KR20150075809A - Water sterilization system - Google Patents

Abstract

An embodiment of the present invention relates to a water sterilizing system comprising: a feeding unit for providing water; a discharging unit for discharging the water provided from the feeding unit; a connecting unit disposed between the feeding unit and the discharging unit to connect the feeding unit and the discharging unit, and having a light transmission member capable of transmitting light; a UV irradiating member disposed in the outside of the connecting unit corresponding to the light transmission member, and irradiating light having a wavelength in a UV band in a direction of the light transmission member; and a generator for supplying driving energy of the UV irradiating member by generating electric energy by using water pressure of water flowing from the feeding unit to the discharging unit.

Description

Water sterilization system

The present invention relates to a water sterilization system.

Water, together with air and solar energy, is an indispensable element for the survival of humans, plants and animals.

On the other hand, such water is gradually getting depleted and studies on the efficient management, securing and utilization of water related to water are being studied in order to solve the water shortage phenomenon.

In particular, the supply of water of constant quality is emerging as a hot topic in recent years.

For this purpose, a process of purifying water so as to have a purity of a constant quality is underway.

For example, water is used to purify water for drinking water. This water purification function is implemented by physically filtering off impurities in water or by treating water by a chemical method.

On the other hand, various methods are used to prevent the propagation of harmful microorganisms in water, that is, sterilization, in order to maintain a constant purity of water.

However, there is a limitation in improving the efficiency of disinfection of the water due to the occurrence of a spatial problem due to the installation of separate components for sterilization or purification, a power consumption problem, and a cost and management problem.

The present invention can provide a water sterilization system with improved manufacturing characteristics and sterilizing properties.

An embodiment of the present invention is an apparatus for supplying water, comprising: an inflow section for supplying water; a discharge section for discharging the water supplied from the inflow section; a discharge section arranged between the inflow section and the discharge section for connecting the inflow section and the discharge section, A UV irradiating member disposed outside the base connecting portion to correspond to the light transmitting member and irradiating light having a wavelength of the ultraviolet ray band toward the light transmitting member, And a generator for generating electric energy using the water pressure of the water directed to the discharge portion to supply driving energy of the UV irradiation member.

The charging member may further include a charging member for charging electric energy generated by the generator in the present embodiment, and the charging member and the UV irradiation member may be electrically connected.

In this embodiment, the UV irradiation member may include a light emitting diode.

In the present embodiment, the water sterilization system may include a plurality of UV irradiation members, and the plurality of UV irradiation members may be arranged in the longitudinal direction of the connection portion.

In the present embodiment, the water pressure of the water can be generated through the potential energy of the water generated by the height difference from the ground in at least one of the inflow portion and the connection portion while the water flows from the inflow portion to the connection portion .

In this embodiment, the water pressure control member is disposed in the inflow portion, and the water pressure can be supplied to the water through the water pressure control member.

The filter unit further includes a filter unit disposed in an area between at least the light transmitting member and the end of the discharging unit among the areas inside the discharging unit or the connecting unit so that the water passing through the light transmitting member can pass therethrough .

In this embodiment, the control unit may further include a valve for controlling the amount of water discharged through the discharge unit.

In this embodiment, the light transmitting member may include glass or plastic material.

The water sterilization system according to the present invention can improve manufacturing characteristics and sterilization characteristics.

1 is a schematic view showing a water sterilization system according to an embodiment of the present invention.
FIG. 2 is a view showing the generator of FIG. 1 in detail.
3 is a schematic view showing a water sterilization system according to another embodiment of the present invention.
4 is a schematic view showing a water sterilization system according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. The effects and features of the present invention and methods of achieving them will be apparent with reference to the embodiments described in detail below with reference to the drawings. However, the present invention is not limited to the embodiments described below, but may be implemented in various forms.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, wherein like reference numerals refer to like or corresponding components throughout the drawings, and a duplicate description thereof will be omitted .

In the following embodiments, the terms first, second, and the like are used for the purpose of distinguishing one element from another element, not the limitative meaning.

