KR20150002647U - Hot-water supply device for hot-water mat - Google Patents

Abstract

The hot water supply device for hot water mat according to the present invention comprises: a lower case; A hot water tank in which an ultraviolet light source part for storing ultraviolet rays is stored in the lower case; And an upper case coupled to the lower case to protect the water tub from the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot-

The present invention relates to a hot water mat, and more particularly, to a hot water supply device for a hot water mat.

Electric mats are generally used in the winter season, and heating mats that have been popularized by popular use for heating indoor floors. The electric mat may be formed by inserting a hose made of a foamed material or an elastic material embedded in a heating wire, which is generated by electricity, inside a mat including a fiber material.

However, electric mats have a problem in that harmful electromagnetic waves are generated due to a structure in which a heating wire is heated by electric power supply. The harmfulness of electromagnetic waves, which is typically known, has a problem that the incidence of cancer increases. It is also reported that there is a risk of fire or electric shock due to the short circuit of the heating line embedded in the electric mat. As such, the demand for electric mats is gradually decreasing due to the risk of generation of harmful electromagnetic waves, fire, and electric shock.

Accordingly, there is an increasing demand for a heating device that is harmless to the human body and has a low risk of fire and electric shock, so research and development of products are required.

An embodiment of the present invention is to provide a hot water supply device for a hot water mat which can sterilize chlorine, organic substances or microorganisms remaining in water stored in a hot water tank of a hot water mat using an ultraviolet light emitting diode.

According to an embodiment of the present invention, a hot water supply device for a hot water mat includes a lower case; A hot water tank in which an ultraviolet light source unit for supplying ultraviolet rays to the stored water stored in the lower case is disposed; And an upper case coupled to the lower case to protect the hot water tank from the outside.

The hot water tank includes a water receiving portion having an inner space for storing water and an upper surface thereof opened; An upper cover covering an open upper surface of the water receiving portion; And a water supply unit disposed on the upper cover to supply water into the water receiving unit.

The water tub includes: a sidewall surface surrounding the bottom surface and the bottom surface to form an internal space for storing water; A heating unit disposed in the water receiving unit to heat the water stored in the water receiving unit; A sensor for sensing the temperature of the heated water; And an ultraviolet light source unit disposed in the water receiving unit and providing ultraviolet rays to the water.

The ultraviolet light source part includes an ultraviolet light emitting diode, and the ultraviolet light emitting diode emits ultraviolet light having a wavelength of 100 nm to 280 nm.

The ultraviolet light source part may be disposed on the bottom surface of the hatching part, or the ultraviolet light source part may be disposed on one side wall surface of the hatching part.

The ultraviolet light source unit supplies ultraviolet rays to tap water supplied to the water receiving unit to generate highly oxidized water containing hydroxyl radicals (.OH).

The ultraviolet light source part is sealed with a waterproofing member, and the waterproofing member may be formed in a tube shape in which hollow is made of quartz.

The ultraviolet light source unit may be disposed on the inner wall of the upper cover of the hot water tank.

According to the present invention, an ultraviolet light emitting diode is introduced into a hot water tank for storing water to be supplied to the hot water mat, so that water stored in the hot water tank can be sufficiently sterilized by ultraviolet rays.

The life of the hot water supply device for hot water mat can be increased by preventing the propagation of microorganisms and the like in the hot water tank.

1 and 2 are perspective views showing a part of a hot water supply device for a hot water mat according to an embodiment of the present invention.
3 is a perspective view illustrating a part of a hot water supply device for a hot water mat according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the width, thickness, and the like of the components are enlarged in order to clearly illustrate the components of each device. It is to be understood that when an element is described as being located on another element, it is meant that the element is directly on top of the other element or that additional elements can be interposed between the elements .

Like numbers refer to like elements throughout the several views. It is to be understood that the singular forms "a", "an", and "the" include plural referents unless the context clearly dictates otherwise, and the terms "comprise" Or combinations thereof, and does not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

1 and 2 are perspective views showing a part of a hot water supply device for a hot water mat according to an embodiment of the present invention. 2 is a view showing the inside of a hot water tank of the hot water supply apparatus of FIG.

1 and 2, a hot water supplying apparatus 200 for a hot water mat according to the present invention includes a lower case 205, a hot water tank 220 which is housed in a lower case 205 and has an ultraviolet light source unit 230 therein, And an upper case 260 coupled to the lower case 205 to protect the hot water container 220 from the outside.

The upper case 260 is provided with a lid 265 that can be opened and closed to supply water to the hot water tank 220 and a lid 265 for turning on / off the operation of the hot water mat 100, A control unit 270 for controlling a timer for adjusting a temperature or an operation time of the hot water supply device 200 and a display unit 280 for visually checking the operation state of the hot water supply device 200 from the outside have.

