KR20180029467A - Cooling tank of cold and warmth water purifier and water ionizer - Google Patents

Abstract

The present invention relates to a cold water tank of a cold and warmth purified water ionizer, wherein two cold water tank bodies are provided, and a cooling pipe is arranged between the cold water tank bodies. An external surface of the cooling pipe is not exposed for a cold and heat loss of the cooling pipe not to be generated. Moreover, as the whole cold and heat is transmitted to the inside of the cold water tank bodies, cooling efficiency of purified water or cold water can be improved, and further, the cooling pipe is not directly in contact with the purified water or the cold water to provide a hygienic effect.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cold water tank for a cold water tank,

The present invention relates to a cold water tank of a cold water purifier and an ionizer. More specifically, the present invention comprises two cold water tank main bodies, a cooling pipe disposed between the two cold water tank main bodies for cooling water, To a cold water tank of a cold / hot water ionizer capable of improving the cooling efficiency of purified water by causing all of the cold and hot water to be delivered to the inside of the cold water tank main body without generating cold heat loss (cold heat loss)

Recently, environmental pollution due to pollution has become the most important social problem, and pollution of natural water such as river water, seawater and hot spring water among various environmental pollution such as air pollution, land pollution and water pollution is serious This is a problem.

Therefore, in a public place such as a home, a school, a workplace, and a government office without drinking tap water directly, a cold water purifier is installed so that cold water and hot water can be selected and drink according to the taste of a person who wants to drink water.

In modern medicine, as the cause of various adult diseases such as hypertension, diabetes, heart disease is revealed by the acidification of the constitution due to excessive intake of acid foods, the drinking water is electrolyzed to improve the acidic constitution to the alkaline constitution It is consumed as alkaline ionized water.

As described in Practical Registration No. 20-0359696, the conventional cold / warm water purifier is configured such that raw water supplied through a raw water inlet from a water pipe is purified in the course of passing through a filter, and then purified water is stored at room temperature The cold water tank having the cooling means and the hot water tank having the heating means are separated and stored so as to provide a cold water or a hot water through the cold water discharge pipe and the hot water discharge pipe connected to the discharge cock when the user desires Structure.

In addition, as disclosed in Practical Application No. 20-0359696, the conventional ionizer is configured such that the raw water supplied through the raw milk feed inlet provided with the solenoid valve from the water pipe is first cleaned through a filter having a simple structure, (-) electric current or a (+) electric current through the diaphragm of the electrolytic bath to thereby supply the purified water to the inside of the electrolytic bath provided with the diaphragm, And the alkaline water or the acidic water thus formed is supplied to the user through the ionic water supply pipe, and at the same time, the excess water is discharged to the outside of the ionizer through the water discharge pipe.

The conventional cold / hot water purifier and the cold water tank of the ionizer are composed of the following three types.

1, a conventional cold water tank 10 is provided with a cold water receiving portion 12 in a cold water tank main body 11, a lid 13 provided on an opening surface of the cold water tank main body 11, A cooling device (14) is provided on the outer surface of the lid (13). The cold heat generated in the cooling device 14 is transmitted to the lid 13 and the cold heat is transmitted through the lid 13 to the cold water in the cold water receiving portion 12. [

However, in the conventional cold water tank 10, the outer surface 13a of the lid 13 is exposed to the atmosphere, and a cooling loss is generated through the outer surface 13a of the lid 13. Therefore, there is a problem that the cooling efficiency is lowered.

2, the conventional cold water tank 20 is provided with a cold water receiving portion 22 in the cold water tank main body 21 and a cooling coil 23 installed inside the cold water tank main body 21 do. At the end of the cooling coil 23, there is provided a cooling device 24 for phase-converting the refrigerant to circulate it. The cold heat of the cooling coil 23 is configured to be directly transferred to cold water.

However, the conventional cold water tank 20 is unsanitary because the cold water directly contacts the cooling coil 23, and there is a problem of contaminating the cold water when the cooling coil 23 is corroded.

3, the conventional cold water tank 30 has a cold water receiving portion 32 formed in the cold water tank main body 31 and a cooling coil 33 wound around the outer surface of the cold water tank main body 31 do. At the end of the cooling coil (33), a cooling device (34) for phase-converting the refrigerant and circulating it is provided. The cold heat of the cooling coil 33 is transmitted to the cold water tank main body 31 and the cold heat is transmitted to the cold water through the cold water tank main body 31.

