KR200443996Y1 - Apparatus of sterilization sliver ion - Google Patents

Abstract

The present invention provides a silver ion sterilizer which prevents iron or other harmful substances from dissolving in drinking water by using an electrode terminal supporting a silver plate made of titanium.

The present invention has a chamber having an inlet and an outlet, and a plurality of silver plates and silver plates for sterilizing drinking water introduced into the chamber by generating silver ions with an electric current applied from the outside and supporting the silver plates. It includes a (+), (-) electrode terminals for supplying (+), (-) current to the silver plates, respectively, and the (+), (-) electrode terminals are made of titanium.

Vessel, water purification, silver ion sterilizer, chamber, silver plate, electrode terminal, titanium

Description

Silver ion sterilizer {apparatus of sterilization sliver ion}

1 is a view schematically showing a water purification system of a ship equipped with a silver ion sterilization apparatus according to a preferred embodiment of the present invention.

2 is a view showing the configuration of the silver ion sterilizer shown in FIG.

             <Description of the symbols for the main parts of the drawings>

20: silver ion sterilizer 22: chamber

28a, 28b: Silver plate 30a, 30b: (+), (-) electrode terminal

The present invention relates to a silver ion sterilizer, and more particularly, to a silver ion sterilizer in which an electrode terminal supporting a silver plate is made of titanium so that iron or other harmful components do not dissolve in drinking water during use. It is about.
As is well known, the water purification system of a ship is equipped with a sterilizer for the purpose of sterilizing harmful bacteria contained in drinking water.
Examples of such sterilizers include ultraviolet sterilizers, chemical sterilizers and silver ion sterilizers.
First, the chemical sterilizer is a method of sterilizing various harmful bacteria by injecting chemicals into drinking water, but this chemical sterilizer may not be a desirable sterilization method because chemicals harmful to human body are dissolved in drinking water.
The second ultraviolet sterilizer sterilizes harmful germs contained in drinking water by irradiating ultraviolet water to the drinking water, but this ultraviolet sterilizer is an instant sterilization method. There is a drawback that bacteria can multiply again in the process of feeding to the place of use.
The third silver ion sterilizer is electrolytically composed of a plurality of silver plates and (+) and (-) electrode terminals which support the silver plate and apply (+) current and (-) current to the silver plate, respectively. The silver ions (Ag ⁺ ) are eluted from the silver plate to which (+) current is applied by using the principle of so that a certain concentration of silver ions are dissolved in the water. It is a method of sterilizing various harmful bacteria included.
Conventional positive (+) and (-) electrode terminals used in the silver ion sterilizer are usually made of a metal material having a relatively excellent durability that can pass a current, and can support the silver plate, preferably It is common to use stainless steel.
On the other hand, the silver plate and the electrode terminals are always submerged in water for sterilization treatment, although the electrode terminals are made of stainless steel with good corrosion resistance, corrosion occurs after a certain time to the iron component or other human body There is a problem of generating a harmful metal component, this time the harmful metal component is dissolved in drinking water has brought a problem that contaminated drinking water.

Therefore, an object of the present invention for solving the problems as described above, the silver ion sterilization apparatus to block the discharge of various harmful metal components by preventing the corrosion while having excellent durability by making the electrode terminal in titanium (titanium) In providing.
Another technical problem to be achieved by the present invention is to provide a silver ion sterilization apparatus which can realize convenience of use by not performing periodic replacement work.