The hot water supply device 200 according to the present invention is connected to the hot water mat 100 and supplies the hot water generated from the advanced oxidation process in the hot water supply device 200 to the hot water mat 100. The hot water mat (100) flows hot water generated in the hot water tank (220) through the hot water supply pipe (282). The introduced hot water is circulated in the hot water mat 100 and the hot water circulated in the hot water mat 100 is recovered into the hot water tank through the return pipes 284a and 284b. The return pipes 284a and 284b are connected to a first return pipe 284a for connecting the hot water mat 100 and the pump 209 and a second return pipe 284b for connecting the pump 209 and the hot water pipe 220 And the like.

The pump 209 disposed in the lower case 205 on one side of the hot water tank 220 moves hot water circulated in the hot water mat 100 toward the first return pipe 284a, To the inside of the hot water tank 220 through the heat exchanger 294b. The lower case 205, on which the pump 209 is mounted, includes a heat dissipating plate 207 and discharges heat generated during operation of the pump 209 to the outside.

The hot water tank 220 may include a water receiving unit 210 for storing water and an upper cover 215 for covering the upper part of the water receiving unit 210 to prevent the hot water from leaking to the outside. The upper cover 215 includes a water supply part 225 connected to the lid 265 formed in the upper case 260 and supplied with water into the water receiving part 210.

2, the water receiving portion 210 of the hot water container 220 includes a bottom surface 211 and a side wall surface 211 surrounding the four sides of the bottom surface 211, (Not shown). A hot water supply pipe 282 for supplying the hot water generated in the water receiving unit 210 to the hot water mat 100 and a second return pipe 284b for recovering cold hot water are provided on one side wall surface 212 of the water receiving unit 210, . The heat generating unit 250 may be disposed on the other side wall of the water receiving unit 210 to heat the water supplied to the water receiving unit 210 with hot water. In addition, a temperature sensor 251 for sensing the temperature of the hot water heated through the heat generating unit 250 may be disposed in the receiving unit 210.

An ultraviolet light source part 230 for providing ultraviolet light to the water stored in the water receiving part 210 is disposed on the bottom surface 211 of the water receiving part 210. In one example, the ultraviolet light source unit 230 may include a plurality of ultraviolet light emitting diodes 240. The ultraviolet light source unit 230 may include a printed circuit board (PCB) 235 for disposing the ultraviolet light emitting diode 240. The ultraviolet light source unit 230 is disposed inside the water receiving unit 210 and may be sealed with a waterproof member 245 to protect the water stored in the water receiving unit 210. The waterproofing member 245 may be formed in a hollow tube shape containing quartz.

In the present invention, the ultraviolet light source unit 230 is disposed on the bottom surface 211 of the receiving unit 210. However, the present invention is not limited thereto and may be applied to various embodiments. For example, the ultraviolet light source unit 230 may be disposed on one side wall surface 212 of the water receiving unit 210. The ultraviolet light source unit 230 is disposed with a light emitting surface to provide ultraviolet light as hot water. The ultraviolet light source unit 230 may emit ultraviolet light in a UV-C region having a wavelength of 100 nm to 280 nm.

The water to be supplied to the water receiving part 210 is generally tap water supplied from a toilet or a kitchen sink used at home. However, since water is supplied to the hot water tank 220 for a shorter period of time, additional costs are incurred. Therefore, tap water is mainly used. However, the tap water remains chlorine added to the water treatment plant for sterilization or disinfection. The tap water is circulated in the hot water mat 100 through the hot water supply pipe 282 in a hot water state heated through the heating unit 250 in the water receiving unit 210. Part of the hot water is dried in the hot water supply pipe 282 . However, when hot water is dried in the hot water supply pipe 282, microorganisms may propagate inside the hot water supply pipe 282 or toxic organic substances may be generated. As the hot water mat (100) is repeatedly used, the lifetime of the hot water mat (100) can be reduced by residual chlorine, microorganisms or toxic organic substances in tap water.

Accordingly, according to the present invention, ultraviolet rays are irradiated to the tap water stored in the water receiving unit 210 of the hot water tank 220, and the hot water generated through the high oxidation process is circulated into the hot water mat 100, Can be prevented.

Advanced oxidized water means a solution containing a hydroxide radical (.OH) produced through an advanced oxidation process and having strong oxidizing power. The tap water may contain chlorine of about 0.1 mg / L to 2.0 mg / L, and a chlorine radical (.C1) may be generated from the residual chlorine. Thus, the hot water supply apparatus 200 according to the embodiment of the present invention can produce highly oxidized water in which residual chlorine is removed by reacting residual chlorine in tap water with ultraviolet rays to generate hydroxyl radicals (? OH) from residual chlorine . The highly oxidized water thus generated can decompose the microorganisms or bacteria remaining in the water in the water receiving unit 210 with a solution containing an oxidative hydroxyl radical (.OH).

The process of reacting residual chlorine with ultraviolet rays to generate a hydroxyl radical (.OH) can be described as follows. Chlorine added in a water purification plant for sterilization or disinfection is present in tap water in the form of hypochlorous acid (HOCl) and hydrochloric acid (HCl) as in the reaction formula (1). Hypochlorous acid can be decomposed into hydrogen ions (H ⁺ ) and hypochlorite ions (OCl ^- ) in the tap water, as in the reaction formula (2).

