KR20190104723A - Water purifier - Google Patents

Abstract

The present invention relates to a water purifier, which includes a freezing cycle. According to the present invention, the water purifier includes: a tank storing water; a freezing cycle which cools the water of the tank and in which a condenser is provided on the back of the tank; a housing surrounding the tank and the cooling cycle, having a suction port at left and right side surfaces in advance of the tank, and having an exhaust port at a back surface; and a fan for forming air flow from the suction port of the housing to the exhaust port.

Description

Water Purifier {WATER PURIFIER}

The present invention relates to a water purifier, and more particularly, to a water purifier including a refrigeration cycle.

In the case of water purifiers and ice makers, condensation is likely to occur due to the temperature difference between the various components.

Patent No. 10-1501754 proposes a configuration to prevent the phenomenon.

In short, from the rear of the water purifier, the fan, the thermoelectric element and the tank are arranged next to each other, and the fan is blown forward, that is, toward the inside of the housing. Therefore, while cooling the water in the tank using a thermoelectric element, by introducing the air from the outside of the housing to the inside by using a fan to reduce the temperature difference between the outside and the inside of the housing to prevent condensation. In addition, an exhaust port for discharging heat of the heat generating portion of the thermoelectric element to the outside of the housing is formed adjacent to the side of the heat generating portion.

However, this is basically a technology to be applied to the water purifier of the concept of cooling the water in the tank by using a thermoelectric element, not only suitable for the water purifier including a refrigeration cycle, but also because the fan and the exhaust port are adjacent to the entire housing There is a problem that it is difficult to form an air flow over the inside, and because the fan is continuously blowing toward the inside of the housing, it is difficult for the air that has passed through the exhaust port to be discharged to the outside of the housing, which is not effective in preventing condensation. .

KR 10-1501754 B1

In order to solve the above problems, an object of the present invention is to provide a water purifier that can effectively prevent the phenomenon of condensation.

The water purifier according to the present invention is a tank for storing water, for cooling the water in the tank, and a condenser is arranged in the rear of the tank, the refrigeration cycle, the tank and the refrigeration cycle surrounds, and on the left and right sides ahead of the tank An intake port is formed in the rear surface, and may include a housing in which an exhaust port is formed, and a fan for making an air flow from the inlet port of the housing to the exhaust port.

In addition, the tank may be spaced apart from the left and right sides of the housing, respectively.

The condenser may also be disposed spaced backward from the tank.

In addition, the exhaust port of the housing is formed in an area corresponding to the outside of the condenser, the condenser can be fitted to the exhaust port of the housing.

In addition, the fan may be disposed at the rear of the condenser and blown rearward.

The water purifier according to the present invention is arranged in order from the front to the inlet, the tank, the condenser and the fan of the housing to pass through the outside of the housing, the tank is spaced apart from the left and right sides of the housing, the condenser is spaced backwards from the tank and the fan is rearward By blowing, air flows out of the housing through the condenser and the fan through the space between the tank and the left and right sides of the housing. Therefore, the cool air of the tank is discharged to the outside by the air flow without passing to the left and right sides of the housing to prevent condensation.

1 is a perspective view of a water purifier according to an embodiment of the present invention.
2 is a cross-sectional view taken along line AA of FIG. 1.
3 is a perspective view of a reservoir, a condenser and a fan of the water purifier according to the embodiment of the present invention.

With reference to the drawings will be described in detail with respect to the water purifier 10 according to an embodiment of the present invention.

1 is a perspective view of a water purifier 10 according to an embodiment of the present invention, Figure 2 is a cross-sectional view taken along the line A-A of FIG. 3 is a perspective view of the tank 11, the condenser 12 and the fan 14 of the water purifier 10 according to the embodiment of the present invention.

1 to 3, the water purifier 10 includes a tank 11, a refrigeration cycle, a housing 13, and a fan 14.

Of course, there are other components that are usually needed to operate the water purifier, such as a flow path for introducing water from a source, a filter for purifying water, and a coke for supplying water to a user. However, this is substantially the same as known or ordinary skill in the art can be easily changed and adopted therefrom, so the description thereof will be omitted.

The tank 11 stores water. The water may be water to be supplied to the user as drinking water, or may be a heat transfer medium used to cool the water to be supplied to the drinking water. If the water purifier 10 is a so-called water purifier 10, the tank 11 may serve to directly store water to be supplied to the user as drinking water. On the other hand, if the water purifier 10 is a so-called direct water purifier, a pipe (not shown) for flowing water to be supplied to the drinking water to the user is installed to pass through the inside of the tank 11, and the tank 11 supplies the water of the pipe. It will serve to store water as a heat transfer medium used to cool.

The refrigeration cycle consists of a compressor, condenser 12, capillary (or throttling valve) and evaporator. Refrigerant circulates through them, releasing heat relatively in the condenser 12 and releasing cold air in the evaporator.

