KR100993892B1 - Cold water tank and hot water tank separated type purifier - Google Patents

Abstract

PURPOSE: A cold and hot water tank decoupling-type water-cleaner for discharging the hot water by the pressure of hydraulic head is provided to prevent the water intake process of the warm water and the irregular water intake flow of the warm water and improve the cooling efficiency by the reduction of the energy. CONSTITUTION: A cold and hot water tank decoupling-type water-cleaner for discharging the hot water by the pressure of hydraulic head includes a clean water filter(200), an ice bath(300), a hot water tank, and a water intake caulk. The warm water flows according to the storage height of the warm water saved in the hot water tank with the created pressure from the hot water tank to the warm water. The ice bath includes an ice bath case, a cooling device which installs in order to protect the outer side surface of the ice bath case and an ice bath inlet pipe which is connected through in the ice bath case so that one end be connected to the first concatenated piping and the other end locate in the inside upper body of the ice bath case.

Description

Cold Water Tank and Hot Water Tank Separated Type Purifier}

The present invention relates to a cold and hot water tank separate water purifier. More specifically, by supplying purified water to the cold water tank and the hot water tank independently of each other, it prevents bacterial contamination due to air contact and at the same time prevents hot water backflow structurally, improving cooling efficiency for cold water and saving energy due to the operation of the cooler. It is possible to change the shape of the hot water tank so that the hot water is discharged by the pressure of the position head of the hot water stored in the hot water tank, thereby preventing the irregular water flow of the hot water in the hot water intake process, and to ensure a stable and smooth intake flow of hot water. It relates to a cold and hot water tank separate water purifier that enables.

Recently, due to the rapid industrial development, environmental pollution is getting worse. Among these, water pollution reaches a serious level, and most places such as homes and government offices treat water as drinking water and drink it as drinking water.

As such, a device for treating water and supplying it to drinking water is generally used as a water purifier for supplying cold water and hot water after purifying raw water supplied through a water pipe.

1 and 2 is a block diagram conceptually showing the configuration of a general water purifier according to the prior art.

The water purifier is generally equipped with a water supply valve V to open and close the supply of raw water on a water supply pipe Q through which raw water is supplied, and this water supply pipe Q is connected to the water filter 20. In the water filter 20, a plurality of filter devices may be selected so that a filtering process such as removing suspended substances, deodorizing, and sterilizing bacteria causing waterborne diseases may be performed, including suspended solids mixed in raw water. Mainly applied to sediment filter, pre-carbon filter, hollow fiber membrane filter / reverse osmosis filter, post-carbon filter Etc. are used.

The purified water passing through the water filter 20 is supplied to the storage tank 40 through the connection pipe (P), as shown in Figure 1, from the cold storage tank 40 and the hot water tank 50, respectively. Is supplied to, the cold water tank 30 and the hot water tank 50 is connected to the water intake coke 70 through the water intake pipe 73, respectively. The water intake coke 70 may be separately formed into a cold water intake coke 71 and a hot water intake coke 72.

Such a water purifier is always kept in a state in which the purified water is stored in the storage tank 40, and in this state, if the cold water or hot water is withdrawn by the intake coke 70, the purified water is stored in the cold water tank 30 and the hot water tank ( 50) to have a supplemental supply. At this time, the hot water tank 50 is formed with an air vent (not shown) in communication with the outside air for the internal pressure discharge.

On the other hand, in addition to such a structure, the structure of the water purifier which is generally used, as shown in FIG. ) Is supplied to the hot water tank 50, the cold water tank 30 and the hot water tank 50 may be configured in a manner that is connected to the water intake coke 70 through the water intake pipe 73, respectively. In such a water purifier, the cold water tank 30 serves as a storage tank and a cold water tank, and the purified water is always kept in the cold water tank 30, and in this state, when cold water or hot water is taken out by the intake coke 70, cold water The purified water is replenished to the hot water tank 50 from the tank 30, and water is replenished to the cold water tank 30 from the connection pipe P at the same time. At this time, the above-described air vent (not shown) is formed in the hot water tank 50.