In the following examples, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise.

In the following embodiments, terms such as inclusive or possessive are intended to mean that a feature, or element, described in the specification is present, and does not preclude the possibility that one or more other features or elements may be added.

In the following embodiments, when a part of a film, an area, a component or the like is on or on another part, not only the case where the part is directly on the other part but also another film, area, And the like.

In the drawings, components may be exaggerated or reduced in size for convenience of explanation. For example, the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of explanation, and thus the present invention is not necessarily limited to those shown in the drawings.

In the following embodiments, the x-axis, the y-axis, and the z-axis are not limited to three axes on the orthogonal coordinate system, and can be interpreted in a broad sense including the three axes. For example, the x-axis, y-axis, and z-axis may be orthogonal to each other, but may refer to different directions that are not orthogonal to each other.

If certain embodiments are otherwise feasible, the particular process sequence may be performed differently from the sequence described. For example, two processes that are described in succession may be performed substantially concurrently, and may be performed in the reverse order of the order described.

1 is a schematic view showing a water sterilization system according to an embodiment of the present invention.

Referring to FIG. 1, a water sterilization system 100 includes an inlet 110, a discharge unit 120, a connection unit 130, a UV irradiation member 141, a filling member 150, and a generator 160.

The inlet 110 is where water is supplied. The inlet 110 is connected to various types of water sources (not shown) to supply the water in the direction of the outlet 120. The water source (not shown) may be a river, a lake, a reservoir, or various other types of water supply locations. In addition, the water supply source (not shown) may be a man-made structure such as a reservoir tank. Further, as an alternative embodiment, a pressure regulating member, for example, a pump (not shown) may be further provided to appropriately maintain the water pressure in the inlet 110.

In addition, the water supplied to the inflow section 110 may be unused water, but it may be water used more than once.

The discharge portion 120 is a region for receiving and discharging the water from the inflow portion 110. Specifically, the discharge unit 120 discharges predetermined water to the user side to use the water. At this time, the discharge unit 120 can supply water having various purity according to the demand of the user. That is, the discharge unit 120 can supply water for drinking water, industrial water, and other water, and thus the water supply source (not shown) connected to the inflow unit 110 is changed in water, and a UV ultraviolet ray member Characteristics may also vary.

The connection part 130 is disposed between the inlet part 110 and the outlet part 120 to connect the inlet part 110 and the outlet part 120. The connection portion 130 may have various shapes and may have an appropriate length depending on the distance between the inlet portion 110 and the outlet portion 120.

The connection portion 130 and the inlet portion 110 have appropriate positions. That is, at least the connection part 130 is arranged closer to the ground than the inflow part 110. Specifically, a height difference (h) is provided between the connection part (130) and the inflow part (110) with respect to a direction perpendicular to the paper surface.

Also, the connection part 130 has the light transmitting member 130a in at least one area. The light transmitting member 130a may be a material through which light is transmitted, for example, glass or plastic.

The UV irradiation member 141 is arranged to correspond to the light transmission member 130a on the outside of the connection part 130. [ Specifically, the UV irradiating member 141 is preferably in contact with the light transmitting member 130a, and may be in close contact as an alternative embodiment.

The UV irradiation member 141 irradiates the water passing through the connection portion 130 with a light beam having a wavelength of the ultraviolet ray band. That is, the ultraviolet light irradiated from the UV irradiation member 141 reaches the water in the connection portion 130 through the light transmission member 130a. These ultraviolet rays effectively sterilize the water passing through the connection portion 130. The sterilized water is transferred to the discharge section 120, and the user is finally supplied with sterilized water through the discharge section 120.

The UV irradiation member 141 may have various types, and may be in the form of a light emitting diode (LED) that emits UV light.

