KR101586329B1 - Valve apparatus for being able to provide warm water - Google Patents

Abstract

A valve device capable of discharging lukewarm water according to an embodiment of the present invention includes a first inlet portion (200) into which hot water flows; A second inlet (300) through which one of at least one water having a lower temperature than hot water flowing into the first inlet (200) is selected and the flow rate of the incoming water can be adjusted; And the other side is connected to the second inflow part 300 and is connected to the first inflow part 200. The second inflow part 300 is connected to the first inflow part 300 and the hot water, A discharge part 400 to be discharged; A second inflow portion main body 310 having at least one water inflow pipe 311 formed at one side thereof and a connection pipe 312 formed at the other side thereof, A fixed disk 320 having at least one flow rate adjusting hole 321 connected to the inlet pipe 311 and fixed to the inside of the second inlet body 310, A rotary disc 330 formed with a connection hole 331 connected to one of the holes 321 and rotatably installed in the second inlet main body 310, And a rotating unit 340 connected to the rotating disk 330.

Valve device, lukewarm water

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a valve device capable of discharging lukewarm water,

The present invention relates to a valve apparatus capable of discharging lukewarm water.

The valve device is a device for supplying an inflowing fluid, for example, a gas such as air or a liquid such as water, to a pipe or a fluid treatment device through which the fluid flows, or to shut off the supply, or to discharge the fluid to the outside or to block the discharge.

The valve device installed in the extracting part of the water purifier for filtering the incoming water through the at least one water filter and supplying the filtered water to the user is provided with a water supply device for supplying only the cold water, Consists of.

Therefore, there is a problem that, for example, in order to ride infant milk powder, it is not possible to supply the user with lukewarm water having a temperature lower than the hot water and higher than the water.

In addition, there is a problem that the temperature and the flow rate of the lukewarm water can not be controlled and supplied to the user.

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

An object of the present invention is to mix hot water and water at a lower temperature than hot water to produce lukewarm water and then discharge it.

Another object of the present invention is to discharge lukewarm water which is a mixture of hot water or hot water and lower temperature water than hot water or hot water.

Another object of the present invention is to control the temperature or the flow rate of the lukewarm water generated by controlling the flow rate of the water at a temperature lower than that of the hot water mixed with the hot water, .

A valve apparatus capable of discharging lukewarm water related to one embodiment for realizing at least one of the above problems may include the following features.

The present invention is basically based on mixing warm water and water having a lower temperature than hot water to generate and discharge lukewarm water.

According to an aspect of the present invention, there is provided a valve apparatus capable of discharging lukewarm water, comprising: a first inlet through which hot water flows; A second inlet through which one of at least one water having a lower temperature than the hot water flowing into the first inlet is selected and the flow rate of the incoming water can be adjusted; And a discharging unit connected to the first inlet, one end connected to the second inlet, and discharging lukewarm water generated by mixing water or hot water lower in temperature than hot water or hot water and water in lower temperature than hot water; And a second inflow portion main body having a second inflow portion formed with at least one water inflow pipe at one side and a connection pipe at the other side, at least one flow rate control hole connected to at least one water inflow pipe, 2 a rotary disk having a fixed disk fixed to the inside of the inflow section main body and a connection hole connected to one of the one or more flow rate adjusting holes according to the rotation position and rotatably provided in the second inflow section main body, And rotating means connected to the rotating disk to rotate the rotating disk.

In this case, the first inflow portion may include a hot water supply pipe connected to the hot water supply source; A first valve connected to the hot water supply pipe at one side and to a discharge pipe included at the discharge side at the other side; . ≪ / RTI >

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Meanwhile, the at least one flow rate adjusting hole is formed to be long in the circumferential direction of the fixed disk and may be reduced in size in one direction.

Further, the portion where the water inlet pipe and the flow rate adjusting hole are connected may be multi-stage.

The discharge port may include a second valve connected to a connection pipe formed in a second inflow section main body of which one side is included in the second inflow section; And a discharge pipe connected to the other side of the second valve; . ≪ / RTI >

As described above, according to the embodiment of the present invention, hot water can be mixed with water having a lower temperature than hot water to generate lukewarm water and then discharged.