Therefore, a general water purifier having such a structure is an air vent is formed in the hot water tank 50 for a stable operation, through which contaminants or bacteria of the air is introduced into the hot water tank 50 to the inside of the hot water tank 50. There was a problem of contamination. In particular, since bacteria are sterilized by high temperature in the hot water tank 50, it is not a big problem, but the storage tank 40 of FIG. 1 or the cold water tank 30 of FIG. 2 connected to the hot water tank 50 may have an internal temperature. Since the environment is suitable for bacterial propagation, the storage tank and the cold water tank are exposed to bacterial contamination by contact with air as it is. Thus, the purified water contaminated with bacteria in the storage tank and the cold water tank is cold water intake through the cold water intake coke 701. When water is taken with cold water, there was a problem of providing bacterial contaminated water to the user.

Since the problem of bacterial contamination must always exist in the general water purifier as described above, there is no other alternative for preventing bacterial contamination except the method of frequently cleaning the storage tank or the cold water tank, and frequently cleaning the storage tank or the cold water tank. If not, the water purifier installed to drink clean water, rather than drinking more contaminated water drinking water there was a problem that can cause a dysfunction.

On the other hand, since the conventional water purifier according to the prior art is configured so that the hot water tank 50 and the cold water tank 30 are in communication with each other, when the hot water tank 50 is full, from the hot water tank 50 to the cold water tank 30 There is a phenomenon that the hot water or water vapor flows backward, the cooling efficiency of the cold water tank 30 is significantly reduced by such a reverse flow phenomenon.

The present invention is invented to solve the problems of the prior art, the object of the present invention is to prevent the water contamination and at the same time structurally prevent the hot water backflow by allowing the purified water to be supplied to the cold water tank and the hot water tank independently of each other The cooling efficiency for cold water is improved and the cold / hot water tank separate water purifier can save energy due to the operation of the cooler.

Another object of the present invention is to provide a cold and hot water tank separate water purifier that further improves the cooling efficiency of the cold water by allowing the cold water is taken from the inner lower layer of the cold water tank through a structure that allows the cold water is withdrawn through the water pressure generated by the flow pressure of the water supply. It is.

Still another object of the present invention is to change the shape of the hot water tank so that the hot water is discharged by the pressure of the position head of the hot water stored in the hot water tank, thereby preventing the irregular intake flow of hot water in the hot water intake process, and stable and smooth hot water It is to provide a cold and hot water tank separate water purifier to enable the intake flow of.

The present invention, the water filter for treating the raw water supplied through the water supply pipe; A cold water tank connected to the purified water filter through a first connecting pipe and storing the purified water introduced from the purified water filter through the first connecting pipe and operating to cool the purified water; A hot water tank connected to the water filter through a second connection pipe and storing the purified water introduced from the water filter through the second connection pipe and operating to heat the purified water; And a water intake coke connected to each of the cold water tank and the hot water tank through a cold water intake pipe and a hot water intake pipe so as to intake cold water and hot water, wherein the hot water is generated by a pressure generated according to a storage height of the hot water stored in the hot water tank. One end of the hot water intake pipe is communicatively coupled to a position spaced downward from the top of the hot water tank so that hot water flows from the tank to the hot water intake pipe.

At this time, the water supply pipe may be equipped with a boost valve or a pressure reducing valve for boosting or reducing the water pressure of the raw water supplied.

The cold water tank may further include a cold water tank case having a purified water storage space therein; A cooler mounted to surround an outer surface of the cold water tank case; A cold water tank inlet pipe connected to the cold water tank case so that one end is connected to the first connection pipe and the other end is located on an inner upper layer of the cold water tank case; And a cold water tank outlet pipe connected to the cold water tank case so that one end is connected to the cold water intake pipe and the other end is located in an inner lower layer of the cold water tank case.

In addition, the cold water tank case has an outer circumferential surface spaced apart from the inner surface of the cold water tank case so that the purified water introduced into the cold water tank case through the cold water tank inlet pipe may flow along the inner surface of the cold water tank case. A separate separator plate may be formed horizontally in the lower layer of the cold water tank inlet pipe.

In addition, a temperature sensor may be mounted on an inner lower layer of the cold water tank case to a position adjacent to the other end of the cold water tank discharge pipe.

