KR20100099512A - A fountain with be quick temperature control - Google Patents

Abstract

PURPOSE: A drinking fountain capable of rapidly adjusting the temperature of water is provided to minimize the loss of heat energy and rapidly cool the water. CONSTITUTION: A drinking fountain capable of rapidly adjusting the temperature of water comprises a heating container(100) and a cold water container(300). The heating container heats water, provided from a water tank(150), through a heating device. The cold water container provides refrigerant to the cold water container. A hot water pipeline is integrated with the cold water container.

Description

A fountain with be quick temperature control}

The present invention is installed in such a way that the refrigerant flows outside the hot water pipe which is formed to have the maximum surface area while flowing at the same flow rate per unit time compared to the pipe flowing at the same flow rate per unit time to minimize the loss of thermal energy while enabling rapid cooling. Temperature control to allow for a rapid drinking water.

In general, a large number of drinking water tanks equipped with a water purifier and a cold / hot water device are installed at one side in a restaurant where a large number of people live, such as a school or a factory, to supply purified water to a large number of people at a time. It is.

The drinking water tank for the group water supply is a drinking tank case of a predetermined size, a storage tank having a predetermined capacity to store the negative water installed on the upper portion of the drinking tank case, a water supply pipe which is a negative water supply passage stored in the storage tank, and the It is connected to the water supply pipe, it is composed of a water intake faucet to control the discharge amount of the negative water and the water supply device to purify the water flowing into the water storage tank and cold and hot water device to cold and hot water stored in the water storage tank.

The conventional drinking water for drinking water group consisting of the above configuration is installed between the raw water supply pipe and the reservoir tank to remove the chlorine components and various bacteria contained in the water flowing into the reservoir tank to purify the water and the reservoir tank and A cold and hot water device is installed in the water supply pipe connecting the intake faucet to cool the water coming out of the water storage tank. Most of the above water purifiers are made of a combination of activated carbon and various filters, and the activated carbon is contained in the tap water. The chlorine and organic substances are adsorbed and filtered, and the filter filters various bacteria which are not removed by activated carbon, thereby supplying water to the drinking water from which chlorine components, organic substances and various bacteria are removed.

By the way, the conventional drinking water for drinking water in the group as described above had to have to change the filter of the water purifier periodically to always receive cleanly purified drinking water, and if the exchange time is delayed or not managed There was a problem that the microbial growth around the filter by the contaminated water filter further contaminates the water.

In order to improve such a problem, Patent No. 622574 discloses a cooling-cooled drinking fountain. The configuration of the heating pump includes a circulation pump 9 and a secondary cooling unit 33 located therein as shown in FIG. And a base body 2 supporting the circulating cooling part 4, and located inside the base body 2, and located at the rear part of the heat storage part 3 to effectively cool the heated negative water. The circulation cooling case 6 of a predetermined size is provided, and the circulation cooling case 6 is provided with a cooling fan 10 at one side, and a ventilation opening 24 is formed at the other side thereof, Ladder-shaped circulation cooling pipe 13 having a constant interval is composed of a circulating cooling unit (4) is installed long in the transverse direction.

In addition, the circulation cooling pipe 13 has an inlet pipe 11 is provided in communication with one end and the discharge pipe 12 is installed in communication with the other end, the inlet pipe 11 is a circulation pump (9) and two A washing pump 25 having washing valves 28a and 28b is installed, and the discharge pipe 12 is provided with a cooling cylinder 14, a cooler 16, and a cooler circulation pump 17, and the cooling The inside of the barrel is provided with a cooling coil wound roundly at a predetermined interval so that the discharge pipe 12 is provided with a secondary cooling unit 33 passing through the center of the cooling coil 15.

However, the above-mentioned drinking zone is configured to cool the water heated to a predetermined temperature through the secondary cooling unit 33 and the circulation cooling unit 4 through the refrigerant, which flows and cools the external air as the pump 10. Of course, the heat transfer efficiency is lowered, as well as the installation space is increased, so that the volume of the base body 2 is increased.

