KR19980026580A - Cooling water tank of water purifier cooling system - Google Patents

Abstract

The present invention relates to a cooling water tank of a water purifier cooling system, and in order to effectively use a short cooling coil, an evaporation portion protruding into the chamber is formed above the cooling chamber so that the purified water circulates along the convection principle. In the water purifier cooling system, the inside of the water storage space in the water purifier cooling system has a technical problem of providing a cooling water tank to allow cooling to be performed to lower the temperature of water in the casing of the cooling chamber during the cooling action of the cooling coil. Casing (11) to form a, the heat insulating means 12 is attached to the outside, the water supply port (14) connected to the reservoir tank (7) where the purified water is stored and the water outlet (15) for taking out the cold water Cooling chamber (1) formed with; An evaporator (2) which protrudes (injects) into the lower narrow light from above the cooling chamber (1) and cools the convection upward in the upper protrusion; An outer portion of the evaporation unit 2 is wound around the inner circumferential wall to include a cooling coil 20 for intensively depriving heat of convective water upward of the cooling chamber 1 while the high pressure refrigerant of the cooling system is circulated. This is a water purifier cooling water tank that cools and draws water from the storage tank according to the hot and cold water convection principle.The entire cold water of the cooling chamber is cooled evenly by using the convection principle of water according to the temperature difference. Rather than having a cooling action inside.

Description

Cooling water tank of water purifier cooling system

The present invention relates to a cooling water tank of a water purifier cooling system. Specifically, water of a low temperature is lowered and water of a high temperature is raised by using a temperature difference of water in a cooling chamber. In particular, it relates to a cooling water tank of a water purifier cooling system in which the cooling effect of the cooling coil is concentrated to the cooling chamber to increase the cooling efficiency.

Conventionally, as shown in FIG. 2 of the accompanying drawings, in order to compress the low pressure refrigerant to a high pressure in the state of filling the refrigerant and lubricating oil, the compression means (3) for compressing the fluid pressure inside the high pressure, and included in the refrigerant through the compression means Condensation means (4) for dissipating the high heat to the outside to lower the temperature of the high-pressure refrigerant, the fluid means (5) for storing the coolant of the lower temperature, and the refrigerant contained in the liquid A water purifier cooling system has been known, which comprises a dryer 6 for removing water and preventing freezing in the evaporation means, and an evaporation means for lowering the temperature of water in the cooling chamber as a cooling coil having a smaller diameter. Such a cooling system has been applied to the water purifier as a structure in which the evaporation means 102 is wound along with the heat insulating material 101 on the outer circumferential surface of the cooling cylinder 100 as shown in the accompanying drawings.

However, since the evaporation means of the cooling system is limited in length and cannot be wound over the entire cooling tub, the evaporation means has been wound over a portion as shown in FIG. 5 and the water stored therein is cooled in a portion as described above. In most cases, there is a problem that low temperature water is located only in the lower part because it is convexed according to the temperature difference, and the location of the evaporation means (cooling coil) has been changed upward to improve this problem. Even though the heat of evaporation of the heat insulating material is laid out part of the cooling action (heat exchange action) is a part of the inner casing has a problem that the cooling efficiency of the inside of the casing of the cooling chamber falls.

The object of the present invention is to improve the cooling efficiency by improving the winding structure of the wrong cooling coil of the conventional cooling water tank as well as to ensure that the cold water in the cooling chamber is evenly positioned with cold water of low temperature regardless of the position. Specifically, the present invention is ultimate in providing a cooling water tank of a cooling system having convection principle such that the cold water of the cooling water convections as a temperature difference but the low temperature cold water flowing back in a horizontal state from the top convex again with the lower temperature. There is a purpose.

1 is a schematic diagram of a water purification system in which the present invention is implemented.

2 is a schematic view showing a cooling structure of the present invention water purifier

3 is a cross-sectional view of the present invention cooling water tank

4 is a top view of FIG. 3

5 is a cross-sectional view of a conventional cooling water tank

Figure 6 is a table comparing the temperature difference between the present invention and the conventional cooling water tank.

Explanation of symbols on the main parts of the drawings

1: cooling chamber, 2: evaporator, 3: compression means,

4: condensing means, 5: sap means, 6: dryer,

7: water storage tank, 11 casing, 12 insulation means,

13: reservoir, 14: water inlet, 15: outlet,

20: cooling coil.

In order to achieve the above object, the present invention provides a compression means for compressing the fluid pressure inside the high pressure in order to compress the low pressure refrigerant to a high pressure in the state filled with the refrigerant and lubricating oil, and high heat contained in the refrigerant passed through the compression means Condensation means for reducing the temperature of the high-pressure refrigerant by dissipating to the outside, the fluid solution for storing the coolant of the lower temperature, and the moisture contained in the refrigerant passing through the fluid means to prevent freezing in the evaporation means thereafter In the water purifier cooling system comprising a dryer for cooling and evaporation means for lowering the temperature of the water in the cooling chamber as a cooling coil having a small diameter, the inner forming a casing to form a storage space, the outside is attached to the heat insulating means, A water inlet connected to the reservoir tank where purified water is stored and an outlet for taking out cold water are formed. Each of the chambers; An evaporator which protrudes (injects) into the lower narrow light from above the cooling chamber and cools the convection upward in the upper protrusion; It is wound around the inner circumferential wall of the evaporation unit and the high pressure refrigerant of the cooling system is circulated, and includes a cooling coil for intensively depriving heat of convective water above the cooling chamber. It is achieved as a water purifier cooling water tank which allows the water in the tank to be cooled and drawn out.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of a water purifier water purification system according to the present invention, Figure 2 is a schematic diagram of a general cooling system applied to the present invention, Figure 3 is a cross-sectional view of the embodiment of the cooling water tank of the present invention, Figure 4 is When explaining the present invention according to the cross-sectional view as follows.

