KR101576830B1 - Hot water tank - Google Patents

Abstract

The time for heating the water to the extraction temperature is shortened and the water can be heated to the extraction temperature with a small energy, thereby starting the hot water tank with high efficiency.
The hot water tank according to an embodiment of the present invention includes a tank body 200 connected to an inflow pipe 210 through which water flows and an outflow pipe 220 through which water flows; A heater 300 installed in the tank body 200 and heating the water flowing into the tank body 200; And one side connected to the tank main body 200 and the other side connected to the outflow pipe 220. Water heated to maintain a predetermined temperature range by the heater 300 flows out through the outflow pipe 220 A mixing unit 400 for mixing the overheated water by the heater 300 to obtain the extraction temperature; As shown in FIG.
According to the present invention, the stored water can be maintained at a predetermined temperature range, and the overheated water can be mixed at the extraction temperature to obtain the extraction temperature. Thus, the time for heating the water to the extraction temperature Can be shortened, the water can be heated to the extraction temperature with a small energy, and the efficiency of the hot water tank can be increased.

Description

HOT WATER TANK

The present invention relates to a hot water tank having a high efficiency because the time for heating the water to the extraction temperature is shortened and the water can be heated to the extraction temperature with low energy.

The hot water tank is a device which flows into the hot water tank to heat the stored water.

If such a hot water tank is provided in, for example, a water purifier, water supplied from a water source such as a purified water tank for storing filtered water through one or a plurality of water filters is introduced and stored. The hot water tank is provided with a heater to heat the water stored in the hot water tank to the extraction temperature. Such a heater may be provided inside or outside the hot water tank.

In such a conventional hot water tank, there is a problem that the entire water stored in the hot water tank must be always heated to the extraction temperature by the heater. Accordingly, there is a problem that a lot of energy is required to heat the water stored in the hot water tank to the extraction temperature. Further, since the entire water stored in the hot water tank is heated to the extraction temperature, it takes a long time.

Therefore, there is a problem that the efficiency of the hot water tank is lowered.

The present invention is realized by recognizing at least any one of the requirements or problems occurring in the conventional hot water tank.

One object of the present invention is to shorten the time for heating the water to the extraction temperature.

Another object of the present invention is to be able to heat water to extraction temperature with low energy.

Another object of the present invention is to increase the efficiency of the hot water tank.

The hot water tank according to one embodiment for realizing at least one of the above problems may include the following features.

The present invention is basically based on keeping the stored water at a certain temperature range and mixing the overheated water at the time of extraction to obtain the extraction temperature.

According to an aspect of the present invention, there is provided a hot water tank comprising: a tank body connected to an inflow pipe through which water flows and an outflow pipe through which water flows; A heater installed in the tank main body and heating the stored water flowing into the tank main body; And one side is connected to the tank body and the other side is connected to the outlet pipe, and when the heated water flows out through the outlet pipe to maintain the predetermined temperature range by the heater, the overheated water is mixed by the heater to be the extraction temperature Mixing portion; As shown in FIG.

In this case, the mixing unit may include an over-heating pipe connected to the upper portion of the tank body at one side and connected to the outflow pipe at the other side; And a valve provided in the outlet pipe; . ≪ / RTI >

The mixing unit may further include a pressure sensor disposed on the overheating pipe and sensing a pressure of the overheating pipe.

The inlet pipe may be connected to a lower portion of the tank body, and the outlet pipe may be connected to an upper portion of the tank body.

As described above, according to the embodiment of the present invention, the stored water can be maintained in a predetermined temperature range.

In addition, according to the embodiment of the present invention, overheated water can be mixed at the time of extraction to obtain the extraction temperature.

And also, according to the embodiment of the present invention, the time for heating the water to the extraction temperature can be shortened.

And also, according to an embodiment of the present invention, water can be heated to extraction temperature with low energy.

Further, according to the embodiment of the present invention, the efficiency of the hot water tank can be increased.

1 is a view showing an embodiment of a hot water tank according to the present invention
2 to 4 are views showing the operation of an embodiment of the hot water tank according to the present invention.

In order to facilitate understanding of the features of the present invention as described above, a hot water tank according to an embodiment of the present invention will be described in detail.