The present invention for achieving the above object is a silver ion sterilization apparatus, a chamber having an inlet and an outlet, and sterilizing the drinking water introduced into the chamber by generating silver ions with an electric current applied from the outside and installed in the chamber; And (+) and (-) electrode terminals for supporting a plurality of silver plates and the silver plates and supplying (+) and (-) currents to the silver plates, respectively. They are made of titanium.
On the other hand, it will be described below with respect to the silver ion sterilizer applied to the purification system of the ship.
Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.
First, prior to describing the configuration of the silver ion sterilization apparatus of the present invention, to describe the purification system of the vessel in which the silver ion sterilization apparatus is installed.
As shown in FIG. 1, the purification system of the ship is connected to the water tank 10 for desalination of the sea water, the water tank 10 and the pipes 40a, 40b, and stores drinking water introduced from the water tank 10. Branched to the storage tank 50 and the storage tank 50, respectively, and comprises a branch pipe (60) for discharging drinking water to each place of use of the vessel. The silver ion sterilizer 20 to be implemented in the present invention is installed between the water tank 10 and the pipes 40a and 40b connecting the storage tank 50.
As shown in FIG. 2, the silver ion sterilization apparatus 20 is a device for sterilizing drinking water with silver ions emitted from the silver plate by using an electrolysis principle. The chamber 22 and the silver plates 28a and 28b are used. And electrode terminals 30a and 30b.
The chamber 22 is empty in the form of one end is connected to the inlet port 24, the other end is provided with a discharge port (26). The inlet 24 is connected to the pipe (40a) is connected to the water tank 10 to inject the drinking water supplied from the water tank 10 into the chamber 22, the outlet 26 is the storage tank 50 It is connected to the pipe (40b) is connected to discharge the drinking water introduced into the chamber 22 to the storage tank (50).
The silver plates 28a and 28b are installed in drinking water introduced into the chamber 22 to cause an electrolysis reaction to an externally applied power so that silver ions are eluted from the silver plates 28a and 28b to which a positive current is applied. As a means to be installed, it is installed while maintaining a predetermined interval from each other, one of the silver plate (28a) is connected to the (+) electrode terminal 30a, the other silver plate (28b) is connected to the (-) electrode terminal (30b) Configure to
The (+) and (-) electrode terminals 30a and 30b are installed and fixed in the chamber 22 while being attached to the rear surfaces of the silver plates 28a and 28b, respectively, to support the silver plates 28a and 28b and at the same time. The power supply unit (not shown) and the wires (32a, 32b) are respectively connected to apply the (+), (-) current to the silver plate (28a, 28b). That is, the externally supplied current is supplied to the silver plates 28a and 28b through the (+) and (-) electrode terminals 30a and 30b, respectively, and in this process, the silver plate 28a to which the (+) current is applied. Silver ions are eluted from and dissolved in drinking water to sterilize various harmful bacteria contained in drinking water.
On the other hand, the (+), (-) electrode terminal (30a, 30b) is characterized in that made of titanium (Ti). The titanium itself is known as a metal material having excellent electrical conductivity, that is, conductive, as well as durability over a certain strength, and corrosion does not occur through excellent corrosion resistance.
That is, the positive and negative electrode terminals 30a and 30b constituting the silver ion sterilizer 20 of the present invention are always locked in the drinking water stored in the chamber 22 together with the silver plates 28a and 28b. Due to its characteristics, when the (+) and (-) electrode terminals 30a and 30b are made of stainless as in the prior art, corrosion occurs and contaminated drinking water by generating iron or other harmful metal components harmful to the human body in drinking water. As can be seen in the present invention, by manufacturing the (+), (-) electrode terminals (30a, 30b) using titanium, it is possible to fundamentally block the discharge of pollutants due to corrosion. In addition, it is possible to firmly support the silver plates 28a and 28b by preventing the (+) and (-) electrode terminals 30a and 30b from being easily damaged by an impact applied from the outside through the durability of titanium.
Hereinafter, the operation of the silver ion sterilizer according to the present invention.
First, when installing the silver ion sterilization apparatus 20 of the present invention on the vessel, the chamber 22 of the silver ion sterilization apparatus 20 is installed between the water tank 10 and the storage tank 50, and then the chamber 22 Inlet 24 and outlet 26 of the () is connected to the pipe (40a, 40b), respectively.
Next, the drinking water passing through the inlet 24 through the pipe 40a passes between the two silver plates 28a and 28b and flows into the chamber 22, wherein the silver plates 28a and 28b are (+). ), And other harmful substances containing silver ions eluted from the silver plate 28a to which (+) current is applied through (+) and (-) currents applied from the (-) electrode terminals 30a and 30b. Germs are sterilized.
Thereafter, the sterilized drinking water flows into the storage tank 50 through the outlet 26 of the chamber 22, and then supplies a plurality of branch pipes 60 connected to the storage tank 50 to use. It is done. At this time, the silver ions contained in the drinking water do not disappear even in the process of supplying each branch pipe 60 to the use place, and thus remain in a state of constant so that continuous sterilization treatment effect can be realized without secondary pollution in the process of supplying drinking water. .
On the other hand, the silver ion sterilizer 20 installed in the vessel as described above is to maintain the installed state for a long time, at this time (+), (-) electrode terminals 30a, 30b which is immersed in the drinking water in the chamber 22 ) Are corroded and can emit various harmful metal components, but the present invention can prevent the contamination of drinking water due to corrosion by making the (+), (-) electrode terminals (30a, 30b) of titanium, In addition, due to the durability of titanium is not easily damaged by external impact, it is possible to firmly support the silver plates (28a, 28b).

As discussed above, the present invention supports the silver plates and is also a means for applying a current to the silver plates. Since the negative electrode terminals are made of titanium, corrosion resistance does not occur while having excellent durability, and it has the effect of blocking the emission of various harmful metal components during use.
In addition, the present invention is a corrosion-free titanium (+). By making (-) electrode terminals, it is not necessary to perform replacement work, and it is possible to solve the trouble of maintenance work, and it has the effect of realizing convenience of use.

Claims (1)

A storage tank 50 for desalination of sea water, the storage tank 50 connected to the water tank 10 and pipes 40a and 40b, and storing drinking water introduced from the water tank 10, and the storage tank ( In the silver ion sterilizer installed in the water purification system of the vessel consisting of branch pipes (60) which are connected to each branch 50 and discharges drinking water to each place of use of the vessel, A silver ion sterilizer 20 is installed between the pipes 40a and 40b to sterilize the drinking water passing through the pipes 40a and 40b; The silver ion sterilizer 20 is; A chamber 22 having an inlet 24 connected to the pipe 40a at one end thereof, and an outlet 26 connected to the other pipe 40b at the other end thereof; A plurality of silver plates 28a and 28b installed in the chamber 22 and generating silver ions with an externally applied current to sterilize drinking water introduced into the chamber 22 through the inlet; It is fixedly installed in the chamber 22 while being attached to the rear surfaces of the silver plates 28a and 28b to support the silver plates 28a and 28b as well as (+) and () (+) And (−) electrode terminals 30a and 30b respectively supplying current; The (+), (-) electrode terminal (30a, 30b) is a silver ion sterilization apparatus, characterized in that to be made of titanium so as not to be corroded by the drinking water stored in the chamber (22).

Images