KR20130115646A - Sterilized water creation device with multi-function - Google Patents

Abstract

The present invention provides a multifunctional sterilizing water machine and a sterilization method using the same, which is driven by any one of a pot method, an immersion method and a mist injection method.
The user can connect a pot to create a small amount of sterilized water by the port method, or place a sterilization module in a separate tank outside the port to generate a large amount of sterilized water, or operate the spray module to perform mist spraying.

Description

Sterilized water creation device with multi-function

The present invention relates to a multifunctional sterilizer which is driven by any one of a pot method, an immersion method and a mist injection method.

As the demand for more hygienic and safe eating habits and lifestyle is increasing, interest in sterilization water is increasing.

However, the conventional sterilizing water was limited to the place of use because it is inconvenient to carry, and the use method is also inconvenient.

Conventional sterilizing water is a sterilizing water maker equipped with a bucket, a sterilizing water maker of a method of connecting the cord to a general power source in the home to make the water in the bucket sterilizing water, and a general sterilizing water maker without a bucket After connecting the cord to the circle can be divided into sterilized water makers by dipping the maker in a separate tank, such as sinks or sinks, and then to make the water in the tank into sterilized water.

In the former case, the amount of sterilizing water produced is small, and in order to use the sterilizing water, the sterilizing water must be transferred to a separate large bowl or bucket.

For example, if the fruit is to be washed with sterilized water, the sterilized water filled in the bucket should be transferred to a separate large bowl and then the fruit should be washed. In addition, in order to wash a large amount of fruit, the sterilizing water maker must be repeatedly run several times to collect the sterilizing water.

In the latter case, a large amount of sterilizing water is produced, but even if only a small amount of sterilizing water is required, a large amount of sterilizing water has to be made, so that water and power are wasted.

For example, even when one fruit is to be washed, the sterilizing water maker must be driven after filling the tank to a height where the sterilizing water maker is sufficiently immersed.

On the other hand, if you want to spray in the space using the sterilizing water can not be solved by the above-described conventional sterilizing water maker, a humidifier that can use the sterilizing water is required separately.

Accordingly, the present invention is to solve all the above-mentioned problems, to provide a sterilizing water dispenser that can be used in various ways as desired by the user.

That is, when a small amount of sterilizing water is required, a large amount of sterilizing water is required, and when a sterilizing water spray is required, the present invention is to provide a sterilizing water generator that can be driven in various ways according to the conditions desired by the user.

In order to solve the above problems, one embodiment of the present invention, the sterilization module for receiving power from the main body, to generate sterilization water using water; A port which can be fastened to the sterilization module and stores water or sterilization water; And a spraying module which can be fastened to the port and mist sprays sterilizing water, wherein the port includes a fastener to which the sterilizing module and the spraying module can be fastened. to provide.

In addition, the sterilization module is preferably immersed in water to generate sterilization water.

In addition, after the water is stored in the port, the sterilization module is fastened to the port, it is preferable that the water in the port is converted into sterilized water.

In addition, it is preferable that the sterilizing water is mist sprayed by fastening the spray module to the port in which the sterilizing water is stored.

In addition, the injection module, the injection nozzle for mist spraying sterilized water; And it is preferable to include an opening and closing portion for opening and closing the injection nozzle with respect to the outside.

In addition, the injection module, the mist generating unit; And an inlet / outlet unit communicating with the mist generating unit and protruding downwardly, wherein the inlet / outlet unit has a plurality of inlet / outlet holes, and the sterilizing water introduced through the plurality of inlet / outlet holes is introduced into the mist generating unit. To generate mist, and the generated mist is mist sprayed through the spray nozzle.

In addition, the injection module further comprises a pumping member, it is preferable that the sterilizing water introduced through the inlet and the outlet when the opening and closing part is pumped upward by the pumping member.

In addition, the sterilizing water further comprises a hanger detachable to the injection module, the injection module is preferably spraying the mist toward the hanger.

In addition, the specific gravity of the sterilization module is preferably greater than one.

