KR200213800Y1 - a water cooling apparatus for a water purifier - Google Patents

Abstract

The present invention relates to a cooling device for a water purifier, which is built in the water purifier main body to cool water, and the conventional cooling device is a relatively simple form in which a cooling coil is installed around a cooling cylinder of a constant capacity. There was a problem that a certain time is required to cool the water stored in the water supply, so that a large amount of cold water cannot be supplied in a short time, and a refrigerant circulation coil is installed in the center of the cooling tube, and a heat absorbing plate and A cooling device has been proposed (Korea Patent Publication No. 1998-53406) to improve the cooling efficiency by installing an endothermic cylinder provided with a spiral plate, but this conventional cooling device is a refrigerant circulation coil inside a cooling cylinder. Various structures are installed to reduce the low capacity of the cooling cylinder, as well as the outer surface of the cooling cylinder of a large surface area Since the whole is exposed to the outside air, there is a problem that the overall cooling capacity is deteriorated. The distribution plate 13 having the vertical pipe 14 provided at the lower center is installed on the inner upper portion of the cooling tube 10, and the vertical pipe A spiral induction plate 15 is installed around the periphery 14, and a cold water extraction tube 16 is installed inside the vertical pipe 14, and a temperature sensor 17 is provided at the center of the outer lower end of the cooling tube 10. According to the present invention, which is characterized in that the installation and the like can be used as a cooling space to use almost the inside of the cooling tube 10 can increase the cooling capacity as well as the water supplied from the water supply tank 11 Since the cooling efficiency can be greatly improved by lowering the vortex, the water temperature does not rise even when continuously supplying cold water, and thus it is possible to obtain an effect such as being able to supply cold water at all times.

Description

Cooling device for water purifier {a water cooling apparatus for a water purifier}

The present invention relates to a cooling device for a water purifier, which is built in the water purifier body to cool water, and more particularly, in the case of winding a cooling coil in which a refrigerant is circulated around the cooling tank, It is about making it possible to cool more effectively.

In general, the water purifier to clean the drinking water can be divided into the faucet attachment type used by directly connecting to the faucet and the table type (non-piping type) that receives water from the glass complex and purifies it during the natural dropping process. According to water purification method, it can be divided into water direct connection type, natural filtration type, ion exchange resin type, distillation type, reverse osmosis type, ion number type type, etc.

In the above method, the direct connection of the water purifier is directly connected to the faucet so that water can be removed while passing through the micro filter and the silver activated carbon filter. It is difficult to remove substances (trihalomethane), chemical contaminants, and fine substances, and has the disadvantage of frequently changing the filter.

The reverse osmosis system applies pressure to water containing various impurities and filters water as it passes through the semi-permeable membrane and removes impurities as well as pollutants by purifying only pure water, dissolved oxygen and trace minerals. There is a disadvantage in that the water pump must be installed at a weak point and water pressure.

On the other hand, the ion exchange resin is a device that converts hard water into a single water using ion exchange resin, which is a high-tech material. The ionizer type is to attach purified water to the ionizer to separate purified water into alkaline and acid, and is mainly used for medical purposes.

The present invention relates to a water purifier for purifying water supplied from a tap water regardless of the above filtration method through a plurality of filters such as a precipitation filter, a sterilization filter, an ion filter, a carbon filter, a membrane filter, and a ceramic filter. Bars such as water purifiers are usually provided with a plurality of filters in the interior of the main body, the discharge cock is usually installed in the front center of the main body to discharge the purified water to the outside.

In addition, the water purifier main body is provided with a cooling device and a heating device to selectively supply cold and hot water, and a cooling device for supplying cold water is usually provided with a cooling coil in which a refrigerant is circulated around the cooling cylinder. One type is mainly used.

However, since a conventional cooling device has a relatively simple form in which a cooling coil is installed around a cooling cylinder of a predetermined capacity, a certain amount of time is required to cool the water stored in the cooling cylinder. There was a problem of being unable to supply.

In other words, when cold water is drawn out from a water purifier equipped with a conventional cooling device, initially stored water is supplied to a cooling container, but lukewarm water that has not been cooled is supplied after all cold water stored in the cooling container is drawn out. There was a problem that the discharge water temperature is higher as time passes.

In this regard, a cooling device is proposed in which a refrigerant circulation coil is installed at the inner center of the cooling tube, and an endothermic cylinder provided with a heat absorbing plate and a spiral plate is installed around the cooling tube to improve cooling efficiency (Korean Patent Laid-Open Publication No. 1998-53406 However, this conventional other cooling device is equipped with various structures including refrigerant circulation coils inside the cooling cylinder, which greatly reduces the low capacity of the cooling cylinder and exposes the entire outer surface of the cooling cylinder to the outside air. Rather, there was a problem that the overall cooling capacity is lowered.

The present invention has been devised in view of the above-described conventional situation, and an object thereof is to provide a cooling device for a water purifier capable of improving the cooling efficiency without reducing the low capacity of the cooling cylinder.