Hereinafter, exemplary embodiments will be described on the basis of embodiments best suited for understanding the technical characteristics of the present invention, and the technical features of the present invention are not limited by the illustrated embodiments, And that the present invention may be implemented with other embodiments. Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. In order to facilitate the understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, among the constituent elements that perform the same function in the respective embodiments, the related constituent elements are indicated by the same or an extension line number.

Embodiments relating to the present invention are based on basically allowing the stored water to maintain a constant temperature range and mixing the overheated water during extraction to the extraction temperature.

1, the hot water tank 100 according to the present invention may include a tank body 200, a heater 300, and a mixing unit 400.

The inlet pipe 210 and the outlet pipe 220 may be connected to the tank body 200 as shown in FIG. Water can be introduced into the tank main body 200 through the inflow pipe 210. To this end, the inlet pipe 210 may be connected to a water source. For example, if the hot water tank 100 according to the present invention is provided in a water purifier (not shown), the water source may be a purified water tank that stores the filtered water through one or a plurality of water filters (not shown). However, the water supply source is not limited to the purified water tank, but may be any water supply source connected to the inflow pipe 210 and capable of supplying water to the tank body 200.

The inlet pipe 210 may be connected to the lower portion of the tank body 200 as shown in FIG. Accordingly, water supplied from a relatively low temperature water source can be introduced into the lower portion of the tank body 200 through the inlet pipe 210. In addition, the inlet pipe 210 may be provided with a valve V as shown in the illustrated embodiment. The inflow of water into the tank main body 200 through the inflow pipe 210 can be controlled by the valve (V).

In addition, the outlet pipe 220 can be heated by the heater 300 so as to maintain a predetermined temperature range, which is stored in the tank body 200. The outflow pipe 220 may be connected to the upper portion of the tank body 200 as shown in FIG. Therefore, the relatively high temperature water heated in the tank main body 200 by the heater 300 to maintain a predetermined temperature range can be discharged from the upper part of the tank main body 200 through the outlet pipe 220 . The outlet pipe 220 may include a temperature sensor 250 as shown in the illustrated embodiment. The temperature sensor 250 senses the temperature of the water flowing through the outlet pipe 220.

1, the tank body 200 may be provided with a water level sensor 230. In this case, The level of the water stored in the tank body 200 can be sensed by the water level sensor 230. The water level of the water stored in the tank main body 200 can be maintained at a certain level. That is, when it is detected by the water level sensor 230 that the water level of the water stored in the tank main body 200 exceeds a certain level, the valve V provided in the inflow pipe 210 is closed so that the inflow of water into the tank main body 200 Lt; / RTI > When the level of the water stored in the tank body 200 is detected by the water level sensor 230 to be less than a predetermined level, the valve V may be opened to allow water to flow into the tank body 200. Accordingly, the water level of the water stored in the tank main body 200 can be maintained at a certain level. In this way, the water level of the water stored in the tank main body 200 can be maintained at a certain level, so that the tank main body 200 can have a free space without being filled with water. As described later, when water stored in the tank body 200 heated to maintain a predetermined temperature range flows out through the outflow pipe 220, the water stored in the tank body 200 is heated to overheat Can be achieved smoothly.

In addition, the tank body 200 may be provided with a temperature sensor 240 as in the embodiment shown in FIG. The temperature of the water stored in the tank main body 200 can be sensed by the temperature sensing sensor 240. The temperature sensor 240 and the heater 300 interlock with each other to maintain the temperature of the water stored in the tank body 200 at a predetermined temperature range, as described later.

The heater 300 may be provided in the tank body 200 as in the embodiment shown in FIG. The heater 300 may be provided inside the tank body 200 as shown in the illustrated embodiment. However, the heater 300 may be provided outside the tank main body 200 and may be provided at any position of the tank main body 200 as long as the heater 300 can receive the heated water from the tank main body 200. The heater 300 may include a heating wire or the like so as to heat the water stored in the tank body 200 by electric energy, as shown in the illustrated embodiment. However, the heater 300 is not limited thereto, and any structure can be used as long as it can heat the water stored in the tank body 200.

