ES2647459T3 - Cold water tank and water treatment device containing it - Google Patents

Abstract

A cold water tank comprising: a tank body (200); a water inlet tube (300) provided in the tank body (200) to transport water to the tank body (200); a water outlet tube (400) provided in the tank body (200) to transport the water out of the tank body (200); a vent hole (410); and a floating member (500) movably provided to block the vent hole (410) when the water filling the tank body (200) reaches a height of the vent hole (410), characterized in that the outlet tube of water (400) includes the vent hole (410), and because the floating member (500) is movably provided in the water outlet tube (400).

Description

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DESCRIPTION

Cold water tank and water treatment apparatus containing it Background of the invention Field of the invention

The present invention relates to a cold water tank and a water treatment apparatus that has it. From DE 14 59 535, a cold water tank is known according to the preamble of claim 1.

Description of the related technique

Cold water tanks refer to the devices, which are connected or include refrigeration units to cool the water introduced into them, and drain the cooled water out of the tanks.

Referring to Figures 1A and 1B, a cold water tank may include a tank body 20 that receives and stores water, a water inlet tube 30 provided in the tank body 20 for transporting water to the tank body 20, and a water outlet tube 40 provided in the tank body 20 for transporting water out of the tank body 20, and having a vent hole 41 formed in its upper portion.

The water inlet tube 30, as shown in Figures 1A and 1B, has one of its ends located in the upper portion of the tank body 20, thereby facilitating the entry of water into the tank body 20. The Water outlet tube 40 has one of its ends located in the lower portion of the tank body 20, and this allows users to provide the water existing in the lower portion of the tank body 20 at a relatively low temperature. As shown in the drawings, a refrigerant tube 60 as a refrigeration unit is wound around the circumference of the tank body 20 to cool the water in the tank body 20. That is, the water, which has entered the body of the tank 20 through the water inlet tube 30, it is cooled by heat exchange with a refrigerant flowing in the refrigerant tube 60. The water cooled in the above manner is discharged out of the body of the tank 20 through the tube water outlet 40.

While water flows into the tank body 20 through the water inlet tube 30, as shown in Figure 1A, the air inside the tank body 20 passes through the vent hole 41 in the upper portion of the water pipe. water outlet 40 and exits the tank body 20 through the water outlet tube 40. As shown in Figure 1B, if the tank body 20 is completely filled with water, all the air in the tank body 20 exits through the water outlet tube 40 through the vent hole 41. If, in this state, water in the lower portion of the tank body 20 is discharged through the water outlet tube 40 to supply cooled water to a user, then the water in the upper portion of the tank body 20 undesirably passes through the vent hole 41 and drains through the water outlet tube 40.

As described above, the water that exists in the upper portion of the tank body 20 may have a different temperature from the water existing in the lower portion of the tank body 20. That is, the water in the upper portion of the tank body 20 has a higher temperature than the water in the lower portion of the tank body 20.

Accordingly, as described with reference to Figure 1B, in the event that the water in the upper portion of the tank body 20 passes through the vent hole 41 and drains through the water outlet tube 40, the water in the upper portion and the water in the lower portion, which have different temperatures, can be undesirably mixed in the water outlet tube 40. That is, the water existing in the upper portion of the tank body 20 can be supplied at a temperature relatively high, mixed with the water in the lower portion of the tank body 20 at a relatively low temperature. This may result in the water supply having a temperature higher than desired.

The above limitations may also be caused in water treatment devices that include the cold water tank 10, such as water purifiers or water ionizers.

Summary of the invention

Accordingly, the present invention is directed to a cold water tank and a water treatment apparatus containing it, which substantially avoids one or more problems due to the limitations and disadvantages of the related art.

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One aspect of the present invention provides a cold water tank and a water treatment apparatus containing it, which can prevent water in the upper portion of the tank body from flowing into a water outlet pipe through a hole. of ventilation in the water outlet pipe provided in the tank body of a cold water tank.

One aspect of the present invention also provides a cold water tank and a water treatment apparatus containing it, which can prevent water, existing in the lower portion of the tank body at a relatively low temperature, from mixing with the water in the upper portion of the tank body at a relatively high temperature.

One aspect of the present invention also provides a cold water tank and a water treatment apparatus containing it, which can supply the water that exists only in the lower portion of the tank body at a relatively low temperature for the user.

A cold water tank associated with an exemplary embodiment may have the following characteristics to perform at least one of the above aspects.

The present invention is basically based on blocking a ventilation hole in a water outlet tube disposed in the tank body of a cold water tank, using a floating member.