However, in the conventional cold water tank 30, since the outer peripheral surface 33a of the cooling coil 33 is exposed to the atmosphere and the cooling loss is generated through the outer peripheral surface 33a of the cooling coil 33, .

Practical Registration No. 20-0359696 Patent Registration No. 10-0584220

The present invention has two cold water tank main bodies, in which a cooling pipe is disposed between two cold water tank bodies and an outer surface of the cooling pipe is not exposed, so that a cold / heat loss (cold heat loss) (Cooling water) can be improved, and the cooling pipe is not directly in contact with the water (cold water). Therefore, the cold water tank of the hygienic cold / hot water ionizer is provided .

The cold water tank of the present invention has a rectangular box shape with one side opened, a cold water receiving portion formed therein, and a plurality of cold water induction blades installed in a zigzag manner for circulating chilled water in the cold water receiving portion. A cold water tank body; An inlet pipe formed on the upper side of the first cold water tank main body so as to allow the purified water to flow into the cold water receiving portion of the first cold water tank main body; And a plurality of cold water induction blades are installed in the cold water receiving portion so as to circulate chilled water in a zigzag manner. A second cold water tank main body; A cooling pipe installed between the first cold water tank main body and the first cold water tank main body and circulating the refrigerant therein to exchange heat with purified water; A cold water outlet pipe formed above the second cold water tank main body so as to allow the cold water in the cold water receiving portion of the second cold water tank main body to flow out; A connection pipe connecting the first cold water tank main body and the lower end of the second cold water tank main body to connect the cold water receiving portion of the first cold water tank main body and the cold water receiving portion of the second cold water tank main body to each other; A first cover covering the opening of the first cold water tank main body; A first sealing member installed between the first cold water tank main body and the first cover to seal the cold water receiving portion; A second cover covering the opening of the second cold water tank main body; And a second sealing member provided between the second cold water tank main body and the second cover to seal the cold water receiving portion.

An insertion groove for inserting the cooling pipe is formed on the outer surface of the other side of the first cold water tank main body and the second cold water tank main body.

Wherein the plurality of cold water induction blades installed in the first cold water tank main body are arranged in a horizontal direction and are arranged at regular intervals in an up and down direction, the cold water induction blades located on the upper side and the cold water induction blades located on the lower side are arranged in a cold water circulation slot .

In other words, one end of the cold water induction blade on the upper side is fixed to one inner wall of the first cold water tank main body, and the other end of the cold water induction blade is spaced apart from the other inner wall of the first cold water tank main body, Wherein one end of the cold water induction blade located at the lower side forms the cold water circulation slot at a certain distance from the other side inner wall of the first cold water tank main body and the other end of the cold water induction blade is connected to the first cold water tank main body And the cold water in the cold water receiving portion can be circulated staggered.

Wherein the first sealing member and the second sealing member include an outer sealing portion in contact with a flange formed on an outer periphery of the first cold water tank main body and the second cold water tank main body, And an extension sealing portion extending in the inward direction.

Wherein the first cold water tank main body and the second cold water tank main body are in direct contact with each other or the first cold water tank main body and the second cold water tank main body are positioned close to each other to maintain a gap, And the foam is filled in order to prevent cold and heat loss.

The first and second cold water tank main bodies and the second cold water tank main body are positioned close to each other to maintain a gap, and the cooling pipe of the cooling pipe Foam may be filled to prevent loss.

As described above, the present invention has two cold water tank main bodies, a cooling pipe disposed between the two cold water tank main bodies, and an outer surface of the cooling pipe is not exposed, so that a cooling loss (cold heat loss) So that the cooling efficiency of the purified water and the cold water can be improved. In addition, since the cooling pipe is not directly in contact with the purified water, the sanitary effect is obtained.

In addition, the first sealing member and the second sealing member are in close contact with the flange of the cold water tank main body, the cold water guide blade is in close contact with the extended sealing portion, and a part of the end of the cold water guiding blade is fitted into the extended sealing portion By forming the grooves, the watertight effect can be maximized.