In addition, the hot water tank is a hot water tank case having a purified water storage space therein; A heater mounted on an inner lower layer of the hot water tank case; A hot water tank inlet pipe having one end connected to the second connection pipe and the other end communicating with a lower portion of the hot water tank case; A hot water tank discharge pipe having one end connected to the hot water intake pipe and the other end communicating with an intermediate portion spaced downward from an upper end of the hot water tank case; And a hot water tank air vent formed at an upper portion of the hot water tank case for discharging the internal pressure of the hot water tank case.

According to the present invention, by separately supplying purified water to the cold water tank and the hot water tank through a separate connection pipe to prevent bacterial contamination by air contact and at the same time prevent the hot water backflow structurally to improve the cooling efficiency for cold water, Accordingly, there is an effect that can reduce the energy due to the cooler driving.

In addition, the cold water is withdrawn from the lower layer of the cold water tank through a structure that allows the cold water to be withdrawn through the water pressure generated by the flow pressure of the water supply. It is relatively improved.

In addition, by changing the shape of the hot water tank so that the hot water is discharged by the pressure of the position head of the hot water stored in the hot water tank to prevent the intake flow of hot water in the hot water withdrawal process, it is possible to ensure a stable and smooth intake flow of hot water It's effective.

1 and 2 is a block diagram conceptually showing the configuration of a general water purifier according to the prior art,
3 is a block diagram conceptually showing the configuration of a cold / hot water tank separate water purifier according to an embodiment of the present invention;
Figure 4 is a perspective view schematically showing the shape of the hot water tank and cold water tank of the cold / hot water tank separate water purifier according to an embodiment of the present invention,
5 is a cross-sectional view conceptually showing an internal structure and an operating state of a separate cold / cold water purifier according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

Cold and hot water tank separate water purifier according to an embodiment of the present invention is configured so that the cold water tank and the hot water tank connected to the water filter is supplied with purified water through separate connection pipes so that the air contact of the cold water tank is blocked by bacterial contact by the air contact of the cold water tank And prevents hot water backflow into the cold water tank to improve the cooling efficiency of the cold water tank, thereby reducing energy consumption. The cold / hot water tank separate type water purifier is a water filter 200 for filtering raw water, a cold water tank 300 and a hot water tank 400 connected to the water filter 200, respectively, a cold water tank 300 and a hot water tank 400. ) And the water intake coke 700 connected through the water intake pipes 710 and 720, and each of these components may be configured in a form disposed in a separate body case 100.

Water purification filter 200 is a configuration for treating the raw water supplied through the water supply pipe (Q), as described in the prior art, such as sediment filter, pre-carbon filter, hollow fiber membrane filter / reverse osmosis filter, post carbon filter A plurality of filters are connected and installed, and raw water is filtered in multiple stages in the course of passing through the plurality of filters, which can be variously changed according to a user's needs.

Cold water tank 300 is connected to the purified water filter 200 and the first connection pipe (P1) is configured to supply and store the purified water passed through the purified water filter 200. At this time, the cold water tank 300 is provided with a separate cooler 320 to be described later is configured to cool the purified water introduced through the first connection pipe (P1) from the water filter 200.

The hot water tank 400 is configured to be connected to the purified water filter 200 and the second connection pipe (P2) to supply and store the purified water passed through the purified water filter 200. At this time, the first connection pipe (P1) and the second connection pipe (P2) are each composed of a separate pipe, the purified water passed through the water filter 200, respectively, the first connection pipe (P1) and the second connection, respectively The pipes P2 are independently supplied to the cold water tank 300 and the hot water tank 400, respectively. In addition, the hot water tank 400 is provided with a separate heater 480 which will be described later to heat the purified water supplied to the hot water tank 400.

The intake coke 700 may be formed separately from the cold water intake coke 701 and the hot water intake coke 702 or may be formed in one piece, and the intake coke 700 may be cold water so as to intake cold water and hot water, respectively. The intake pipe 710 and the hot water intake pipe 720 are connected to the cold water tank 300 and the hot water tank 400, respectively.

At this time, one end of the hot water intake pipe 720 is communicatively coupled to a position spaced downward from the top of the hot water tank 400, accordingly, the hot water stored in the hot water tank 400 by the pressure generated according to the storage height of the hot water It flows from the hot water tank 400 to the hot water intake pipe 720. By the flow principle, hot water may be withdrawn through the intake cock 700, which will be described later.