In addition, according to the embodiment of the present invention, it is possible to discharge lukewarm water having a lower temperature than hot water or hot water or hot water mixed with hot water at lower temperature than hot water.

In addition, according to the embodiment of the present invention, the temperature or flow rate of the lukewarm water generated by controlling the flow rate of the water lower than the hot water mixed with the hot water or selecting the water having the temperature lower than the hot water mixed with the hot water, Can be adjusted.

Hereinafter, a valve device capable of discharging lukewarm water according to an embodiment of the present invention will be described in detail in order to facilitate understanding of the features of the present invention.

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 related to the present invention are basically based on mixing hot water and water having a lower temperature than hot water so as to generate and discharge lukewarm water.

1 and 2, a valve device 100 capable of discharging lukewarm water according to the present invention includes a first inlet portion 200, a second inlet portion 300, and a discharge portion 400 Lt; / RTI >

Hot water may be introduced into the first inflow unit 200. For this purpose, the first inlet 200 may include a hot water supply pipe 210 and a first valve 220, as in the embodiment shown in FIG. The hot water supply pipe 210 may be connected to a hot water supply source (not shown). Therefore, the hot water supplied from the hot water supply source can flow through the hot water supply pipe 210. The first valve 220 may be connected to the hot water supply pipe 210 at one side thereof as shown in the illustrated embodiment. The other side of the first valve 220 may be connected to a discharge pipe 420, which will be described later, included in the discharge unit 400 as shown in the illustrated embodiment. Therefore, the hot water flowing from the hot water supply source (not shown) and flowing through the hot water supply pipe 210 flows into the discharge pipe 420, which will be described later, included in the discharge unit 400 according to the operation of the first valve 220, (420) may be blocked.

The second inlet 300 may be connected to one of the one or more water having a lower temperature than the hot water flowing into the first inlet 200 as described above. In addition, the flow rate of the incoming water can be adjusted. To this end, the second inflow unit 300 includes a second inflow unit main body 310, a fixed disk 320, a rotating disk 330, and a rotating unit 340 ).

One or more water inlet pipes 311 may be formed on one side of the second inflow section main body 310 as in the embodiment shown in FIGS. Two water inflow pipes 311 may be formed in the second inflow section main body 310 as shown in the illustrated embodiment. Also, as shown in the illustrated embodiment, cold water may be introduced into one water inlet pipe 311 and purified water may be introduced into the other water inlet pipe 311. However, the number of the water inflow pipes 311 formed in the second inflow section main body 310 is not limited to the illustrated embodiment, and any number of the inflow pipes 311 may be used. The connection pipe 312 may be formed on the other side of the second inflow unit main body 310 as shown in the illustrated embodiment. Thus, a selected one of the one or more water temperatures below the hot water flow into the water inlet pipe 311 may flow into the connection pipe 312. In the illustrated embodiment, a selected one of the cold water or purified water introduced into the two water inlet pipes 311 may flow to the connection pipe 312.

The fixed disk 320 may be fixed to the interior of the second inlet body 310 as in the embodiment shown in FIGS. The fixed disk 320 may be integrally formed with the second inlet main body 310 and fixed to the inside of the second inlet main body 310 as shown in the illustrated embodiment. However, the method of fixing the fixed disk 320 to the inside of the second inlet main body 310 is not limited to the one in which the fixed disk 320 is formed integrally with the second inlet main body 310, But any member can be used as long as it is fixed to the inside of the second inflow unit main body 310. The fixed disk 320 may have at least one flow control hole 321 connected to one or more water inlet pipes 311 formed in the second inlet main body 310, as shown in the illustrated embodiment. Two water inflow pipes 311 may be formed in the second inflow section main body 310 so that cold water or purified water may be introduced as in the illustrated embodiment. Accordingly, the fixed disk 320 may be provided with two flow control holes 321 so as to be connected to the two water inlet pipes 311, respectively. However, the number of the flow rate adjusting holes 321 formed in the fixed disk 320 is not limited to the illustrated embodiment, and any number of the flow rate adjusting holes 321 may be provided. 4, a portion where the water inlet pipe 311 of the second inlet main body 310 and the flow control hole 321 of the fixed disk 320 are connected may be formed in multiple stages . The flow rate adjusting hole 321 of the fixed disk 320 connected to the water inflow pipe 311 of the second inflow section main body 310 and the flow rate adjusting hole 321 of the flow rate adjusting hole 321 of the fixed disk 320, The inflow of water at a lower temperature than the hot water to the second inflow section main body 310 through the connection hole 331 of the rotating disk 330 connected to the second inflow section main body 321 can be smoothly performed.