On the other hand, when the water stored in the tank main body 200 does not flow out through the outflow pipe 220, the water can be heated by the heater 300 so as to maintain a constant temperature range. For example, water stored in the tank main body 200 can be heated by the heater 300 so as to maintain the temperature of 30 to 70 占 폚. That is, when the temperature of the water stored in the tank body 200 is lower than 30 ° C by the temperature sensor 240 provided in the tank body 200, the heater 300 is operated to cool the water stored in the tank body 200 Lt; 0 > C or more. When the temperature of the water stored in the tank main body 200 exceeds 70 ° C by the heating by the heater 300, the operation of the heater 300 is stopped. In this way, the temperature of the water stored in the tank main body 200 can be maintained at 30 to 70 DEG C, that is, at a constant temperature range.

When the heated water flows out through the outflow pipe 220 so as to maintain the predetermined temperature range as described above, the water stored in the tank body 200 is heated by the heater 300 Can be heated. Accordingly, in this case, the operation of the heater 300 is not stopped even if the temperature sensor 240 detects that a certain temperature range, for example, 70 ° C is exceeded. In this case, when the water stored in the tank main body 200 is stopped flowing through the outflow pipe 220, the operation of the heater 300 is stopped.

The mixing unit 400 may be connected to the tank main body 200 at one side and to the outlet pipe 220 at the other side as in the embodiment shown in FIG. When the heated water flows out through the outflow pipe 220 by the mixing unit 400 to maintain the predetermined temperature range by the heater 300 as described above, Can be mixed to obtain the extraction temperature. To this end, the mixing unit 400 may include an overheating pipe 410 and a valve 420, as shown in the illustrated embodiment. In addition, the mixing unit 400 may further include a pressure sensing sensor 430.

1, one side of the overheating pipe 410 may be connected to the upper portion of the tank body 200, and the other side thereof may be connected to the outlet pipe 220. [ Accordingly, the water heated by the heater 300 and overheated can flow to the outlet pipe 220 through the overheating pipe 410 and is maintained in the predetermined temperature range flowing out through the outlet pipe 220 The water can be mixed with the heated water. The extraction temperature can be obtained by mixing the heated water with the overheated water to maintain the constant temperature range.

In this manner, since the overheated water is mixed with the heated water so as to maintain the predetermined temperature range to be the extraction temperature, the time for heating the water to the extraction temperature can be shortened. Further, since it is not necessary to heat the whole water stored in the tank main body 200 to the extraction temperature, the water stored at a low energy can be heated to the extraction temperature. Thus, the efficiency of the hot water tank can be increased.

The valve 420 may be provided in the outlet pipe 220 as in the embodiment shown in FIG. The valve 420 is closed and the heated water and the overheated water flowing through the overheating pipe 410 are mixed in the outlet pipe 220 so as to maintain the predetermined temperature range by the user's extraction command, It is opened, and hot water can be supplied to the user. The operation of the valve 420 may be interlocked with the temperature sensor 250 provided in the outlet pipe 220. That is, when the temperature sensed by the temperature sensing sensor 250 reaches the extraction temperature, it is opened, otherwise it can be closed. The operation of the valve 420 may also be performed in conjunction with the pressure sensor 430 provided in the overheating pipe 410 as described later.

The pressure sensing sensor 430 may be provided in the overheating pipe 410 as in the embodiment shown in FIG. The pressure of the overheating pipe 410 can be sensed by the pressure sensor 430. Accordingly, it can be seen that the overheating water heated by the heater 300 flows through the overheating pipe 410. That is, when the overheated water flows in the overheating pipe 410, the pressure of the overheating pipe 410 is increased and the pressure sensing sensor 430 senses the increased pressure. As a result, the overheated water passes through the overheating pipe 410 As shown in FIG. When the pressure sensing sensor 430 detects that the pressure of the overheating pipe 410 is higher than a predetermined pressure, the valve 420 is opened to allow the heated water and the overheated water to flow through the outlet pipe 220 to supply the user with hot water at the extraction temperature.

Hereinafter, the operation of one embodiment of the hot water tank according to the present invention will be described in detail with reference to FIG. 2 to FIG.

As shown in FIG. 2, when the valve V provided in the inlet pipe 210 is opened, a water supply source (not shown), for example, a water purifier for storing filtered water through one or a plurality of water filters (not shown) Water flows into the tank main body 200 from a tank (not shown) or the like.