According to this structure, the water purifier according to the exemplary embodiment of the present invention passes through the water filter 200 as shown in FIG. 3 through the first connection pipe P1 and the second connection pipe P2, respectively. Independently supplied to the cold water tank 300 and the hot water tank 400 is stored in each independent space. That is, the cold water tank 300 and the hot water tank 400 is formed in an independent structure that does not communicate with each other, unlike the prior art, the intake coke 700 through the hot water intake pipe 720 and the cold water intake pipe 710, respectively Connected with. Therefore, when the user takes cold water or hot water through the intake cock 700, the cold water is stored in the cold water intake pipe in the state where the cold water flows into the cold water tank 300 through the first connection pipe P1 from the water filter 200. 710 is withdrawn to the intake coke 700, the hot water is introduced into the hot water tank 400 through the second connection pipe (P2) from the water filter 200, and then through the hot water intake pipe (720) 700). The water purifier structure in which the cold water or the hot water is collected through this process is formed separately from the cold water tank and the hot water tank without communicating with each other, thereby preventing external air contact of the cold water tank 300 to prevent bacterial contamination of the cold water tank 300. Therefore, not only hot water but also cold water can be supplied in a clean state to prevent bacterial contamination.

In more detail, the hot water tank 400 for storing hot water in a high temperature state is configured such that the internal pressure is discharged through an external communication means such as an air vent, as described in the prior art, the hot water through such an external communication means The interior of the bath 400 is in contact with the outside air. Bacteria can be propagated inside the hot water tank 400 by such external air contact. Since the inside of the hot water tank 400 is maintained at a high temperature state as described in the related art, since germs are sterilized by heat, substantially, Bacterial contamination does not occur in the hot water taken through the hot water intake pipe 720. The sterilization structure of the hot water tank 400 is the same as described in the prior art, the general water purifier described in the prior art is formed in the cold water tank and the hot water tank is in communication with each other or is provided with a separate storage tank communicating with the cold water tank, storage tank or hot water Bacterial contamination generated in the tank was transferred to the cold water tank, and there was a structural problem in which the bacteria were taken into the intake coke together with the cold water in a state where bacteria were largely propagated in the cold water tank. However, since the water purifier according to an embodiment of the present invention is formed so that the cold water tank 300 does not communicate with the hot water tank 400, bacterial contamination by external air contact is transferred to the cold water tank 300. Not only the structure of the cold water tank 300 itself is also a structure in which external air contact is blocked. Therefore, since the purified water passing through the water filter 200 flows into the cold water tank 300 and is stored without contact with external air, contamination or bacterial contamination by external foreign matters is fundamentally prevented.

That is, the water purifier according to an embodiment of the present invention is formed independently of the cold water tank 300 without communicating with the hot water tank 500, and is connected to the water filter 200 through the independent connection pipes P1 and P2, respectively. Therefore, the external air contact generated in the hot water tank 400 is not transmitted to the cold water tank 300, and the external air contact of the cold water tank 300 is blocked, thereby preventing bacterial contamination, and thus, intake of cold water as well as hot water. Edo can provide clean water that is not contaminated with germs.

In addition, since the water purifier according to an embodiment of the present invention is formed independently of the storage tank 400 or the hot water tank 400 without communicating with the cold water tank 300, unlike the conventional technology, the water purifier 400 The phenomenon in which the hot water is prevented from flowing back to the cold water tank 300 is prevented, and thus the cooling efficiency of the cold water is further improved, thereby saving energy.

Looking at each configuration in more detail, first, the cold water tank 300, the cold water tank case 310 and the cold water tank case 310 is formed therein water storage space as shown in Figure 4 and 5 It is configured to include a cooler 320 is wrapped around the outer surface of the cold water tank case 310 so as to cool the purified water stored in. Cold water tank case 310 is equipped with a cold water tank inlet pipe 330 connected to the first connection pipe (P1) so that the purified water flows from the water filter 200, and also cold water through the water intake coke 700 The cold water tank discharge pipe 340 is connected to the cold water intake pipe 710 to be withdrawn. At this time, the cold water tank inlet pipe 330 is one end is connected to the first connection pipe (P1) from the outside of the cold water tank case 310 and the other end of the cold water tank case 310 is located on the inner upper layer of the cold water tank case (310). ), The cold water tank outlet pipe 340 is connected to the cold water intake pipe 710 at the outside of the cold water tank case 310 and the other end is located in the inner lower layer of the cold water tank case 310. It is preferable to penetrate through the case 310.