In accordance with one aspect of the present invention, a cold water tank is provided which includes: a tank body; a water inlet tube provided in the tank body to transport water to the tank body; a water outlet tube provided in the tank body for transporting water out of the tank body, and that includes a vent hole; and a floating member provided movably in the water outlet tube to block the vent hole when the water that fills the tank body reaches the height of the vent hole.

The water outlet tube may be provided with a plug that prevents the floating member from descending to a predetermined or lower height.

The tank body may be provided with a receiving part that receives the floating member as the floating member ascends, and the ventilation hole may be formed at the same height as the receiving part, in the water outlet tube.

The receiving part may be provided with a blocking member that includes another ventilation hole.

The water inlet tube may be connected to a water treatment apparatus that includes one or more water filters to transport the water filtered by the water filters into the tank body.

The water inlet tube can be connected directly to an outlet of the last water filter between one or more water filters, and the water in the tank body can be drained from the tank body through the water outlet tube by pressure of water discharged from the last water filter outlet.

In accordance with another aspect of the present invention, a water treatment apparatus is provided which includes: a water source that supplies water; and a cold water tank connected to the water supply source and which receives and discharges water by the pressure of the water supplied by the water supply source.

The water treatment apparatus may further include one or more water filters connected between the water supply source and the cold water tank, and the cold water tank may be connected to an outlet of the last water filter between one or more water filters.

Brief description of the drawings

The foregoing and other aspects, features and other advantages of the present invention will be more clearly understood from the following detailed description taken together with the accompanying drawings, in which:

Figure 1A illustrates a cold water tank of the related art when the tank body of a cold water tank is partially filled with water;

Figure 1B illustrates the cold water tank of the related art when the body of the cold water tank tank is completely filled with water;

Figure 2A illustrates a cold water tank in accordance with an exemplary embodiment of the present

invention, when the tank body of a cold water tank is partially filled with water;

Figure 2B illustrates the cold water tank of Figure 2A, when the body of the cold water tank tank

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it is completely full of water;

Figure 3A illustrates a cold water tank according to another exemplary embodiment of the present invention, when the body of a cold water tank tank is partially filled with water; Figure 3B illustrates the cold water tank of Figure 3A, when the tank body of a cold water tank is completely filled with water;

Figure 3C illustrates a cold water tank according to another exemplary embodiment of the present invention, which includes a receiving part with a modified form;

Figure 4A illustrates a cold water tank according to another exemplary embodiment of the present invention, when the body of a cold water tank tank is partially filled with water; Figure 4B illustrates the cold water tank of Figure 4A, when the tank body of a cold water tank is completely filled with water; Y

Figure 5 illustrates a water treatment apparatus according to an exemplary embodiment of the present invention, which includes the cold water tank depicted in Figure 3A.

Detailed description of the preferred embodiment

For a better understanding of the features of the present invention, exemplary embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

Hereinafter, the preferred embodiments of the present invention will be described with reference to the accompanying drawings to fully explain the technical characteristics of the present invention. However, the invention can be carried out in many different ways and should not be construed as limited to the embodiments set forth herein. On the contrary, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Similar reference numbers in the drawings denote similar elements.

The embodiments associated with the present invention are basically based on blocking a ventilation hole formed in a water outlet tube provided in a tank body of a cold water tank, using a floating member.

As in the exemplary embodiments depicted in Figures 2A to 4B, a cold water tank may include a tank body 200, a water inlet tube 300, a water outlet tube 400 and a floating member 500.

The tank body 200 can be connected directly to a water supply source such as a tap through the water inlet tube 300. The water inlet tube 300 can be connected to a water treatment apparatus such as a water purifier. water or a water ionizer. A refrigerant tube 600 as the refrigeration unit is wound around the circumference of the tank body 200 to cool the water introduced into the tank body 200. That is, the water in the tank body 200 can be cooled by heat exchange. between a refrigerant flowing in the refrigerant tube 600 and the water in the tank body 200. However, the cooling unit that cools the water that has entered the tank body 200 is not limited to the refrigerant tube 600 of this embodiment, and any device can be used as long as it is able to cool the water in the tank body 200.