4, the flow rate adjusting hole 321 formed in the fixed disk 320 may be formed to be long in the circumferential direction of the fixed disk 320. The flow rate adjusting hole 321 of the fixed disk 320 may be formed so as to be reduced in size in one direction as shown in the illustrated embodiment. Since the flow rate adjusting hole 321 is formed so that the flow rate adjusting hole 321 is reduced in size in the one direction, the flow rate adjusting hole 321 is formed through the water inflow pipe 311, the flow rate adjusting hole 321 and the connection hole 331, The flow rate of the water flowing into the sub-main body 310 at a lower temperature than the hot water can be adjusted.

The rotating disk 330 may be rotatably disposed inside the second inlet main body 310 as shown in FIGS. 3 and 4. The connection hole 331 may be formed in the rotary disk 330 as shown in the illustrated embodiment. The connection hole 331 of the rotary disk 330 is connected to one of the one or more flow control holes 321 formed in the fixed disk 320 according to the rotation position of the rotary disk 330, 321). Accordingly, one of the water having a temperature lower than the hot water, which can be introduced through the at least one water inflow pipe 311 formed in the second inflow section main body 310, is selected and introduced into the second inflow section main body 310 Or any water having a temperature lower than the hot water may not flow into the second inflow section main body 310. 5 (a), if the connection hole 331 of the rotary disk 330 is not connected to any of the flow control holes 321 of the fixed disk 320, Any of the cold water or purified water that can be introduced into the two water inlet pipes 311 of the main body 310 is connected to the connection hole 331 of the rotating disk 330 and the flow rate adjusting hole 321 of the fixed disk 320 The second inflow unit main body 310 is not allowed to flow. 5 (b), a connection hole 331 of the rotary disc 330 is formed on the right side of the fixed disc 320 as viewed in the drawing, and a water inlet pipe 311 through which cold water can be introduced, The cold water flows through the water inlet pipe 311 and the flow rate adjusting hole 321 of the fixed disk 320 and the connection hole 331 of the rotary disk 330, And flows into the second inflow section main body 310 through the second inflow section main body 310. 5 (c), the connection hole 331 of the rotary disk 330 is formed on the left side of the fixed disk 320 as viewed in the drawing, and a water inflow pipe 311, The flow control hole 321 of the fixed disk 320 connected to the water inlet pipe 311 and the connection hole 331 of the rotation disk 330 are connected to the flow rate adjusting hole 321, And flows into the second inflow section main body 310 through the second inflow section main body 310. In this manner, one of at least one water at a temperature lower than the hot water, which can be introduced through the at least one water inflow pipe 311 of the second inflow section main body 310, is selected and introduced into the second inflow section main body 310 . Therefore, as described later, the temperature of the lukewarm water mixed with the hot water flowing through the first inlet 200 can be adjusted. For example, when the cold water flows into the second inflow section main body 310, the temperature of the lukewarm water mixed with the hot water may be relatively low, and when purified water flows into the second inflow section main body 310, The temperature of the lukewarm water may be relatively high.

Meanwhile, as described above, the flow rate adjusting hole 321 of the fixed disk 320 connected to the connection hole 331 of the rotary disk 330 is formed long in the circumferential direction and can be reduced in size in one direction. 5, the size of the flow rate adjusting hole 321 of the fixed disk 320 connected to the connection hole 331 of the rotary disk 330 may vary according to the rotational position of the rotary disk 330 have. That is, at the rotational position of the rotating disk 330 shown in FIG. 5 (d) than the rotational position of the rotating disk 330 shown in FIG. 5 (b), the connecting hole 331 of the rotating disk 330, The size of the flow rate regulating hole 321 of the fixed disk 320 connected to the regulator 320 becomes smaller. 5 (d) than the flow rate of the water flowing into the second inflow section main body 310 at a position lower than that of the hot water flowing from the second inflow section main body 310 at the position shown in FIG. 5 (b) The flow rate of the water having a lower temperature than that of the hot water, Since the flow rate of the water flowing into the second inflow section main body 310 at a lower temperature than the hot water flow rate can be adjusted as described above, the hot water mixed with the hot water flowing through the first inflow section 200 Can be controlled. The flow rate of the lukewarm water mixed with the hot water can also be adjusted. Therefore, the user can supply the user with the lukewarm water of the desired temperature or flow rate.