In order to solve the above problems, another embodiment of the present invention, the sterilization module; A port detachable from the sterilization module and storing water or sterilization water; And a sterilizing water generating method including a sterilizing water container including a detachable spraying module and the port, wherein the sterilizing water is selectively driven by any one of a port method, an immersion method, and a mist spraying method. Provides a number generation method.

In addition, when driven in the port method, the step of fastening the port to the sterilization module; Introducing water from the port into the sterilization module; Generating sterilized water using the introduced water; And it is preferable that the generated sterilized water is driven to the step of flowing into the port.

In addition, when the immersion method is driven, the sterilization module is located in the tank; Introducing water of the tank into the sterilization module; Generating sterilized water using the introduced water; And it is preferable that the generated sterilized water is driven to the step of flowing into the tank.

In addition, when driven in the mist injection method, driven by the port method, the step of placing the sterilizing water in the port; After the sterilization module is removed from the port, fastening the injection module to the port; Injecting sterilizing water into the injection module; Preferably, the introduced sterilized water is driven into the step of being converted into mist.

In addition, the sterilizer can be further driven in a hanger mode.

When driven in the hanger mode, driven in the port manner so that sterilizing water is located in the port; After the sterilization module is removed from the port, fastening the injection module to the port; Fastening a hanger to the injection module; Injecting sterilizing water into the injection module; Preferably, the introduced sterilized water is converted into mist and driven by spraying the hanger.

According to the present invention, since the user can generate the sterilized water in a desired manner, it can be conveniently used from the user's point of view, and water and power waste can be minimized.

In addition, it is easy to carry and mobile, so it can be easily used outdoors.

In addition, by adopting a hanger method, it can be used in a variety of ways, such as easily manufacturing wet wipes, disinfecting cloths and the like.

1 is a perspective view of a sterilizing water according to the present invention.
Figure 2 is an exploded perspective view of the injection module of the sterilizing water according to the present invention.
Figure 3 is a schematic diagram for explaining the pot method of the method of using the sterilizing water according to the present invention.
Figure 4 is a schematic diagram for explaining the immersion method of the method of using the sterilizing water according to the present invention.
Figure 5 is a schematic diagram for explaining the mist spraying method of using the sterilizing water according to the present invention.

Hereinafter, with reference to the drawings will be described sterilizing water according to the present invention and a method of using the same.

First, the various modes of operation of the sterilizing water device, which is the main feature of the present invention, will be described schematically.

Sterilizing water according to the invention is characterized in that it can be driven by the port method, immersion method and mist injection method according to the user's selection.

Port method, the sterilization module 400 is separated from the body 300 of the sterilizing water receiver (FIG. 3) or the sterilization module 400 is coupled to the body 300 (FIG. 1), the sterilization module 400 port As the 200 is coupled and driven, the water stored in the port is generated as sterilized water. After generating the sterilizing water, after sterilizing the module 400 and the port 200, the sterilizing water in the port 200 may be used. The generated sterilizing water is small and has good portability and mobility.

In the immersion method, as shown in FIG. 4, the sterilization module 400 is separated from the body 300 of the sterilization water generator and put into a separate water tank B containing water to drive a large amount of water to generate sterilization water. That's the way. For example, a large amount of sterilized water may be generated by driving a large water tank after filling it with water, or by filling and driving a kitchen sink with water.

Mist injection method uses the injection module 100, as shown in Figure 5 is driven by fastening the separate injection module 100 to the port 200 containing the sterilization water, sterilization by opening the injection nozzle 115 The water is sprayed to the outside in the form of mist. By spraying sterilized water into a certain space, the air can be kept clean and humidified.

Hereinafter, with reference to the drawings will be described the structure of the sterilizing water according to the present invention.

Sterilizing water according to the present invention, the injection module 100, the port 200, the body 300 and the sterilization module 400.

The main body 300 supplies power to the sterilization module 400 and controls it.

The sterilization module 400 is formed with a plurality of inlet and outlet, the sterilization module 400 using the water in contact with the sterilization module 400 to generate the sterilization water as the water entering and exiting the sterilization module 400. The method of generating the sterilizing water may be any method.

On the other hand, if you want to use the sterilizing water in the immersion method as shown in Figure 4, the sterilization module 400 sinks in the water tank (B), it is preferable to generate as sterilized water to the bottom of the water, its specific gravity is 1 Larger is preferred. To this end, all or part of the sterilization module 400 may be made of a material having a large mass.