1 to 3 are diagrams schematically showing a conventional cold water purifier and a cold water tank of an ionizer
4 is a perspective view illustrating a cold water tank of a cold / hot water ionizer according to a first embodiment of the present invention.
FIG. 5 is an exploded perspective view showing a cold water tank of a cold / hot water ionizer according to a first embodiment of the present invention.
Fig. 6 is a front view of Fig. 4
Fig. 7 is a rear view of Fig. 4
8 is a sectional view taken along the line AA in Fig. 4
9 is a cross-sectional view of a cold water tank of a cold / hot water ionizer according to a second embodiment of the present invention
10 is a cross-sectional view of a cold water tank of a cold / hot water ionizer according to a third embodiment of the present invention

Hereinafter, a cold water tank of a cold / hot water ionizer according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 4 is an exploded perspective view illustrating a cold water tank of a cold / hot water ionizer according to a first embodiment of the present invention, FIG. 5 is an exploded perspective view illustrating a cold water tank of a cold / Fig. 7 is a rear view of Fig. 4, and Fig. 8 is a sectional view taken along line AA of Fig.

4 to 8, the cold water tank of the cold / hot water ionizer according to the first embodiment of the present invention includes a first cold water tank main body 110, a purified water inlet pipe P1, a second cold water tank main body 210 A cooling pipe P, a cold water outlet pipe P2, a connection pipe P3, a first cover 120, a first sealing member 130, a second cover 220 and a second sealing member 230 ).

The first cold water tank main body 110 and the second cold water tank main body 210 are preferably made of a material having a good heat transfer property such as a metallic material and the first sealing member 130 and the second sealing member 230 Acrylic rubber, ethylene propylene rubber, silicone material and the like can be used.

The first cold water tank main body 110 has a square box shape with one side opened. A cold water receiving portion 111 is formed in the first cold water tank main body 110 and a plurality of cold water guiding blades 112 are installed so as to circulate purified water (cold water) zigzag of the cold water receiving portion 111 . In the present invention, a configuration in which five cold water induction blades 112 are installed will be described as an example.

The purified water inlet pipe P1 is formed on the upper side of the first cold water tank main body 110 so that purified water can be introduced into the cold water receiving portion 111 of the first cold water tank main body 110. [

The second cold water tank main body 210 has a rectangular box shape whose one side is opened and is provided in the vicinity of the first cold water tank main body 110 and has a cold water receiving portion 211 formed therein, (211) is provided with a plurality of cold water induction blades (212) so as to circulate cold water in zigzags. In the present invention, a configuration in which five cold water induction blades 212 are installed will be described as an example.

The cooling pipe P is installed between the first cold water tank main body 110 and the first cold water tank main body 110 and exchanges heat with the refrigerant circulating therein to cool the purified water to make cold water.

The cold water outflow pipe P2 is formed on the upper side of the second cold water tank main body 210 so that cold water in the cold water receiving portion 211 of the second cold water tank main body 210 can be discharged.

The connection pipe P3 is connected to the first cold water tank main body 110 to connect the cold water receiving portion 111 of the first cold water tank main body 110 and the cold water receiving portion 211 of the second cold water tank main body 210, And the lower end of the second cold water tank main body 210 are connected to each other.

The first cover 120 covers and closes the opening of the first cold water tank main body 110.

The first sealing member 130 is installed between the first cold water tank main body 110 and the first cover 120 to seal the cold water receiving portion 111.

The second cover 220 covers and seals the opening of the second cold water tank main body 210.

The first cover 120 and the first sealing member 130 are fastened to the first cold water tank main body 110 by being coupled with the bolts in the bolt holes and the second cover 220 and the second sealing member 230, Is coupled to the second cold water tank main body (210) by a bolt in a bolt hole. Here, the bolt hole and the bolt are known conventional fastening means, so a detailed description thereof will be omitted.

The second sealing member 230 is installed between the second cold water tank main body 210 and the second cover 220 to seal the cold water receiving portion 211.

The first cold water tank main body 110 and the second cold water tank main body 210 can be in direct contact with each other and the cooling water is supplied to the outer surface of the other side of the first cold water tank main body 110 and the second cold water tank main body 210, The insertion grooves 117 and 217 for insertion of the insertion pawls P may be formed. The cooling pipe P has a circular shape and the insertion groove 117 and the insertion groove 217 are each formed in a semicircular shape so that the outer peripheral surface of the cooling pipe P is inserted into the insertion groove 117 and the insertion groove 217 And are appropriately placed.