As in the exemplary embodiments shown in Figures 2A to 4B, the water inlet tube 300 may be provided in the body of the tank 200 to transport water to the body of the tank 200. The water inlet tube 300, as As described above, it can be connected directly to a water supply source such as a tap or it can be connected to a water treatment apparatus. In this case, a water treatment apparatus 700 as in an embodiment represented in Figure 5 may include one or more water filters 710. Therefore, the water filtered by the water filter 710 may enter the body of the tank 200 In addition, as in the embodiment shown in Figure 5, the water inlet tube 300 can be connected directly to the outlet of the last water filter 710 between one or more water filters 710. That is, the water treatment apparatus 700 connected to the water inlet tube 300 can be a tankless water purifier without a purified water storage tank that stores the water filtered by the water filter 710. In this case, the water can be discharged from the tank body 200 through the water outlet pipe 400 by the water discharge pressure from the outlet of the last water filter 710. However, the water treatment apparatus 700 connected to the water inlet tube 300 is not limited to the tankless water purifier shown in Figure 5, and it may be a water purifier that includes a purified water storage tank (not shown), or a water ionizer. Any device can serve as the water treatment apparatus 700, provided that it can be connected to the water inlet tube 300 and supply water to the tank body 200.

As shown in Figures 2A to 4B, the water inlet tube 300 may be provided in the body of the tank 200 with one of its ends located in the upper portion of the body of the tank 200. This may facilitate the entry of water to the tank body 200.

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As in the embodiments depicted in Figures 2A to 4B, the water outlet tube 400 may be provided in the body of the tank 200 so that water entering and cooling in the body of the tank 200 can drain out of the body of the tank 200. In addition, the water outlet tube 400 may be connected to a tap 720 as in the embodiment shown in Figure 5, or to a faucet (not shown) to supply the chilled water in the tank body 200 to a user . Accordingly, the water received and cooled in the tank body 200 drains through the water outlet tube 400 and can be supplied to a user through the tap 720, a faucet or the like connected to the water outlet tube 400.

As shown in Figures 2A to 4B, the water outlet tube 400 may be provided in the tank body 200 with one of its ends located in the lower portion of the tank body 200. This allows the user to provide the existing water in the lower portion of the tank body 200 at a relatively low temperature.

As in the embodiments depicted in Figures 2A to 4B, a vent hole 410 may be formed in the upper portion of the water outlet tube 400. Accordingly, when water enters the body of the tank 200 through the inlet tube of water 300, the air in the tank body 200 can pass through the vent hole 410 and out of the tank body 200 through the water outlet tube 400.

As in the embodiments depicted in Figures 2A to 4B, a floating member 500 may be provided movably in the water outlet tube 400. The floating member 500 may move up and down with respect to the water outlet tube 400 according to the level of water in the tank body 200. If, as shown in Figures 2B and 3B, the water entering the body of the tank 200 reaches the height of the vent hole 400 of the outlet pipe of water 400, the floating member 500 ascends along the water outlet pipe 400 at the surface of the rising water, thereby blocking the vent hole 410. This can prevent water from the upper portion of the tank body 200 from draining through the water outlet tube 400 through the vent hole 410 of the water outlet tube 400.

As in the embodiments depicted in Figures 2A to 4B, the water outlet tube 400 may be provided with a stop 510. The stop 510 may prevent the floating member 500 from descending to a predetermined or lower height as the level drops of water in the tank body 200.

As in the embodiment depicted in Figures 3A and 3B, the body of the tank 200 may include a receiving part 210 that receives the floating member 500 that has ascended. In this case, the air vent hole 410 as shown in Figures 3A and 3B may be formed in the water outlet tube 400 at the same height as the receiving part 210. The receiving part 210, as shown in Figures 3A and 3B may have a quadrangular shape, that is, a shape with a constant width regardless of height. Alternatively, the receiving part 210 may have a triangular shape as shown in Figure 3C, that is, a shape that decreases in width with height. In this case, the floating member 500 may also have a shape corresponding to the shape of the receiving part 210. However, the shapes of the receiving part 210 and the floating member 500 are not limited to this embodiment, and any shape can be applied if it ensures the blocking of the vent hole 410 while facilitating the housing of the floating member 500 in the receiving part 210.

As in the embodiment depicted in Figures 4A and 4B, the receiving part 210 may include a blocking member 420, and another vent hole 410 'may be formed in the blocking member 420. In this case, when the body of the tank 200 is filled with water as shown in Figure 4B, the floating member 500 blocks the vent hole 410 'of the blocking member 420 with its rise prevented by the blocking member 420. This prevents the water in the upper body portion of the tank 200 pass through the two ventilation holes 410 and 410 'and drain through the water outlet pipe 400.