The injection module 100 is coupled to the port 200 to mist spray the sterilizing water in the port 200.

2, the injection module 100 will be described in more detail.

The injection module 100 includes an injection unit 110, a housing 120, a mist generating unit 130, an inlet / outlet unit 140, and a power unit 150.

The injection unit 110 includes an injection nozzle 115 and an opening / closing unit 111 that opens and closes the external unit. Sterilization water is automatically supplied to the spray nozzle 115 when the opening and closing part 111 is opened and closed, and mist is sprayed, and when the closure 111 is closed, the sterilizing water is not supplied to the spray nozzle 115.

The mist generating unit 130 converts the sterilized water introduced into the mist. Note that ultrasound may be used, but is not limited thereto.

The sterilizing water contained in the port 200 is introduced into the injection module 100 through the inlet / outlet unit 140. The sterilized water introduced is transferred to the mist generating unit 130 by a pumping member (not shown).

The inlet / outlet unit 140 is disposed to protrude downward from the injection module 100 so as to contact the sterilizing water in the port 200, and a plurality of inlet / outlet holes 141 are located.

The power unit 150 supplies power to components of the injection module 100 requiring power, such as the sterilization water generation module 130. It is preferable that the components of the power unit 150 are protected by the water resistant coating or the water resistant protective member.

The port 200 may be fastened to the injection module 100 using fasteners 129 and 209, and may contain water. In addition, the fastener 209 of the port 200 may be fastened to both the fastener 129 of the injection module 100 as well as the fastener (not shown) of the sterilization module 400.

In the drawings, port 200 is shown as a cylinder, but any shape may be used for the practice of the present invention.

Hereinafter, a method of using the sterilizing water according to the present invention will be described in detail with reference to FIGS. 3 to 5.

(1) port system (Fig. 3)

First, the user fills the port 200 with water.

Next, the sterilization module 400 is separated from the main body 300, and one open surface of the port 200 is fastened to the sterilization module 400.

Thereafter, the sterilization module 400 fastened to the port 200 may be coupled to the main body 300 again (FIG. 1) or may be operated in a separated state from the main body 300 (FIG. 3). In any case, the sterilization module 400 is flipped upside down so that the sterilization module 400 fastened to the port 200 is located below.

Next, the main body 300 is operated. Through this, the sterilization module 400 is operated, whereby water in the port 200 is generated as sterilizing water.

Next, the user separates the sterilization module 400 from the port 200 in the reverse order described above for using water in the port 200.

Thereafter, the user may use the sterilizing water in the port 200.

It is suitable for the production of small amount of sterilized water, and because of its good portability, it is possible to generate the sterilized water conveniently in the outdoor to wash fruits and the like.

(2) dipping method (Fig. 4)

The user prepares water to generate sterilized water in a separate tank (B). In Figure 4 is shown as a tank (B), it is possible to take advantage of the sink or sink in the kitchen sink.

Thereafter, the sterilization module 400 removed from the main body 300 is placed in the water tank B and then operated. The order may change.

Through this, the water in the water tank (B) is produced as sterilized water.

Thereafter, the user can take out the sterilization module 400 and put the fruit into the water tank (B) to wash.

It is suitable for generating a large amount of sterilizing water, and can be conveniently used for water filled in any structure when the amount of sterilizing water is used.

(3) mist injection method (Fig. 5)

First, when the user performs the above-described port method, water in the port 200 becomes sterilized water.

Next, the injection module 100 is fastened to the port 200.

After the injection module 100 is fastened and the opening / closing part 111 is opened, the sterilizing water is supplied to the injection module 150 and mist sprayed to the outside.

In one embodiment, the injection module 150 may spray mist at a predetermined period instead of continuously spraying mist.

(4) Hanger method (not shown)

According to one embodiment of the present invention, a hanger method may be further adopted.

To this end, the user fastens a removable hanger (not shown) to the injection module 100, and places a tissue or a dishcloth therein.

Next, when the mist spraying method described above is performed, sterilizing water is sprayed onto the tissue or dish cloth.