The five cold water induction blades 112 installed in the first cold water tank main body 110 are arranged in the horizontal direction and are arranged at regular intervals in the up and down direction. The cold water induction blades 112, which are located on the upper side and the cold water induction blades 112, (112) forms a cold water circulation slot (113) in the zigzag direction.

In other words, one end of the cold water induction blade 112 located on the upper side is fixed to the inner wall of one side of the first cold water tank main body 110 and the other end of the cold water induction blade 112 is connected to the other inner wall of the first cold water tank main body 110 One end of the cold water induction blade 112 located at the lower side is formed in the cold water circulation slot 113 at a predetermined distance from the other side inner wall of the first cold water tank main body 110, And the other end of the cold water induction blade 112 is fixed to the inner wall of the other side of the first cold water tank main body 110 so that the chilled water of the cold water receiving portion 111 can be circulated in a zigzag manner.

The first sealing member 130 and the second sealing member 230 are formed in the outer cold sealing member 130 and the flange 110a and 210a formed on the outer sides of the first cold water tank main body 110 and the second cold water tank main body 210, And extension sealing portions 132 and 232 extending inward from the outer sealing portions 131 and 231 to contact the cold water induction blades 112 and 212. The extended sealing portions 132 and 232 may be formed with a groove H in which a part of the end of the cold water induction blades 112 and 212 can be fitted.

In the cold water tank of the cold / hot water ionizer according to the first embodiment of the present invention, purified water purified through a filter (not shown) flows into the first cold water tank main body 110 through the purified water inlet pipe P1, Water receiving portion 111 of the water-cooled type. The purified water flowing into the cold water receiving portion 111 is guided by the cold water guiding blade 112 and moves through the cold water circulating slot 113 and flows through the connecting pipe P3 to the cold water receiving portion 111 of the second cold water tank main body 210 As shown in FIG. The cold heat of the cooling pipe P is transmitted to the first cold water tank main body 110 and the second cold water tank main body 210 through heat exchange with the refrigerant flowing through the cooling pipe P. [ The chilled water flowing through the cold water circulation slot 113 while being staggered by the cold water induction blade 112 is cooled by the cold water and the cold water introduced into the cold water receiving portion 211 of the second cold water tank main body 210 is cooled 2 cold water is received from the cold water tank main body 210 and is further cooled by cold cold water. The cold water introduced into the cold water receiving portion 211 is guided in a staggered manner by the cold water guiding blade 212, and flows out through the cold water outlet pipe P2 while moving through the cold water circulating slot 213.

In the present invention, the cold water tank main bodies 110 and 210 are composed of the first cold water tank main body 110 and the second cold water tank main body 210, and between the two first and second cold water tank main bodies 110 and 210 Since the cooling pipe P for cooling the purified water (cold water) is disposed, the outer surface of the cooling pipe P is not exposed to the outside. Therefore, almost all of the cold heat is transferred into the first and second cold water tank main bodies 110 and 210 without generating a cold loss (cold heat loss) of the cooling pipe P, There is an advantage that it can be maximized.

Further, since the cooling pipe P does not directly contact the water (cold water), the cooling pipe P can be prevented from being corroded and sanitary drinking can be performed.

The outer sealing portions 131 and 231 of the first sealing member 130 and the second sealing member 230 are in close contact with the flanges 110a and 210a and the cold water induction blades 112 and 212 A groove H capable of fitting a part of an end of the cold water induction blade 112 to the extended sealing portions 132 and 232 as well as the extension sealing portions 132 and 232 is formed, .

9 is a chilled water tank of the cold / hot water ionizer according to the second embodiment of the present invention, wherein the first cold water tank main body 110 and the second cold water tank main body 210 are positioned close to each other to maintain the gap G And the foam F may be filled in the gap G to prevent the cooling loss of the cooling pipe P. [ As an example of the foam, a urethane foam may be used, and the foam serves to close the periphery of the cooling pipe (P) to prevent the cooling loss of the cooling pipe (P).

10 is a cold water tank of a cold / hot water ionizer according to a third embodiment of the present invention. The cooling pipe P 'is formed in an elliptical shape in order to increase a cooling / heating transfer area, and includes a first cold water tank main body 110 The second cold water tank main body 210 may be located close to the gap G and the foam F may be filled in the gap G to prevent the cooling loss of the cooling pipe P ' . When the cooling pipe P 'is formed in an elliptical shape, the contact area with the first cold water tank main body 110 and the second cold water tank main body 210 is widened, thereby improving the cooling / heating efficiency.