1 is an exploded perspective view of an embodiment of the present invention

2 is a longitudinal sectional view of the embodiment;

3 is a longitudinal sectional view of another embodiment of the present invention;

<Explanation of Signs of Major Parts of Drawings>

10: cooling container 11: water supply container

11a: inlet 11b: outlet

12 cooling coil 13: dispersion plate

14: vertical tube 14a: through hole

15: spiral guide plate 15a: through hole

16: cold water withdrawal pipe 17: temperature sensor

18 float valve 19 insulation member

In order to achieve the above object, the present invention provides a cooling coil in which a coolant is circulated around a cooling cylinder in which a supply cylinder is installed at an upper portion thereof, and a distribution plate having a vertical pipe provided at a lower portion of a central portion thereof is installed at an upper portion of the cooling cylinder. And, it characterized in that the installation of a spiral guide plate around the vertical pipe, and the like, the following detailed description based on the accompanying technical details as follows.

That is, one embodiment of the present invention is shown in Figures 1 and 2, the present invention is a cooling coil 12 in which the refrigerant is circulated around the outer periphery of the cooling cylinder 10 is installed in the upper water supply tank 11 ) Is provided, the distribution plate 13, which is provided with a vertical tube 14 in the lower center, is installed on the inner upper portion of the cooling tube 10, and the spiral guide plate 15 around the vertical tube 14 ) To install the cold water extraction pipe 16 in the interior of the vertical pipe (14), and to install the temperature sensor 17 in the center of the outer lower end of the cooling tube (10).

1 and 2, the inlet part 11a is provided at one side and the outlet part 11b is provided at the lower side to control the water supply inside the inlet part 11a of the water supply container 11 provided with the outlet part 11b. The float valve 18 is installed, and a plurality of through holes 14a are formed at the lower end of the vertical pipe 14 to allow the inside and the outside thereof to communicate with each other, and the cold water withdrawal pipe 16 installed inside the vertical pipe 14 is provided. ) Has a form bent to one side to be drawn out to the outside of the cooling cylinder 10, and also has a shape in which the heat insulating member 19 is installed on the outer circumference of the cooling cylinder (10).

Meanwhile, another embodiment of the present invention shown in FIG. 3 removes the dispersion plate 13 and the vertical tube 14 in the above-described embodiment, and includes a spiral guide plate 15 having a plurality of through holes 15a formed at the bottom thereof. It has a form in which the cold water draw pipe 16 is installed directly inside, and the reference numeral 20 in the drawing is an ice wall.

In the present invention configured as described above, when the water supplied to the cooling tube 10 through the outlet portion 11b of the water supply tank 11 is dispersed through the distribution plate 13 and falls to the lower portion, the spiral induction plate ( It is cooled while descending in a spiral along 15), and the cold water entering the inside of the vertical pipe 14 through the through-hole 14a provided at the lower end of the vertical pipe 14 to the outside through the water supply pipe 16. It will be able to withdraw.

The ice wall 20 is generated on the inner circumferential surface of the cooling cylinder 10 by the low temperature cooling coil 12 installed on the outer surface of the cooling cylinder 10 to firmly fix the spiral guide plate 15. In addition, the temperature of the stored water can be prevented from rising.

Meanwhile, in the present invention, since the temperature sensor 17 is installed at the lower end of the vertical pipe 14 of the cooling tube 10 in which water is supplied, it is possible to effectively measure the temperature of the actual water supply, thereby enabling more accurate temperature control. do.

As described above, the present invention provides a cooling coil 12 around the outer periphery of the cooling cylinder 10, installs a spiral guide plate 15 inside the cooling cylinder 10, and provides a cooling cylinder 10. The water supply outlet pipe 16 is installed in the vertical pipe 14 installed at the center of the inside. According to the present invention, the cooling capacity of the inside of the cooling tube 10 can be utilized as a cooling space, thereby increasing the cooling capacity. In addition, since the water supplied from the water supply tank 11 is lowered in a vortex to greatly improve the cooling efficiency, the water temperature does not rise even if the cold water is continuously supplied. It is possible to obtain the effect, such as to be able to supply.

Claims (3)

In the case where the cooling coil 12 through which the refrigerant is circulated is installed around the outer circumference of the cooling cylinder 10 in which the water supply cylinder 11 is installed, the distribution plate 13 in which the vertical pipe 14 is provided in the center lower part. ) Is installed in the upper portion of the cooling tube 10, the spiral guide plate 15 is installed around the vertical tube 14, one end inside the vertical tube 14, the outside of the cooling tube 10 Cooling apparatus for a water purifier, characterized in that the cold water withdrawal pipe (16) to be drawn out is installed, and the temperature sensor (17) is installed in the center of the outer lower end of the cooling tube (10). The float valve 18 of claim 1, wherein an inlet part 11a is provided at one side and an inlet part 11a of the water supply container 11 having an outlet part 11b at one lower end thereof. And a plurality of through holes 14a formed at the bottom of the vertical pipe 14 to allow the inside and the outside thereof to communicate with each other, and the upper portion of the cold water extraction pipe 16 installed inside the vertical pipe 14 to one side. Cooling apparatus for a water purifier, which is bent and drawn out to the outside of the cooling cylinder (10), and a heat insulating member (19) is provided around the outside of the cooling cylinder (10). The method according to claim 1, wherein the distribution plate 13 and the vertical pipe 14 is removed and the cold water extraction pipe 16 is installed directly inside the spiral guide plate 15 provided with a plurality of through holes 15a at the bottom. Cooling device for water purifier.