The water treatment apparatus 700, which includes the cold water tank 100 according to an exemplary embodiment of the present invention, may include a water supply source that supplies water, and the cold water tank 100 above connected to the water supply source and receiving and discharging water by the pressure of the water supplied by the water supply source. For example, the water supply source may be a tap or the like, and the water inlet tube 300 provided in the body of the tank 200 of the cold water tank 100 may be connected to the water supply source such as a tap. Accordingly, water supplied from the water supply source such as a tap can be introduced into the cold water tank 100 through the water inlet pipe 300. Water introduced into the cold water tank 100 in this way can cooling by heat exchange with a refrigerant flowing in the refrigerant tube 600 provided in the body of the tank 200 of the cold water tank 100. The water cooled in the cold water tank 100 can be discharged through the water outlet tube 400 provided in the body of the tank 200 of the cold water tank 100 by the water supply pressure of the water supply source.

As in the embodiment depicted in Figure 5, the water treatment apparatus 700 that includes the cold water tank 100 according to an exemplary embodiment of the present invention may further include one or more water filters 710 connected between a water supply source (not shown) and the cold water tank 100. That is, the water treatment apparatus 700 according to an exemplary embodiment of the

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The present invention may include a water supply source (not shown), one or more water filters 710 and the cold water tank 100. In this case, the cold water tank 100 can be connected to the outlet of the last water filter 710 of one or more water filters 710.

The water treatment apparatus 700 according to the embodiment of Figure 5 is illustrated as a tankless water purifier that does not include a purified water storage tank that stores the water filtered by the water filter 710, and in the that the water is filtered, which enters the water filter 710 by the pressure of the water entering the water treatment apparatus 700. However, the water treatment apparatus 700, which includes the cold water tank 100 according With an exemplary embodiment of the present invention, it is not limited to the embodiment shown, and you can use a water purifier that includes a purified water storage tank or a water ionizer.

As in the embodiment shown in Figure 5, the water treatment apparatus 700 may include one or more water filters 710. In addition, as in the embodiment shown, the last water filter 710 of one or more water filters 710 an outlet can be connected to the cold water tank 100 according to the present invention, that is, the water inlet tube 300 of the cold water tank 100. Accordingly, the water filtered by the one or more water filters 710 The body of the tank 200 of the cold water tank 100 can enter the water inlet tube 300. The water entering the body of the tank 200 can be cooled by heat exchange with the refrigerant flowing into the refrigerant tube 600 provided in tank body 200.

As in the embodiment shown in Figure 5, the water outlet pipe 400 of the cold water tank 100 according to the present invention can be connected to a tap 720. Accordingly, the cooled water in the tank body 200 of the tank of cold water 100 can be discharged through the water outlet tube 400 and supplied to a user through the tap 720 connected to the water outlet tube 400.

Hereinafter, the operation of the cold water tank 100 and the water treatment apparatus 700 containing it will be described.

When the water enters the water treatment apparatus 700 according to the embodiment of Figure 5, the water is filtered while passing through one or more water filters 710 in the water treatment apparatus 700.

Water filtered by the one or more water filters 710 is introduced into the body of the tank 200 through the water inlet tube 300 provided in the body of the tank 200 of the cold water tank 100 as shown in Figures 2A a 4B. As the water enters the interior of the tank body 200, the air of the tank body 200, as shown in Figures 2A and 3A, passes through the vent hole 410 formed in the water outlet tube 400 provided in the body of the tank 200, and leaves the body of the tank 200 through the water outlet tube 400. In the case of the embodiment depicted in Figure 4A, the air leaves the body of the tank 200 after passing through the vent hole 410 'formed in the blocking member 420 and the vent hole 410 formed in the water outlet tube 400.

The floating member 500 is provided mobilely in the water outlet tube 400. As the water level in the body of the tank 200 increases due to the entry of water, the floating member 500 also rises along the tube water outlet 400. In the case of the embodiment represented in Figures 3A and 3B, the floating member 500 that rises with the increase of the water level in the body of the tank 200 blocks the vent hole 410 formed in the upper portion of the water outlet pipe 400 when the tank body 200 is completely filled with water. In addition, in the case of the embodiment shown in Figure 4B, the floating member 500 blocks the vent hole 410 'formed in the blocking member 420. In this state, the water cooled in the tank body 200 is supplied to a user by the pressure of the water entering the body of the tank 200 of the cold water tank 100. At this time, the floating member 500 blocks the vent hole 410 in the case of the embodiments depicted in Figures 2B and 3B, and block the vent hole 410 'in the case of the embodiment shown in Figure 4B. Consequently, the water in the upper portion of the tank body 200 does not enter the water outlet tube 400 through the air vents 410 and 410 '. This prevents mixing of the water in the lower portion of the tank body 200 and the water in the upper portion of the tank body 200. Only one user is supplied with water from the lower portion of the tank body 200 through the tube of water outlet 400, and from tap 720 in the case of the embodiment shown in Figure 5. Consequently, a user can be provided with the water that exists in the lower portion of the tank body 200 at a relatively low temperature.