As described above, according to the present invention, there are provided two cold water tank main bodies, in which a cooling pipe is disposed between the two cold water tank bodies and the outer surface of the cooling pipe is not exposed, The cooling efficiency of the purified water and the cold water can be improved and the sanitary effect is obtained because the cooling pipe does not come into direct contact with the purified water.

In addition, the first sealing member and the second sealing member are in close contact with the flange of the cold water tank main body, the cold water guide blade is in close contact with the extended sealing portion, and a part of the end of the cold water guiding blade is fitted into the extended sealing portion By forming the grooves, the watertight effect can be maximized.

110: first cold water tank main body
111: cold water receiving part
112: cold water induction blade
113: cold water circulation slot
117: insertion groove
120: first cover
130: first sealing member
210: second cold water tank body
211: cold water receiving part
212: cold water induction blade
213: cold water circulation slot
217: insertion groove
220: second cover
230: second sealing member
P: cooling pipe
P1: Water inlet pipe
P2: cold water outlet pipe
P3: Connector

Claims (7)

A first cold water tank main body having a rectangular box shape with one side opened and having a cold water receiving portion therein and a plurality of cold water induction blades installed to circulate the cold water in a zigzag manner; An inlet pipe formed on the upper side of the first cold water tank main body so as to allow the purified water to flow into the cold water receiving portion of the first cold water tank main body; And a plurality of cold water induction blades are installed in the cold water receiving portion so as to circulate chilled water in a zigzag manner. A second cold water tank main body; A cooling pipe installed between the first cold water tank main body and the first cold water tank main body and circulating the refrigerant therein to exchange heat with purified water; A cold water outlet pipe formed above the second cold water tank main body so as to allow the cold water in the cold water receiving portion of the second cold water tank main body to flow out; A connection pipe connecting the first cold water tank main body and the lower end of the second cold water tank main body to connect the cold water receiving portion of the first cold water tank main body and the cold water receiving portion of the second cold water tank main body to each other; A first cover covering the opening of the first cold water tank main body; A first sealing member installed between the first cold water tank main body and the first cover to seal the cold water receiving portion; A second cover covering the opening of the second cold water tank main body; And a second sealing member installed between the second cold water tank main body and the second cover to seal the cold water receiving part, wherein the cooling pipe is installed between the first cold water tank main body and the first cold water tank main body Wherein the cooling water is transferred to the main body of the cold water tank.
The method according to claim 1,
Wherein an inlet groove for inserting the cooling pipe is formed on an outer surface of the other side of the first cold water tank main body and the second cold water tank main body.
3. The method of claim 2,
Wherein the first cold water tank main body and the second cold water tank main body are in direct contact with each other or the first cold water tank main body and the second cold water tank main body are positioned close to each other to maintain a gap, Wherein the foam is filled with water to prevent a loss of the foam.
The method of claim 1,
In order to increase the cooling / heating area, the cooling pipe is formed in an elliptical shape, and the first cold water tank main body and the second cold water tank main body are located close to each other to maintain the gap and prevent the cold / Wherein the foam is filled in the cold water tank of the cold water tank.
5. The method of claim 4,
Wherein the plurality of cold water induction blades installed in the first cold water tank main body are arranged in a horizontal direction and are arranged at regular intervals in an up and down direction, the cold water induction blades located on the upper side and the cold water induction blades located on the lower side are arranged in a cold water circulation slot Wherein the cold water tank is a cold water tank.
6. The method of claim 5,
One end of the cold water induction blade located at the upper side is fixed to one inner wall of the first cold water tank body and the other end of the cold water induction blade forms the cold water circulation slot at a certain distance from the other inner wall of the first cold water tank body And one end of the cold water induction blade located at the lower side forms the cold water circulation slot at a predetermined distance from the other side inner wall of the first cold water tank main body and the other end of the cold water induction blade is connected to the other inner wall of the first cold water tank main body So that cold water in the cold water receiving part can be circulated in a zigzag manner.
The method according to claim 1,
Wherein the first sealing member and the second sealing member have an outer sealing portion in contact with a flange formed on an outer periphery of the first cold water tank main body and the second cold water tank main body, And an extended sealing portion extending in the inner direction.

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