elastic pinch valve as described in JP-A-57-9366 may be used.

When the container of the water conduit circuit is large, a plurality of electrolysis devices may be provided as shown in FIG. In this case, a plurality of electrodes may be provided and a single electric circuit may be provided. The electrodes may be installed in the tank.

In this way, by circulating the water containing the hypohalite in the water conduit, the entire water conduit can be disinfected evenly.

Example 1 An electrolysis apparatus as shown in FIG. 3 was connected to a silicon tube having an inner diameter of 5 mm to form a closed circuit. The circuit was equipped with a water injection port and a discharge port, and tap water and 2% of 20% sodium chloride water were injected and filled. The capacity of the circuit was about 100m. Next, a current of 20 mA is applied directly to the electrode and the liquid is pumped to 20 m with a tube pump.
Circulated at a speed of / min. When electrolysis was performed while circulating for 60 minutes, the effective chlorine concentration of the circulating liquid was 40 ppm.

Examples 2 to 6 Culture solutions of various microorganisms were inoculated into the closed circuit of Example 1 at the concentrations shown in Table 1. Then, the same sodium chloride solution as in Example 1 was injected, and electrolysis was performed while circulating the solution.
It was done for 60 minutes. Then, the liquid in the circuit was sampled and a sterility test was conducted based on the 10th revised Japanese Pharmacopoeia “General test method 37. Sterility test method”. The results are shown in Table 1.

[Advantages of the Invention] As described above, the pipe sterilization system of the present invention has a simple structure and operation, and can be completely disinfected to every corner of the water conduit by circulating the liquid, and the disinfectant concentration can be easily increased. Therefore, it is extremely useful for preventing microbial contamination of various pipes such as a dialysate pipe of an artificial dialyzer, a biochemical automatic analyzer, a food and drug manufacturing plant.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are explanatory views of a pipeline sterilization system of the present invention,
FIG. 3 is a schematic explanatory view of an electrolysis device, and FIG. 4 is a schematic explanatory view of an inorganic halide supply device. (Main symbols in the drawings) (1): Water conduit (2) (2 '): Electrolysis device (4): Pump (6): Water stop valve

Continuation of the front page (51) Int.Cl. ⁶ Identification number Reference number within the agency FI Technical indication location C02F 1/50 540 B EF 550 C 560 F 1/76 A (72) Inventor Kazuo Shimizu Nishi-ku, Nagoya-shi, Aichi Noritake Shinmachi 2-11-3 Tome Sangyo Co., Ltd. (72) Inventor Masahiro Morita 4-226-1, Hamadera Funao-cho, Hajira-shi, Sakai City, Osaka Prefecture (56) Reference Japanese Patent Laid-Open No. 62- 83485 (JP, A)

Claims (1)

[Claims] 1. An electrolysis device for electrolyzing an inorganic halide aqueous solution in a water conduit forming a closed circuit, a pump for circulating the inorganic halide aqueous solution in the water conduit, and an inorganic halide aqueous solution in the water conduit. An inorganic halide supply device for injecting is connected, the inorganic halide supply device is an inorganic halide aqueous solution container, for injecting a fixed amount of the inorganic halide aqueous solution in the inorganic halide aqueous solution container into the water conduit. A pipe sterilization system comprising a pressing plate and a feed screw for moving the pressing plate.