The evaporator may be disposed inside the tank 11. This allows cooling of the water as water or heat transfer medium to be supplied to the user as drinking water.

Meanwhile, the condenser 12 may have a structure in which a pipe through which a refrigerant flows is bent in a substantially S-shape and coupled with a heat sink.

The housing 13 surrounds and protects the tank 11 and the refrigeration cycle and forms the overall appearance of the water purifier 10.

However, in this case, as a result of the cooling cycle cooling the water in the tank 11, some cold air may be transferred from the tank 11 to the housing 13. Therefore, condensation occurs in the housing 13, which causes a problem that the surroundings may be contaminated.

Hereinafter, a structure for preventing such a problem will be described.

First, the tanks 11 are spaced apart from the left and right sides of the housing 13, respectively. That is, predetermined spaces are provided between the tank 11 and the left and right side surfaces of the housing 13, respectively. Here, the left and right sides are based on a general use state of the water purifier 10, and are intended to distinguish and refer to relative positions, and do not mean absolute positions, and may often mean side surfaces corresponding to left and right sides of the cock.

To this end, the tank 11 may be formed to be somewhat smaller in width than the housing 13 to be disposed substantially in the center of the housing 13.

In addition, the refrigeration cycle is installed with the condenser 12 slightly spaced from the rear of the tank (11). The rear is also based on the general use state of the water purifier 10, it is only to refer to the relative direction to distinguish. As mentioned above, if the left and right sides mean a side surface corresponding to the left and right sides of the cock, the rear side may mean a direction away from the cock.

The fan 14 is installed adjacent to the rear of the condenser 12.

This fan 14 is arranged to be blown backwards.

In addition, the fan 14 may operate only when the refrigeration cycle is operated in conjunction with the refrigeration cycle, and may operate at all times even when the refrigeration cycle is not operated. Considering the aspect of the effect of creating an air flow to prevent condensation, as described below, it is preferable to operate at all times regardless of the refrigeration cycle.

On the other hand, the inlet port 13A is formed in front of the tank 11 on the left and right sides of the housing 13. Here, the front may mean a direction closer to the cock.

The intake port 13A is a portion for introducing air from the outside of the housing 13 into the inside, and the size and shape of the intake port 13A may vary depending on necessity.

In addition, an exhaust port 13B is formed on the rear surface of the housing 13.

The exhaust port 13B is a portion for the air inside the housing 13 to go out, and in order to implement this, the exhaust port 13B is formed to have an area corresponding to the outside of the condenser 12, and the condenser 12 is It can be installed in a form fitted to the exhaust port 13B. In this case, the air inside the housing 13 may pass through the area between the pipe of the condenser 12 and the heat sink and go out.

Alternatively, the housing 13 may surround the tank 11, the condenser 12 and the fan 14 as a whole, and an exhaust port 13B may be formed at a point corresponding to the fan 14. In this case, the size and shape of the exhaust port 13B may vary according to need, and thus not specifically specified.

As a result, the inlet port 13A, the tank 11, the condenser 12 and the fan 14 of the housing 13 are sequentially arranged from the front to have a configuration that communicates with the outside of the housing 13.

Therefore, when the fan 14 is operated and blows backwards, that is, outside the housing 13, the air inside the housing 13 first goes out, and due to the air pressure difference, the air outside the housing 13 It enters inside through the inlet port 13A. Therefore, the air flow from the intake port 13A of the housing 13 to the outside of the housing 13 through the space between the tank 11 and the left and right sides of the housing 13 through the condenser 12 and the fan 14 Is formed.

According to this, condensation can be prevented because the cool air of the tank 11 is discharged to the outside by the air flow without being transferred to the left and right sides of the housing 13.

In addition, there is a side that can improve the efficiency of the refrigeration cycle by helping the condensation of the refrigerant as the cold air of the tank 11 passes through the condenser 12.

Embodiments of the present invention described above and illustrated in the drawings do not limit the technical spirit of the present invention. The protection scope of the present invention is determined by the matter described in the claims. On the other hand, those skilled in the art will be able to variously improve or change the technical idea of the present invention. Such improvements and modifications fall within the protection scope of the present invention as long as it is obvious to those skilled in the art.

Claims (5)

Tank to store water,
A cooling cycle for cooling the water in the tank, wherein a condenser is disposed at the rear of the tank,
A housing that surrounds the tank and the refrigeration cycle, an inlet is formed in front of the tank on the left and right sides, and an exhaust port is formed in the rear;
And a fan for producing air flow from the intake port of the housing to the exhaust port. The method of claim 1,
The water purifier is disposed spaced apart from the left and right sides of the housing, respectively. The method of claim 1,
The condenser is disposed spaced apart rearward from the tank. The method of claim 1,
The exhaust port of the housing is formed with an area corresponding to the outside of the condenser,
And a condenser fitted to an exhaust port of the housing. The method of claim 1,
The fan is disposed at the rear of the condenser, the water purifier blows backward.

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