According to this structure, the cold water tank 300 obtains purified water through the cold water tank inlet pipe 330 from the lower layer of the cold water tank case 310 through the cold water tank outlet pipe 340. Cold water is discharged to the cold water intake pipe 710. This configuration has the advantage of being more energy efficient when supplying cold water to the user through the intake cock 700. That is, since the convection of the fluid generally occurs in a manner in which the cold fluid moves downward and the warm fluid rises in the predetermined space, relatively cold cold water is located in the lower layer inside the cold water tank case 310. Considering this convection phenomenon, it is more efficient with respect to the temperature of the cold water discharged, the other end of the cold water tank outlet pipe 340 located in the lower inner layer of the cold water tank case 310 as described above.

The cooler 320 is formed in a pipe shape surrounding the cold water tank case 310, and may be generally configured as an evaporator constituting a refrigeration cycle. Therefore, although not shown inside the main body case 100 of the water purifier, a compressor, a condenser, an expansion valve, and the like may be installed to circulate the refrigerant with the evaporator, which corresponds to a general configuration for cooling, and thus a detailed description thereof will be omitted. The cooler 320 is preferably formed to surround the central portion and the lower portion of the cold water tank case 310, as shown in Figures 4 and 5, through which the cold water stored in the cold water tank case 310 Cooling efficiency is coordinated with the convection of cold water and is further improved. On the other hand, the lower inside of the cold water tank case 310 is preferably equipped with a separate temperature sensor 360 at a position adjacent to the other end of the cold water tank discharge pipe 340, thereby controlling the operating state of the cooler 320. It is configured to. That is, the temperature of the cold water discharged from the cold water tank inlet pipe 340 to the cold water intake pipe 710 is measured in such a way that the cooler 320 is operated or stopped according to the measured temperature.

On the other hand, the cold water tank case 310 is mounted so that the outer circumferential surface is separated from the inner surface of the cold water tank case 310 by a predetermined separation plate 350 is arranged horizontally on the lower layer of the cold water tank inlet pipe 330 Preferably, the purified water introduced into the upper layer of the cold water tank case 310 through the cold water tank inlet pipe 330 flows to the lower layer along the inner surface of the cold water tank case 310 and is cooled more effectively. That is, since the cooler 320 is configured to surround the cold water tank case 310, since the side portion is relatively lower in temperature than the center portion of the cold water tank case 310, the cooler 320 is introduced into the cold water tank case 310. By mounting the separator plate 350 so that the purified water flows down along the inner surface of the cold water tank case 310, more effective cooling performance may be exerted.

In addition, a drain pipe 370 for discharging the purified water stored in the cold water tank case 310 is communicatively coupled to the cold water tank case 310 at the lower portion of the cold water tank case 310, and the drain pipe 370 is connected to the drain water pipe 370. It is preferable that a separate on-off valve 380 capable of opening and closing the 370 is mounted. The drain pipe 370 and the opening / closing valve 380 may be used when the cold water tank case 310 needs to be completely emptied according to the user's needs, such as when the cold water tank case 310 needs to be cleaned.

The hot water tank 400 is a hot water tank case 410 having a purified water storage space therein, and a heater mounted to be located at an inner lower layer of the hot water tank case 410 to heat hot water stored in the hot water tank case 410. 480, one end of which is connected to the second connection pipe P2, and the other end of which is connected to the lower portion of the hot water tank case 410, and one end of which is connected to the hot water intake pipe 720. And a hot water tank outlet pipe 430 coupled to an intermediate portion spaced downward from an upper end of the hot water tank case 410 by the other end, and a hot water tank case 410 for discharging the internal pressure of the hot water tank case 410. It is configured to include a hot water tank air vent 440 formed on the top.