It is preferable that the water sterilization system 100 of this embodiment has a plurality of UV irradiation members 141. That is, a plurality of UV irradiation members 141 are arranged so as to correspond to the longitudinal direction of the light transmission member 130a formed in the longitudinal direction of the connection unit 130. [

The generator 160 is disposed within the connection 130 or the inlet 110. In addition, the generator 160 may be disposed between the connecting portion 130 and the inlet portion 110. As an alternative embodiment, the generator 160 may be disposed between the light transmitting member 130a and the inlet 110 in the region of the connection 130. [ The generator 160 generates a predetermined amount of electrical energy through the water when the water supplied from the inlet 110 is directed to the connection 130. [ For this purpose, the generator 160 is preferably disposed in a region where the height difference from the inlet 110 is large, and the generator 160 is disposed in a region where the difference in height between the inlet 130 and the inlet 110 is large .

The generator 160 is formed to effectively convert hydraulic energy, for example, position energy or kinetic energy, of the water passing from the inlet 110 to the connection 130 into electrical energy.

FIG. 2 is a view showing the generator of FIG. 1 in detail. The generator 160 may include a turbine configuration having a rotor (RT) that rotates about a rotation axis AX, for example, as shown in FIG.

The mechanical energy generated by the rotation of the rotor RT by the water flowing from the inlet 110 to the connection 130 is converted into electrical energy and the electrical energy is charged into the filling member 150.

To this end, a charging member lead wire 165 is disposed between the generator 160 and the charging member 150.

The electrical energy charged in the charging member 150 may be transmitted to the UV irradiation members 141 through the connection lead 151 and used as energy for driving the UV irradiation member 141. [

The water disinfection system 100 of this embodiment has at least one UV irradiation member 141 and the UV irradiation member 141 is disposed so as to correspond to the light transmission member 130a and is configured to emit ultraviolet . The irradiated ultraviolet ray easily disinfects the water passing through the connection part 130 and is discharged through the discharge part 120. Through this, the user can easily use sterilized water.

At this time, the UV irradiating member 141 may have the same shape as the light emitting diode and requires energy for driving. The water sterilization system 100 of this embodiment is configured to irradiate And a generator 160 disposed at a predetermined position. And the electric energy is charged in the charging member 150 electrically connected to the generator 160. The electric power is supplied to the charging member 150, The electrical energy charged in the filling member 150 is transmitted to the UV irradiation member 141 through the connection lead 151 and used as a driving energy source for the UV irradiation member 141. That is, since a separate power supply source for driving the UV irradiation member 141 is not required, the installation space of the water sterilization system 100 can be reduced and the manufacturing cost can be reduced.

In addition, it does not require any additional energy, but uses water, which is eco-friendly and can reduce energy consumption.

3 is a schematic view showing a water sterilization system according to another embodiment of the present invention.

3, the water sterilization system 200 includes an inflow section 210, a discharge section 220, a connection section 230, a UV irradiation member 241, a filling member 250, a generator 260, 270).

The inlet 210 is where the water is supplied. The inlet 210 is connected to various types of water sources (not shown) to supply water in the direction of the outlet 220.

In addition, the water supplied to the inflow portion 210 may be water that has not been used, but may be water used more than once.

The discharge unit 220 is an area for receiving and discharging the water from the inflow unit 210. Specifically, the discharge unit 220 discharges predetermined water to the user side to use the water. At this time, the discharge unit 220 can supply water having various purity according to the demand of the user. That is, the discharge unit 220 can supply water for drinking water, industrial water, and other water, so that the water supply source (not shown) connected to the inflow unit 210 is changed in water, Characteristics may also vary.

The connection part 230 is disposed between the inlet part 210 and the outlet part 220 to connect the inlet part 210 and the outlet part 220. The connection portion 230 may have various shapes and may have an appropriate length depending on the distance between the inlet portion 210 and the outlet portion 220.

The connection portion 230 has a light transmitting member 230a in at least one region. The light transmitting member 230a may be a material through which light is transmitted, for example, glass or plastic.

The UV irradiation member 241 is arranged outside the connection part 230 so as to correspond to the light transmission member 230a. Specifically, the UV irradiating member 241 is preferably in contact with the light transmitting member 230a, and may be in close contact as an alternative embodiment.