In the cases of Figures 2B and 3B, the water that drains through the water outlet tube 400 can pass through the vent hole 410 of the water outlet tube 400 and apply pressure to the floating member 500. This can move the floating member 50, creating a space between the floating member 500 and the vent hole 410. The space can lead to the water inlet to be drained through the water outlet tube 400.

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However, in the case of Figure 4B, the floating member 500 blocks the vent hole 410 'with its rise prevented by the blocking member 420. Even if the water draining through the water outlet tube 400 passes to through the vent hole 410, no pressure is applied directly to the floating member 500. That is, the water that has passed through the vent hole 410 of the water outlet tube 400 reaches another vent hole 410 'after filling the part receiver 210. Accordingly, the water flowing through the water outlet tube 400 does not apply any direct pressure to the floating member 500, so that space is not created between the floating member 500 and the vent hole 410 '. Consequently, the water that drains through the water outlet pipe 400 is prevented from entering the body of the tank 200 again through the vent holes 410 and 410 '.

In accordance with the embodiments of the present invention, the cold water tank 100 and the water treatment apparatus 700 containing it, can prevent water in the upper portion of the tank body 200 from draining down the water outlet tube 400 through the vent hole 410 formed in the water outlet tube 400 provided in the tank body 200 of the cold water tank 100. This can prevent mixing of the water existing in the lower portion of the tank body 200 to a relatively low temperature with the water in the upper portion of the tank body 200 at a relatively high temperature. In addition, only the coldest water in the lower portion of the tank body 200 can be supplied to a user.

As stated above, in accordance with the exemplary embodiments of the invention, water from the upper portion of the tank body is prevented from passing through the vent hole formed in the water outlet tube provided in the body of the cold water tank and drain through the water outlet pipe.

In accordance with the exemplary embodiments of the present invention, it can be avoided that the water existing in the lower portion of the tank body at a relatively low temperature is mixed with the water existing in the upper portion of the tank body at a temperature relatively high

In accordance with the exemplary embodiments of the present invention, only the coldest water in the lower portion of the tank body can be supplied to a user.

Claims (8)

5 10 fifteen twenty 25 30 35 1. A cold water tank comprising: a tank body (200); a water inlet tube (300) provided in the tank body (200) for transporting water to the tank body (200); a water outlet tube (400) provided in the tank body (200) to transport the water out of the body of the tank (200); a vent hole (410); Y a floating member (500) mobilely provided to block the vent hole (410) when the water filling the tank body (200) reaches a height of the vent hole (410), characterized in that the water outlet tube (400) includes the vent hole (410), and that the floating member (500) is provided movably in the water outlet tube (400). 2. The cold water tank of claim 1, wherein the water outlet tube (400) is provided with a stop (510) that prevents the floating member (500) from descending to a predetermined or lower height. 3. The cold water tank of claim 1 or 2, wherein the body of the tank (200) is provided with a receiving part (210) that receives the floating member (500) as the floating member (500) ascends, and the ventilation hole (410) is formed at the same height as the receiving part (210), in the water outlet tube (400). 4. The cold water tank of claim 3, wherein the receiving part (210) is provided with a blocking member (420) which includes another vent hole (410 '). 5. The cold water tank of claim 1, further comprising a water treatment apparatus, wherein the water inlet tube (300) is connected to one or more water filters (710) included in the apparatus of water treatment (700) to transport the water filtered by the water filters (710) to the tank body (200). 6. The cold water tank of claim 5, wherein the water inlet tube (300) is directly connected to an outlet of the last water filter (710) between the one or more water filters (710), and the water in the tank body (200) drains out of the tank body (200) through the water outlet tube (400) by the pressure of the water discharged from the exit of the last water filter (710). 7. A water treatment apparatus comprising: a water supply source that supplies water; Y a cold water tank (100) of any one of claims 1 to 4, the cold water tank (100) that is connected to the water supply source and that receives and discharges the water by the pressure of the water supplied by The source of water supply. 8. The water treatment apparatus of claim 7, comprising one or more water filters (710) connected between the water supply source and the cold water tank (100), wherein the cold water tank (100) is connected to an outlet of the last water filter (710) between the one or more water filters (710).