Cl ₂ + H ₂ O -> HOCl + HCl - (1)

HOCl - & gt ^; H ^& lt ^; + & gt ^; + OCl ^{- -} &

In the reaction formula (2), the dissociation constant (pKa) at 20 ° C is 7.6, indicating that hydrogen ions in hypochlorous acid are sufficiently dissociated to exist as hydrogen ions (H ⁺ ) and hypochlorite ions (OCl ^- ) Able to know.

Hypochlorous acid present in the tap water is photolyzed by ultraviolet rays provided from the ultraviolet light emitting diode 240 to generate a hydroxyl radical (.OH) and a chlorine radical (.C1), as shown in the following reaction formula (3) do. Hypochlorite ions present in the tap water as shown in the reaction formula (4), the photodegradation by ultraviolet light provided by the ultraviolet light-emitting diode 240, oxygen radical (O and ^-) to generate and chlorine radical (Cl and). The oxygen radical reacts with water to form hydroxide radicals and hydroxide ions, as in the reaction scheme (5) below. The ultraviolet light may have a wavelength of 100 nm to 280 nm.

HOCl + UV - > - OH + Cl - (3)

OCl ^- + UV -> O ^- + Cl ^- (4)

O ^{- -} + H ₂ O -> - OH + OH ^{- -} (5)

Through the above reaction formulas (1) to (5), the chlorine remaining in the tap water can be removed. As described above, there is a high possibility that residual chlorine exists in the form of hypochlorous acid ions in tap water, and such residual chlorine can be efficiently removed through ultraviolet irradiation. In addition, the ultraviolet light emitting diode 220 can perform a function of sterilizing harmful microorganisms in tap water by ultraviolet rays.

In addition, the ultraviolet light-emitting diode 240 can perform photo-decomposition of a toxic organic substance in the tap water, for example, an antibiotic component with ultraviolet light. As an example, the antibiotic component may comprise ibuprofen (IBF), sulfamethoxazole (SMX), ciproflaoxacin (CFX), or a combination of two or more of these. The antibiotic component may be photolyzed and removed by ultraviolet irradiation. Thus, by removing the antibiotic component, highly oxidized water purified with clean water can be used as hot water.

On the other hand, the ultraviolet light source unit can be disposed not only inside the water receiving unit 210, but also on a hot water tank 220 capable of providing ultraviolet rays to the tap water stored in the water receiving unit 210. For example, as shown in FIG. 3, the ultraviolet light source unit 231 may be disposed on the inner wall of the upper cover 215 of the hot water tank 220. The ultraviolet light source unit 231 disposed on the inner wall of the upper cover 215 irradiates ultraviolet light L toward the water receiving unit 220 and supplies the tap water to the hot water mat 100 as clean water through a highly oxidizing process. The ultraviolet light source part 231 may include the ultraviolet light emitting diode 240 (see FIG. 2) as described above.

According to the present invention, an ultraviolet light emitting diode that provides ultraviolet rays can be used to remove chlorine remaining in tap water, decompose toxic organic matter, and supply microbially sterilized water to a hot water mat to supply purified water.

100: Hot water mat 200: Hot water supply
205: lower case 211:
220: hot water tank 230: ultraviolet light source part
240: ultraviolet light emitting diode 260: upper case
282; Hot water supply pipes 284a and 284b:

Claims (11)

Lower case;
A hot water tank in which an ultraviolet light source unit for supplying ultraviolet rays to the stored water stored in the lower case is disposed; And
And an upper case coupled to the lower case to protect the hot water tank from the outside. 2. The water treatment system according to claim 1,
A water receiving portion in which an inner space for storing water is formed and an upper surface thereof is opened;
An upper cover covering an open upper surface of the water receiving portion; And
And a water supply unit disposed on the upper cover to supply water into the water receiving unit. The water treatment system according to claim 2,
A sidewall surface defining a bottom surface and an inner space surrounding the bottom surface to store water;
A heating unit disposed in the water receiving unit to heat the water stored in the water receiving unit;
A sensor for sensing the temperature of the heated water; And
And an ultraviolet light source unit disposed in the water receiving unit and providing ultraviolet rays to the water. The method of claim 3,
Wherein the ultraviolet light source unit includes an ultraviolet light emitting diode. 5. The method of claim 4,
Wherein the ultraviolet light emitting diode emits ultraviolet rays having a wavelength of 100 nm to 280 nm. The method according to claim 1,
And the ultraviolet light source unit is disposed on a bottom surface of the water receiving unit. The method according to claim 1,
And the ultraviolet light source unit is disposed on one side wall surface of the water receiving unit. The method according to claim 1,
The ultraviolet light source unit supplies ultraviolet rays to the tap water supplied to the water receiving unit to generate highly oxidized water containing hydroxyl radicals (.OH). The method according to claim 1,
Wherein the ultraviolet light source unit is sealed with a waterproof member. The method according to claim 1,
Wherein the waterproof member is formed in the shape of a hollow tube made of quartz. The method according to claim 2 or 3,
And the ultraviolet light source unit is disposed on the inner wall of the upper cover of the hot water tank.

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