When the water level of the water W flowing into the tank main body 200 reaches a certain level, that is, the water level at which the water level sensor 230 is located as shown in FIG. 3, the water level sensor 230 detects . When the water level sensor 230 detects that the water level of the water W stored in the tank body 200 has reached a predetermined level, the valve V is closed to prevent the inflow of water into the tank body 200 do.

When the water W stored in the tank main body 200 reaches a certain level, the heater 300 operates to maintain the temperature of the water W stored in the tank main body 200 within a predetermined temperature range. For example, as described above, the temperature of the water W stored in the tank main body 200 can be maintained in the range of 30 캜 to 70 캜. That is, if the temperature of the water W stored in the tank body 200 sensed by the temperature sensor 240 is less than 30 ° C as described above, the heater 300 is operated to cool the water stored in the tank body 200 So that the temperature of the wafer W is 30 DEG C or higher. When the temperature sensor 240 detects that the temperature of the water W stored in the tank main body 200 exceeds 70 ° C by the heating of the heater 300, the heater 300 stops operating.

In this state, when the temperature of the water W stored in the tank body 200 is maintained at a predetermined temperature range by the heater 300 and the temperature sensor 240, for example, when the user presses the extraction button, 4, the heater 300 is operated to heat the water W stored in the heated tank main body 200 to maintain a constant temperature range. In this case, the water W stored in the tank body 200 is heated by the heater 300 so that overheating may occur. Therefore, in this case, even if the temperature sensed by the temperature sensor 240 exceeds a certain temperature range, the operation of the heater 300 is not stopped.

The overheated water heated by the heater 300 flows to the outlet pipe 220 through the overheating pipe 410 of the mixing unit 400 as shown in FIG. This can be detected by the pressure sensor 430 provided in the overheating pipe 410.

In the outflow pipe 220 after the overheating pipe 410 is connected, the heated water and the overheated water are mixed to maintain the predetermined temperature range, and thus the extracted temperature can be obtained. This can be detected by the temperature sensor 240 provided in the outflow pipe 220.

When it is sensed that the pressure of the outflow pipe 220 becomes equal to or higher than a certain pressure by the pressure sensor 430 or the temperature of the water becomes the extraction temperature by the temperature sensor 250, The valve 420 is opened as shown in FIG. Thus, hot water can be supplied to the user.

If the hot water tank according to an embodiment of the present invention is used, the stored water can be maintained at a predetermined temperature range, and the overheated water can be mixed at the time of extraction to obtain the extraction temperature, The time for heating to the temperature can be shortened and the water can be heated to the extraction temperature with low energy. Therefore, the efficiency of the hot water tank can be increased.

The hot water tank described above is not limited to the configuration of the embodiment described above, but all or a part of the embodiments may be selectively combined so that various modifications can be made in the embodiments.

100: Hot water tank 200: Tank body
210: inlet pipe 220: outlet pipe
230: Level sensor 240, 250: Temperature sensor
300: heater 400: mixing part
410: Overheating tube 420, V: Valve
430: Pressure sensor W: Water

Claims (4)

A tank main body 200 connected to an inflow pipe 210 through which water flows and an outflow pipe 220 through which water flows;
A heater 300 installed in the tank body 200 and heating the water flowing into the tank body 200; And
One end connected to the tank main body 200 and the other end connected to the outflow pipe 220. When water heated to maintain a predetermined temperature range by the heater 300 flows out through the outflow pipe 220 A mixing unit 400 for mixing the overheated water with the heater 300 to obtain the extraction temperature;
The hot water tank comprising: 2. The apparatus of claim 1, wherein the mixing unit (400)
An overhead pipe 410 connected to the upper portion of the tank body 200 at one side and connected to the outlet pipe 220 at the other side; And
A valve 420 provided in the outflow pipe 220;
And a hot water tank. 3. The apparatus of claim 2, wherein the mixing unit (400)
Further comprising a pressure sensor (430) provided in the overheating pipe (410) and sensing a pressure of the overheating pipe (410). 4. The apparatus according to any one of claims 1 to 3, wherein the inflow pipe (210) is connected to a lower portion of the tank body (200)
Wherein the outlet pipe (220) is connected to an upper portion of the tank body (200).

Images