The UV irradiation member 241 irradiates the water passing through the connection portion 230 with a light beam having a wavelength of ultraviolet band. The UV irradiation member 241 may have various types, and may be in the form of a light emitting diode (LED) for irradiating UV light.

It is preferable that the water sterilization system 200 of this embodiment has a plurality of UV irradiation members 241. [ That is, a plurality of UV irradiation members 241 are disposed so as to correspond to the longitudinal direction of the light transmission member 230a formed in the longitudinal direction of the connection portion 230. [

Generator 260 is disposed within connection 230 or inlet 210. Also, the generator 260 may be disposed between the connection portion 230 and the inlet portion 210. Also, as an alternative embodiment, the generator 260 may be disposed between the light transmitting member 230a and the inlet 210 in the area of the connection 230. [

The water pressure control member 270 is disposed in the inflow section 210. In addition, the water pressure control member 270 may be disposed between the inlet 210 and the connection 230. The water pressure control member 270 supplies pressure to the water flowing from the inflow section 210 to the connection section 230. That is, the water pressure control member 270 ensures that the water passing through the connection portion 230 has an appropriate water pressure. For example, the water pressure control member 270 may have a pump shape.

The generator 260 generates a predetermined amount of electrical energy through the water when the water supplied from the inlet 210 is directed to the connection 230. That is, water having a predetermined water pressure passes through the generator 260 through the water pressure control member 270, and the generator 260 is formed to effectively convert the hydraulic energy of the water into electrical energy.

Although not shown, the generator 260 may include a turbine type having a rotor (RT) that rotates about a rotation axis (AX) as in the above-described embodiment.

The electric energy generated in the generator 260 is charged to the charging member 250 through the charging member lead wire 265. The electric energy charged in the filling member 250 is transmitted to the UV irradiation members 241 through the connection lead 251 and can be used as energy for driving the UV irradiation member 241. [

In addition, the present embodiment may optionally include a filter portion 280 disposed inside the discharge portion 220 or the connection portion 230. Specifically between the light transmitting member 230a and the discharging unit 220 in the area of the connection unit 230. [ Further, the filter unit 280 may be disposed in the discharge unit 220.

The filter unit 280 constantly or further sterilizes the sterilized water through the light transmitting member 230a. The filter unit 380 may have various types or shapes. For example, the filter unit 280 can filter impurities contained in the water, and a sediment filter, a pre-carbon filter, a reverse osmosis membrane filter, And may include a post-carbon filter.

The water disinfection system 200 of this embodiment has at least one UV irradiation member 241 and the UV irradiation member 241 is disposed so as to correspond to the light transmission member 230a, . The irradiated ultraviolet ray easily disinfects the water passing through the connection part 230 and is discharged through the discharge part 220. Through this, the user can easily use sterilized water.

At this time, the UV irradiating member 241 may have the same shape as the light emitting diode and requires energy for driving. The water sterilization system 200 of this embodiment is configured such that the UV irradiating member 241 is irradiated from the inflow part 210 to the connection part 230 And a generator (260) disposed in the position. Generator 260 and the electrical energy is charged to the charging member 250 electrically connected to the generator 260. [ The electric energy charged in the filling member 250 is transmitted to the UV irradiation member 241 through the connection lead 251 and used as a driving energy source for the UV irradiation member 241. That is, since a separate power supply source for driving the UV irradiation member 241 is not required, the installation space of the water sterilization system 200 can be reduced and the manufacturing cost can be reduced.

In addition, it does not require any additional energy, but uses water, which is eco-friendly and can reduce energy consumption.

4 is a schematic view showing a water sterilization system according to another embodiment of the present invention.

4, the water sterilization system 300 includes an inlet 310, a discharge 320, a connection 330, a UV irradiation member 341, a filling member 350, a generator 360, 380).