At this time, the hot water tank inlet pipe 420 is communicatively coupled to the lower portion of the hot water tank case 410, through which the back flow of hot water is further prevented, thereby improving the temperature maintaining effect of the hot water. That is, unlike the prior art, since purified water is supplied directly to the hot water tank 400 through the second connection pipe P2 without supplying purified water from a separate storage tank to a hot water tank, the flow pressure of the purified water is relatively large and the hot water is increased. Even if hot water is supplied through the lower portion of the tank 400, hot water is smoothly supplied to the hot water tank 400. In addition, since the hot water stored in the hot water tank case 410 has a property of rising due to convection phenomenon, when the hot water tank inlet pipe 420 is located below the hot water tank case 410, the hot water tank inlet pipe The amount of hot water that flows back through 420 and flows out of the hot water tank case 410 is significantly reduced. Therefore, the hot water stored in the hot water tank case 410 is stably stored in the hot water tank case 410 without an external spill, and accordingly, the hot water stored in the hot water tank case 410 is relatively reduced in heat transfer due to external mixing. The temperature holding effect is improved. The improvement of the temperature maintenance effect can relatively reduce the repetitive operation of the heater 480, thereby further saving energy.

In addition, the hot water tank outlet pipe 430 is communicatively coupled to a position spaced downward from the top of the hot water tank case 410 as described above, and thus the hot water at the hot water outlet point of the hot water through the hot water tank outlet pipe 430. Pressure is generated according to the storage height, the hot water is withdrawn through the hot water tank inlet pipe 430 to the hot water intake pipe 720 by this pressure.

Looking at the flow of purified water for the water purifier of the configuration described above with reference to Figure 5, first, purified water is supplied to the water filter 200 through the water supply pipe (Q). The purified water supplied to the purified water filter 200 is filtered by the purified water filter 200 and then the cold water tank 300 and the hot water tank 400 through the first connecting pipe P1 and the second connecting pipe P2, respectively. Are supplied independently. At this time, the first connection pipe (P1) and the second connection pipe (P2), as shown in Figure 5 may be configured in the form that the other connection pipe is branched to any one of the connection pipe, the water filter 200 It may also be configured in the form of completely different connecting pipes connected to each other.

In this way, the purified water stored in the independent cold water tank 300 that is not in communication with the hot water tank 400 is cooled through the cooler 320, and then, when the intake coke 701 is operated, the intake coke (710) is cold water intake pipe (710). Intake water is discharged to 701, wherein the cold water is discharged from the cold water tank 300 through the water intake coke 700 by the flow pressure of the purified water supplied from the purified water filter 200 in the structure of the cold water tank 300. It is configured to be withdrawn.

That is, the flow of cold water proceeds in such a way that the raw water continues to be supplied to the cold water tank 300 through the water supply pipe Q and the water filter 200 in a state in which the intake cock 700 is closed, so that the cold water tank 300 is full. Accordingly, the water pressure is generated in the cold water tank 300 by the flow pressure of the purified water supplied from the water filter 200, and when the water intake cock 700 is opened in this state, the water intake coke 700 is opened by the water pressure. Cold water is intake and discharged.

According to this cold water flow method, the water purifier according to an embodiment of the present invention is provided on the water supply pipe Q as shown in FIGS. 3 and 5 to adjust the water pressure due to the flow pressure of the water supply in the cold water tank 300. It would be desirable to be equipped with a separate pressure regulating valve 800 for boosting or reducing the pressure of the raw water. The pressure control valve 800 may be applied as a booster valve to increase the water pressure of the raw water when the water pressure of the raw water is relatively low in the place where the water purifier is installed, and if the water pressure of the raw water is relatively high to reduce the water pressure of the raw water. May be applied as a pressure reducing valve.

On the other hand, the hot water is configured to be withdrawn by the water pressure inside the hot water tank case 410 acting by the position head of the hot water at the hot water tank outlet pipe 430 point. That is, the flow of hot water proceeds in such a way that the raw water continues to be supplied to the hot water tank 400 through the water supply pipe Q and the water purification filter 200 while the water intake cock 700 is closed, and the hot water tank 400 is full. At this time, since the hot water tank outlet pipe 430 is formed at a point spaced downward from the top of the hot water tank case 410 as shown in FIG. 5, the hot water filled in the hot water tank case 410 is discharged from the hot water tank. The pressure according to the stored height H based on the pipe 430 point, that is, the water pressure due to the position head is generated. When the water intake coke 700 is opened in such a state, hot water is discharged to the water intake coke 700 through the hot water intake pipe 720 by water pressure. In the process of taking hot water, even if the storage height is lowered by H1, the water pressure by the position head of H continues to operate. Thus, when the storage height is lowered, the second connection pipe P2 is caused by the flow pressure of the purified water. The purified water is continuously supplied into the hot water tank case 410 through. In addition, in the process of the hot water is collected and the storage height is lowered, the hot water tank air vent 440 is formed in communication with the upper portion so that a vacuum pressure is not generated inside the hot water tank case 410, through which the hot water tank discharge pipe ( The hot water intake discharge through 430 proceeds smoothly.