The rotating means 340 may be connected to the rotating disk 330 as in the embodiment shown in FIGS. The rotating disk 330 can be rotated by the rotating means 340 as described above. The rotating unit 340 includes a motor 341 and a connecting member 342 connected to the rotating disk 330 at one end and connected to the motor 341 at the other end, And a spring 343 provided between the rotating disk 330 and the motor 341 so as to be in close contact with the fixed disk 320. However, the configuration of the rotating unit 340 is not limited to the present embodiment, and any configuration is possible as long as it is connected to the rotating disk 330 to rotate the rotating disk 330.

3 and 4, an O-ring 350 may be positioned between the fixed disk 320 and the rotating disk 330 to prevent water leakage.

One side of the discharge part 400 may be connected to the first inlet part 200 and the other side may be connected to the second inlet part 300. Accordingly, hot water may flow into the discharge part 400 through the first inlet part 200, or may be discharged through the second inlet part 300 at a temperature lower than that of the hot water selected from one or more water at a temperature lower than the hot water Water may be introduced. Therefore, hot water or hot water produced by mixing hot water and water at lower temperature than hot water may be discharged through the discharge unit 400. [ For this purpose, the discharge unit 400 may include a second valve 410 and a discharge pipe 420, as shown in FIGS. 1 and 2.

One side of the second valve 410 may be connected to a connection pipe 312 formed in the second inlet main body 310 as in the embodiment shown in FIGS. Thus, a water temperature lower than that of hot water, which is selected from among at least one water lower in temperature than the hot water and introduced into the second inlet main body 310, which can be introduced through one or more water inlet pipes 311 as described above, May flow to the second valve (410) through the connection pipe (312). In the illustrated embodiment, one of the cold water or purified water, which may be introduced through each of the two water inlet pipes 311, is introduced into the second inlet main body 310 through the connection pipe 312, (Not shown).

The discharge pipe 420 may be connected to the other side of the second valve 410 described above. Thus, a water temperature lower than that of hot water, which is selected from among at least one water lower in temperature than the hot water and introduced into the second inlet main body 310, which can be introduced through one or more water inlet pipes 311 as described above, May flow to the discharge pipe 420 through the second valve 410 and may be discharged to the outside. In the illustrated embodiment, the cold water or purified water that can be introduced through each of the two water inlet pipes 311 and is introduced into the second inlet main body 310 is discharged through the second valve 410 to the discharge pipe 420, . ≪ / RTI > The first valve 220 of the first inlet 200 may be connected to the discharge pipe 420 as described above. Therefore, hot water introduced into the hot water supply pipe 210 can also flow to the discharge pipe 420 through the first valve 220. Therefore, when the second valve 410 is closed with the first valve 220 opened, the hot water flows into the discharge pipe 420 and can be discharged to the outside. When the second valve 410 is opened with the first valve 220 closed, one or more water having a temperature lower than that of the hot water flowing into the second valve 410 is selected to be supplied to the second inlet main body 310 The inflow may flow to the discharge pipe 420 and be discharged to the outside. In the illustrated embodiment, the cold water or purified water is selected and flows into the second inflow unit main body 310 through the discharge pipe 420 and may be discharged to the outside. When both the first valve 220 and the second valve 410 are opened, the hot water flows into the discharge pipe 420 through the first valve 220 and the hot water flows through the second valve 410 One of the at least one water of the temperature and flows into the second inflow section main body 310 is introduced into the discharge pipe 420. In the illustrated embodiment, one selected from cold water or purified water flows into the second inflow unit main body 310 and flows into the discharge pipe 420. Thus, warm water and water at a lower temperature than hot water, cold water or purified water in the illustrated embodiment, may be mixed at the outlet pipe 420 to produce lukewarm water. The generated lukewarm water can flow through the discharge pipe 420 and be discharged to the outside.