In one embodiment, the user can operate the hanger mode by operation of an operation unit (not shown) separately installed in the injection module 100 so that a sufficient amount of the sterilizing water is sprayed onto the tissue or the cloth, so that the amount of spraying per hour of the mist spray method Large amounts of sterile water can be sprayed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the present invention can be changed.

100: injection module
110: injection unit
111: opening and closing part
112: top cover
115: spray nozzle
120: Housing
129: fastener
130: mist generating unit
140: entry and exit
141: entry and exit
150: power unit
200: port
209: fastener
300:
400: sterilization module

Claims (14)

A sterilization module which receives power from the main body and generates sterilizing water using water;
A port which can be fastened to the sterilization module and stores water or sterilization water; And
An injection module which can be fastened to the port and mist sprays sterile water;
As a sterilizing water containing,
The port, characterized in that it comprises a fastener which can be fastened to the sterilization module and the injection module,
Sterilization machine.
The method of claim 1,
The sterilization module is immersed in water, characterized in that to generate sterilization water,
Sterilization machine.
The method of claim 1,
After the water is stored in the port, the sterilization module is fastened to the port,
Characterized in that the water in the port is converted to sterile water,
Sterilization machine.
The method of claim 3, wherein
By fastening the injection module to the port in which the sterilization water is stored, characterized in that the sterilization water is mist sprayed,
Sterilization machine.
The method according to any one of claims 1 to 4,
The injection module includes:
A spray nozzle for mist spraying sterile water; And
Opening and closing part for opening and closing the injection nozzle with respect to the outside
≪ / RTI >
Sterilization machine.
The method of claim 5, wherein
The injection module includes:
Mist generating unit; And
An inflow and outflow part communicating with the mist generating part and protruding downward;
More,
The entrance and exit part is a plurality of entrance and exit holes are located,
Sterilized water introduced through the plurality of entry and exit holes are introduced into the mist generating unit to generate mist,
Characterized in that the generated mist is sprayed through the injection nozzle,
Sterilization machine.
The method according to claim 6,
The injection module further includes a pumping member,
When opening and closing the opening, characterized in that the sterilized water introduced through the inlet and outlet water pumped upward by the pumping member,
Sterilization machine.
The method according to any one of claims 1 to 4,
The sterilizing water further includes a hanger detachable to the injection module,
The spray module is characterized in that for spraying the mist toward the hanger,
Sterilization machine.
The method according to any one of claims 1 to 4,
Specific gravity of the sterilization module, characterized in that greater than 1,
Sterilization machine.
Sterilization module;
A port detachable from the sterilization module and storing water or sterilization water; And
Injectable and detachable injection module
As sterilizing water generating method using a sterilizing water containing,
The sterilizing water is characterized in that it is selectively driven by any one method of the port method, immersion method and mist injection method,
How to generate sterile water.
11. The method of claim 10,
When driven by the port method,
Fastening the port to the sterilization module;
Introducing water from the port into the sterilization module;
Generating sterilized water using the introduced water; And
The generated sterilizing water flows into the port, and placing the sterilizing water in the port
Characterized in that driven by,
How to generate sterile water.
11. The method of claim 10,
When driven in the immersion method,
The sterilization module being located in a water bath;
Introducing water of the tank into the sterilization module;
Generating sterilized water using the introduced water; And
Discharging the generated sterilized water into the water tank
Characterized in that driven by,
How to generate sterile water.
The method of claim 11,
When driven in the mist injection method,
Driven in the port manner to locate sterilizing water in the port;
After the sterilization module is removed from the port, fastening the injection module to the port;
Injecting sterilizing water into the injection module;
The step of spraying the sterilized water introduced into the mist
Characterized in that driven by,
How to generate sterile water.
The method of claim 11,
The sterilizer can be further driven in a hanger mode,
When driven in the hanger mode,
Driven in the port manner to locate sterilizing water in the port;
After the sterilization module is removed from the port, fastening the injection module to the port;
Fastening a hanger to the injection module;
Injecting sterilizing water into the injection module;
The introduced sterilized water is converted into a mist and sprayed to the hanger
Characterized in that driven by,
How to generate sterile water.

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