The inlet 310 is where the water is supplied. The inlet 310 is connected to various types of water sources (not shown) to supply water in the direction of the outlet 320. The water source (not shown) may be a river, a lake, a reservoir, or various other types of water supply locations. In addition, the water supply source (not shown) may be a man-made structure such as a reservoir tank. In addition, as an alternative embodiment, a pressure regulating member, for example, a pump (not shown) may be further provided to appropriately maintain the water pressure in the inlet 310.

In addition, the water supplied to the inflow portion 310 may be unused water, but may be water used more than once.

The discharge portion 320 is an area for receiving and discharging the water from the inflow portion 310. Specifically, the discharge unit 320 discharges predetermined water to the user side to use the water. At this time, the discharge unit 320 can supply water having various purity according to the demand of the user. That is, the discharge unit 320 can supply drinking water, industrial water, or other water, and thus the water supply source (not shown) connected to the inflow unit 310 can be changed in water, and a UV ultraviolet member Characteristics may also vary.

The connection part 330 is disposed between the inflow part 310 and the discharge part 320 to connect the inflow part 310 and the discharge part 320. The connection portion 330 may have various shapes and may have an appropriate length depending on the distance between the inlet portion 310 and the outlet portion 320.

The connection part 330 has a light transmitting member 330a in at least one area. The light transmitting member 330a may be a material through which light is transmitted, for example, glass or plastic.

The UV irradiation member 341 is disposed so as to correspond to the light transmission member 330a on the outside of the connection portion 330. [ Specifically, the UV irradiating member 341 is preferably in contact with the light transmitting member 330a, and can be in close contact as an alternative embodiment.

The UV irradiation member 341 irradiates the water passing through the connection portion 330 with a light beam having a wavelength of the ultraviolet ray band. That is, the ultraviolet light irradiated from the UV irradiation member 341 reaches the water in the connection portion 330 through the light transmission member 330a. The ultraviolet rays effectively sterilize the water passing through the connecting portion 330. The sanitized water is transferred to the discharge portion 320, and the user is finally supplied with sterilized water through the discharge portion 320.

The UV irradiation member 341 may have various types, and may be in the form of a light emitting diode (LED) for irradiating UV light.

It is preferable that the water sterilization system 300 of this embodiment has a plurality of UV irradiation members 341. That is, a plurality of UV irradiating members 341 are arranged so as to correspond to the longitudinal direction of the light transmitting member 330a formed in the longitudinal direction of the connecting portion 330.

The generator 360 is disposed within the connection 330 or the inlet 310. In addition, the generator 360 may be disposed between the connection portion 330 and the inlet portion 310. As an alternative embodiment, the generator 360 may be disposed between the light transmission member 330a and the inlet 310 in the region of the connection 330. [ The generator 360 generates a predetermined amount of electrical energy through the water when the water supplied from the inlet 310 is directed to the connection 330. [

The generator 360 is formed to effectively convert hydraulic energy, for example, position energy or kinetic energy, of the water passing from the inlet 310 to the connection 330 into electrical energy.

Although not shown, the generator 360 may include a turbine type having a rotor (RT) that rotates about a rotation axis (AX).

The generator 360 converts the mechanical energy into electrical energy by the water flowing from the inlet 310 to the connection 330. [ A variety of methods can be used so that the water flowing from the inflow part 310 to the connection part 330 has hydraulic energy. In one embodiment, a pressure control member (not shown) may be disposed in the inlet 310 to supply pressure to the water, as described above. In addition, the inflow portion 310 may be located farther away from the ground than the connection portion 330 so that the water has potential energy. In another embodiment, the inflow portion 310 may have a height difference region in a region far from the connection portion 330 so that the water passing through the inflow portion 310 may have potential energy.

The electric energy generated in the generator 360 is transmitted to the charging member 350 through the charging member lead wire 365 and charged.

The electrical energy charged in the filling member 350 is transmitted to the UV irradiation members 341 through the connection lead 351 and can be used as energy for driving the UV irradiation member 341. [

The filter portion 380 is disposed inside the discharge portion 320 or the connection portion 330. Specifically, it may be disposed between the light transmitting member 330a and the discharging unit 320 in the area of the connection unit 330. [ The filter unit 380 may also be disposed in the discharge unit 320.