Hereinafter, the operation of an embodiment of the valve apparatus 100 capable of discharging lukewarm water according to the present invention will be described with reference to FIGS. 6A to 6D.

When the first valve 220 and the second valve 410 are both closed and the connection hole 331 of the rotary disk 330 is connected to either one of the two flow control holes 321 of the fixed disk 320, The hot water supply pipe 210 of the first inlet portion 200 is connected to the hot water supply source (not shown) and the second inlet portion 300 of the second inlet portion 300 is connected to the hot water supply source The two water inlet pipes 311 of the main body 310 are connected to a cold water supply source (not shown) and a purified water supply source (not shown), respectively.

The hot water flows to the first valve 220 through the hot water supply pipe 210 of the first inflow part 200 and the cold water or the purified water flows through the two water inflow pipes 311 of the second inflow part main body 310, And flows to each of the flow rate adjusting holes 321 of the fixed disk 320 connected thereto.

In this state, when the first valve 220 is opened, the hot water flows to the discharge pipe 420 connected to the first valve 220 through the first valve 220 as shown in FIG. 6A and is discharged to the outside.

6B, when the first valve 220 is closed and the second valve 410 is opened, the connection hole 331 of the rotary disk 330 is connected to the flow control hole (not shown) of the fixed disk 320 The cold water is introduced into the second inflow portion main body 310 through the connection hole 331 of the rotary disk 330. In this case, The cold water flowing into the second inlet main body 310 flows to the second valve 410 through the connection pipe 312 and flows into the outlet pipe 420 connected to the second valve 410 through the second valve 410, And is discharged to the outside. In this case, when the connection hole 331 of the rotating disk 330 is connected to the flow rate control hole 321 of the fixed disk 320, the rotation position of the rotation disk 330 is adjusted to the connection hole 331 By adjusting the size of the flow control hole 321 to be connected, the flow rate of cold water discharged can be adjusted as described above.

6C, when the first valve 220 is closed and the second valve 410 is opened, the connection hole 331 of the rotary disk 330 is connected to the flow control hole 331 of the fixed disk 320, The purified water flows into the second inflow section main body 310 through the connection hole 331 of the rotating disk 330 when the purified water in the first inflow section 321 is connected to the flow rate adjusting hole 321. The purified water flowing into the second inflow section main body 310 flows to the second valve 410 via the connection pipe 312 and flows into the discharge pipe 420 connected to the second valve 410 through the second valve 410, And is discharged to the outside. In this case, when the connection hole 331 of the rotary disc 330 is connected to the flow control hole 321 of the fixed disc 320, the rotation position of the rotary disc 330 is adjusted to the connection hole 331, The flow rate of the purified water discharged can be adjusted as described above.

6D, when the first valve 220 and the second valve 410 are both opened, the connection hole 331 of the rotary disk 330 is connected to the flow control hole (not shown) of the fixed disk 320 The hot water flows into the discharge pipe 420 through the first valve 220 and the cold water flows into the connection hole 331 of the rotary disk 330 Passes through the second inflow section main body 310, the connecting pipe 312 and the second valve 410 and flows into the discharge pipe 420. Therefore, hot water and cold water are mixed in the discharge pipe 420 to generate lukewarm water. Accordingly, the lukewarm water is discharged to the outside through the discharge pipe 420.

In this case, the flow rate of the cold water flowing into the discharge pipe 420 may be adjusted by adjusting the size of the flow rate adjusting hole 321 connected to the connection hole 331 by adjusting the rotational position of the rotary disk 330 as described above And the temperature and flow rate of the generated hot water can be adjusted.

6D, when the first valve 220 and the second valve 410 are both opened, the connection hole 331 of the rotary disk 330 is connected to the flow control hole (not shown) of the fixed disk 320 The hot water flows into the discharge pipe 420 through the first valve 220 and the purified water flows into the connection hole 331 of the rotary disk 330 Passes through the second inflow section main body 310, the connecting pipe 312 and the second valve 410 and flows into the discharge pipe 420. Therefore, hot water and purified water are mixed in the discharge pipe 420 to generate lukewarm water. Accordingly, the lukewarm water is discharged to the outside through the discharge pipe 420.