That is, the present invention is a compression means (3) for compressing the fluid pressure inside the high pressure in order to compress the low pressure refrigerant to a high pressure in the state in which the cooling chamber (1), the evaporator (2), and the refrigerant and the lubricating oil are filled ), Condensation means (4) for dissipating high heat contained in the refrigerant passing through the compression means to lower the temperature of the high-pressure refrigerant, and fluid solution (5) for storing the coolant of the lower temperature; A dryer 6 for removing water contained in the refrigerant passing through the fluid solution 5 to prevent freezing in the evaporation means, and evaporation means for lowering the temperature of the water in the cooling chamber as a cooling coil having a smaller diameter; It consists of a cooling coil (20).

Specifically, the cooling chamber (1) forms a casing (11) inside the reservoir space (13), the heat insulating means 12 is attached to the outside, and the storage tank (7) for storing purified water and The water supply port 14 connected and the water outlet 15 for taking out cold water may be formed.

The evaporator 2 has a structure in which the water convex upwards is projected (injected) into the lower narrow light from above the cooling chamber 1 to cool the upper convex portion.

The cooling coil 20 is wound tightly along the inner circumferential wall of the evaporation unit 2 to circulate the high-pressure refrigerant of the cooling system to intensively deprive heat of convection water upward of the cooling chamber 1. Structure.

Specifically, the cooling chamber 1 has a structure in which the upper center portion is recessed to a predetermined depth to form the protrusion 2 when viewed from the inside of the chamber, and the insulation 12 of the polyurethane component is attached to the outside to form an approximate shape of the inner casing 11. It protrudes to the upper 1/3 position and forms a donut-shaped convection space along the outer periphery about the center.

In addition, the lower side forms a sufficient convection space so that the low temperature water convection in the upper part is exchanged again with the lower high temperature water.

The outer space 11 of the condensed evaporator 2 of the casing 11 of the cooling chamber 1 is wound around the cooling coil 20 of the cooling system, and then welded to form a gap between the cooling coils. Reduce as much as possible That is, the high pressure refrigerant compressed through the cooling system takes the evaporation heat from the water inside the casing 11 and heats the cooling coil 20 several times on the inner circumferential surface of the concave space (outside of the evaporation part) so as to exchange heat at a low temperature. Will block the heat exchange.

The operation of the present invention configured as described above is as follows.

The present invention is shown in FIG. 1 and as shown in the cooling system of FIG. 2 is purified by a free filter, a carbon filter, a membrane (reverse osmosis type filter) in the constant opening and closing means for distributing tap water in the tap water. It is stored as a storage means for sterilization and storage at the same time through the water purification process and the stored water has a process of cooling and heating with cold water and hot water in the cold, on-conversion means that is rapidly changed to cold, hot water. At this time, in the present invention, the water supplied by the evaporator 2 in the cooling water tank of the cooling system is cooled to a constant temperature and at the same time the water before cooling below the cooling chamber 1 around the evaporator is supplied with water and cooled to a low temperature at the same time. Since water has a convection process that descends downward, it is always discharged with water of the same cooling temperature.

As described above, according to the present invention, when the water is partially cooled in the internal chamber of the cooling water tank or the temperature is increased and the low temperature is lowered, the purified water in the chamber is uniformly cooled according to the principle of circulating up and down.

Claims (1)

In order to compress the low pressure refrigerant to a high pressure in the state filled with the refrigerant and lubricating oil, a compression means (3) for compressing the internal fluid pressure to a high pressure, and the high heat contained in the refrigerant passing through the compression means to the outside high pressure refrigerant Condensation means (4) for lowering the temperature of the liquid, fluid means (5) for storing the coolant of the lowered temperature, and water contained in the refrigerant having passed through the fluid means (5) In a water purifier cooling system comprising a dryer (6) for preventing freezing and an evaporation means for lowering the temperature of water in the cooling chamber as a cooling coil with a smaller diameter, A water supply port 14 and cold water connected to a storage tank 7 in which an inner side constitutes a casing 11 forming a storage space 13, and an insulation means 12 is attached to the outside, and purified water is stored. A cooling chamber 1 in which a water outlet 15 for taking out the water is formed; An evaporator (2) which protrudes (injects) into the lower narrow light from above the cooling chamber (1) and cools the convection upward in the upper protrusion; A cooling coil 20 which is wound around the inner circumferential wall of the evaporation unit 2 so as to intensively deprive heat of convection water upward of the cooling chamber 1 while the high pressure refrigerant of the cooling system is circulated; Including, the water purifier cooling water tank so that the water in the reservoir tank is cooled, drawn out according to the cold water convection principle.