The filter unit 380 constantly or further sterilizes the sterilized water through the light transmitting member 330a. The filter unit 380 may have various types or shapes. For example, the filter unit 380 can filter impurities contained in the water, and a sediment filter, a pre-carbon filter, a reverse osmosis membrane filter, And may include a post-carbon filter.

A valve VA may be disposed in the discharge part 320 for the convenience of the user, and the valve VA may be the same as the faucet type.

The water disinfection system 300 of this embodiment includes at least one UV irradiation member 341 and the UV irradiation member 341 is disposed so as to correspond to the light transmission member 330a so as to pass through the light transmission member 330a, . The irradiated ultraviolet ray easily disinfects the water passing through the connection part 330 and is discharged through the discharge part 320. Through this, the user can easily use sterilized water.

At this time, the UV irradiating member 341 may have the same shape as the light emitting diode and requires energy for driving. The water sterilization system 300 of this embodiment is configured such that the UV irradiating member 341 is irradiated from the inlet 310 to the connecting portion 330 And a generator (360) disposed in the position. Generator 350 and converts the hydraulic energy of the water into electric energy through the generator 360. The electric energy is charged to the charging member 350 electrically connected to the generator 360. [ The electrical energy charged in the filling member 350 is transmitted to the UV irradiation member 341 through the connection lead 351 and used as a driving energy source for the UV irradiation member 341. That is, since a separate power supply source for driving the UV irradiation member 341 is not required, the installation space of the water sterilization system 300 can be reduced and the manufacturing cost can be reduced.

In addition, it does not require any additional energy, but uses water, which is eco-friendly and can reduce energy consumption.

In addition, the water sterilized by the ultraviolet rays irradiated from the UV irradiation member 341 is purified or sterilized through the filter unit 380. The sterilizing property of the water sterilization system 300 is improved and the water sterilization system 300 having the sterilization and water purification function is easily implemented, thereby enhancing convenience for the user.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100, 200, 300: Water sterilization system
110, 210, 310:
120, 220, 320:
130, 230, 330:
130a, 230a, and 330a:
150, 250, 350: filling member
160, 260, 360: generator
380:

Claims (9)

An inlet through which water is supplied;
A discharge portion for discharging the water supplied from the inflow portion;
A connection portion disposed between the inlet portion and the outlet portion to connect the inlet portion and the outlet portion and having a light transmitting member capable of transmitting light;
A UV irradiating member disposed outside the connection portion, the UV irradiating member being disposed to correspond to the light transmitting member and irradiating light having a wavelength of the ultraviolet ray band toward the light transmitting member; And
And a generator for generating electric energy using the water pressure of the water directed from the inflow portion toward the discharge portion to supply drive energy of the UV irradiation member. The method according to claim 1,
Further comprising a charging member for charging electric energy generated by the generator,
And the charging member and the UV irradiation member are electrically connected to each other. The method according to claim 1,
Wherein the UV irradiating member comprises a light emitting diode. The method according to claim 1,
Wherein the water sterilization system has a plurality of UV irradiation members,
Wherein the plurality of UV irradiation members are arranged in the longitudinal direction of the connection portion. The method according to claim 1,
Wherein the water pressure of the water is generated through potential energy of water generated by a difference in height from the ground surface in at least one of the inlet and the connection while the water flows from the inlet to the connection. . The method according to claim 1,
Further comprising a water pressure control member disposed in the inflow portion,
And the water pressure is supplied to the water through the water pressure control member. The method according to claim 1,
Further comprising a filter portion disposed in an area between at least the light transmitting member and the end of the discharge portion of the region inside the discharge portion or the connection portion so that water passing through the light transmission member passes. The method according to claim 1,
Further comprising a valve for regulating an amount of water discharged through the discharge portion. The method according to claim 1,
Wherein the light transmitting member comprises glass or plastic material.

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