In this case, by regulating the rotational position of the rotary disk 330 and adjusting the size of the flow rate adjusting hole 321 connected to the connection hole 331 as described above, the flow rate of the purified water flowing into the discharge pipe 420 can be adjusted And the temperature and flow rate of the generated lukewarm water can be adjusted accordingly. When the lukewarm water is discharged, the connection hole 331 of the rotary disk 330 is connected to the smallest portion of the flow control hole 321 through which the cold water or the purified water from the fixed disk 320 flows, It is preferable to rotate the rotary disk 330 to rotate the rotary disk 330 so that the rotary disk 330 is connected to the gradually larger portion so that the flow rate of cold water or purified water mixed at the beginning of the lukewarm water generation can be appropriately adjusted.

As described above, when the valve device 100 capable of discharging lukewarm water according to the present invention is used, hot water can be mixed with water having a temperature lower than that of the hot water to generate lukewarm water and then discharged. Also, it is possible to discharge lukewarm water having a lower temperature than hot water or hot water or hot water mixed with hot water and lower temperature water than hot water. The temperature and the flow rate of the lukewarm water can be controlled by selecting water having a temperature lower than that of the hot water, which is mixed with the hot water, or adjusting the flow rate of the water having a temperature lower than the hot water mixed with the hot water.

The valve device capable of discharging lukewarm water as described above is not limited to the configuration of the embodiment described above, but the embodiments may be modified such that all or some of the embodiments are selectively combined .

1 is a perspective view of an embodiment of a valve device capable of discharging lukewarm water according to the present invention.

2 is a rear perspective view of a valve device capable of discharging lukewarm water according to an embodiment of the present invention.

3 and 4 are exploded perspective views of a second inlet of a valve device capable of discharging lukewarm water according to the present invention.

5 is a view showing the operation of the fixed disk and the rotating disk of the second inlet of the valve device capable of discharging lukewarm water according to the present invention.

6A to 6D are views showing the operation of an embodiment of the valve device according to the present invention.

        Description of the Related Art [0002]

100: valve device 200: first inlet

210: hot water supply pipe 220: first valve

300: second inflow part 310: second inflow part main body

311: Water inlet pipe 312: Connection pipe

320: fixed disk 321: flow rate adjusting hole

330: rotating disc 331: connecting hole

340: rotating means 341: motor

342: connecting member 343: spring

350: O-ring 400:

410: second valve 420: discharge pipe

Claims (6)

A first inflow part 200 into which hot water flows; A second inlet (300) through which one of at least one water having a lower temperature than hot water flowing into the first inlet (200) is selected and the flow rate of the incoming water can be adjusted; And And the other side is connected to the second inflow part 300, and the lukewarm water generated by mixing the water of the temperature lower than the hot water or the hot water and the water of the lower temperature than the hot water is discharged (400); And, The second inflow part 300 includes a second inflow part main body 310 having at least one water inflow pipe 311 formed at one side thereof and a connection pipe 312 at the other side thereof and at least one water inflow pipe 311, A fixed disk 320 having one or more flow rate adjusting holes 321 formed therein and fixed to the inside of the second inlet unit main body 310 and a fixed disk 320 fixed to one of the one or more flow rate adjusting holes 321 A rotary disk 330 rotatably installed in the second inlet main body 310 and a rotary disk 330 for rotating the rotary disk 330. The rotary disk 330 is rotatably mounted on the rotary disk 330, And a rotating means (340) connected to the valve means. The apparatus of claim 1, wherein the first inlet (200) A hot water supply pipe 210 connected to the hot water supply source; And A first valve 220 connected to the hot water supply pipe 210 at one side and to a discharge pipe 420 included at the discharge unit 400 at the other side; And a valve unit for discharging lukewarm water. delete The valve device according to claim 1, wherein the at least one flow rate adjusting hole (321) is formed to be long in a circumferential direction of the fixed disk (320) and is reduced in size in one direction. The valve device according to any one of claims 1 to 4, wherein the water inlet pipe (311) and the flow rate adjusting hole (321) are connected to each other at a plurality of stages. 3. The apparatus of claim 1, wherein the outlet (400) A second valve 410 having one side connected to a connection pipe 312 formed in a second inflow portion main body 310 included in the second inflow portion 300; And A discharge pipe 420 connected to the other side of the second valve 410; Wherein the valve body is provided with a valve body.

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