Here, the hot water tank outlet pipe 430 is communicatively coupled to the upper portion of the hot water tank case 410, so that the hot water may be taken out and discharged by the flow pressure of the purified water as in the cold water flow method. Because high pressure must be maintained in the hot water intake discharge process irregular hot water flow occurs. Therefore, the hot water flow system according to an embodiment of the present invention is preferably configured to be made by the water pressure by the position head, for this purpose, the position of the hot water tank outlet pipe 430 is downward from the top of the hot water tank 400 It is preferred to be spaced apart.

In summary, the water purifier according to an embodiment of the present invention is configured to deform the shape of the hot water tank 400 to a specific state for hot water to take hot water through the water pressure by the position head, and for cold water It is configured to take cold water through the water pressure by the flow pressure. According to such a structure, since a separate storage tank for the position head is not necessary in the cold water tank 300, it is formed independently of the hot water tank 400, thereby preventing bacterial contamination as described above and exhibiting an efficient cooling performance.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: body case 200: water filter
300: cold water tank 320: cooler
350: separator 400: hot water tank
430: hot water tank discharge pipe 700: water intake coke
710: cold water intake piping 720: hot water intake piping

Claims (6)

A water filter for purifying raw water supplied through a water supply pipe;
A cold water tank connected to the purified water filter through a first connecting pipe and storing the purified water introduced from the purified water filter through the first connecting pipe and operating to cool the purified water;
A hot water tank connected to the water filter through a second connection pipe and storing the purified water introduced from the water filter through the second connection pipe and operating to heat the purified water; And
Intake coke connected to the cold water tank and the hot water tank through a cold water intake pipe and a hot water intake pipe to respectively intake cold water and hot water
Includes, wherein one end of the hot water intake pipe spaced downward from the top of the hot water tank so that hot water flows from the hot water tank to the hot water intake pipe by the pressure generated according to the storage height of the hot water stored in the hot water tank Are in communication with,
The cold water tank
A cold water tank case having a purified water storage space therein;
A cooler mounted to surround an outer surface of the cold water tank case;
A cold water tank inlet pipe connected to the cold water tank case so that one end is connected to the first connection pipe and the other end is located on an inner upper layer of the cold water tank case; And
Cold water tank outlet pipe is connected to the cold water tank case so that one end is connected to the cold water intake pipe and the other end is located in the inner lower layer of the cold water tank case.
The cold water tank case includes an outer circumferential surface of the cold water tank case so that purified water introduced into the cold water tank case through the cold water tank inlet pipe may flow along the inner surface of the cold water tank case to a lower layer. Separation separator is formed to be spaced apart from the cold water tank separate type water purifier, characterized in that arranged horizontally in the lower layer of the cold water tank inlet pipe.
The method of claim 1,
The water supply pipe is cold water tank separate type water purifier, characterized in that the pressure booster valve or pressure reducing valve for increasing or reducing the water pressure of the raw water supplied.
delete delete The method of claim 1,
Cold water tank separate type water purifier, characterized in that the temperature sensor is mounted on the inner lower layer of the cold water tank case adjacent to the other end of the cold water tank discharge pipe.
The method according to any one of claims 1, 2 and 5,
The hot water tank
A hot water tank case having a purified water storage space therein;
A heater mounted on an inner lower layer of the hot water tank case;
A hot water tank inlet pipe having one end connected to the second connection pipe and the other end communicating with a lower portion of the hot water tank case;
A hot water tank discharge pipe having one end connected to the hot water intake pipe and the other end communicating with an intermediate portion spaced downward from an upper end of the hot water tank case; And
Hot water tank air vent is formed on the top of the hot water tank case for discharging the internal pressure of the hot water tank case
Cold and hot water tank separate water purifier comprising a.

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