An object of the present invention for improving the conventional problems as described above, it is possible to minimize the loss of thermal energy while the rapid cooling is heated, the integration of the hot water pipe is improved to be installed in a minimum space, Maximize the surface area of the heated water in contact with the coolant to maximize the cooling effect, and minimize the temperature difference between the heated water and the coolant. To provide.

The present invention, in order to achieve the above object, the temperature control consisting of a configuration in which the refrigerant flows to the outside of the hot water pipe is formed to have a maximum surface area while flowing at the same flow rate per unit time compared to the pipe flowing at the same flow rate per unit time This provides a quick drinking fountain.

In addition, the refrigerant tank of the present invention provides a quick temperature control tank having a plurality of separators having zigzag through-holes formed therein so as to form a zigzag flow path from the upper side to the lower side through the refrigerant pipe.

In addition, the refrigerant tank of the present invention is connected to the refrigerant through the refrigerant pipe to separate the zigzag flow path to form a zigzag flow path from the top to the negative temperature range is quick temperature control is connected as a connection pipe having a maximum separation distance to provide.

According to the present invention as described above, the rapid cooling is heated to minimize the loss of thermal energy, the degree of integration of the hot water pipe is improved, it is possible to install in a minimum space, and maximize the surface area of the heated water in contact with the refrigerant cooling Maximizing the effect, and by minimizing the temperature difference between the heating water and the refrigerant, thereby preventing the durability degradation of the pipe.

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

Figure 2 is a schematic diagram showing a drinking fountain according to the present invention, Figure 3 is a side view showing a cooling apparatus of the drinking fountain according to the present invention.

The present invention is provided with a heating cylinder 100 for heating the water supplied from the external water tank 150 through the heating device, the heating cylinder 100 passes through the refrigerant tank 510, the drinking water tank 200 ) Or cold water tank 300 is installed to supply.

In addition, the cold water container 300 is installed to supply a coolant that is cooled through the cooling device 600 to the cold water container as a pump 650, and a hot water pipe 550 is integrally installed inside.

In addition, the hot water pipe 550 is formed to have the maximum surface area while flowing at the same flow rate per unit time compared to the pipe flowing at the same flow rate per unit time, and selected from the uneven surface or the heat dissipation fin on the outer side to have the maximum heat transfer area. A heat transfer means 553 is further provided.

That is, the hot water pipe 550 is formed in a shape that maximizes the width of the arc shape or the left and right directions when compressing the cylindrical pipe from the top.

At this time, the hot water pipe 550 is arranged in a zigzag on the inside of the cold water tank 300 to have a maximum heat transfer time.

In addition, the cold water container 300 is provided with a plurality of separation membranes 530 having through-holes 535 to form a zigzag flow path from the top to the bottom while being connected through the refrigerant pipe 653.

In addition, the refrigerant cylinder 300, the unit refrigerant tank 510 which is separated to form a zigzag flow path from the top to the bottom while being connected through the refrigerant pipe 653, the connection pipe 515 having the maximum separation distance. It is made up of a configuration that is connected as).

The operation of the present invention having the above configuration will be described.

2 to 3, the water supplied from the external water tank 150 is heated through a heating apparatus provided in the heating tube 100, and then cooled while passing through the refrigerant tank 510, drinking water bottle 200 Or cold water reservoir 300 is to be stored.

When the water to be supplied is at least a predetermined temperature, the cold water tank 300 opens the second valve 673 installed at one side thereof, recirculates the inlet of the coolant tank 510, and cools it to a desired temperature.

In addition, the drinking water tank 200 to store the water to be primarily cooled by the operation of the first valve 672 installed on one side or to supply to the cold water tank 300 side.

Subsequently, the third valve 671 installed in the entire length of the refrigerant tank 510 recycles the first cooled water or cools the heated water by the refrigerant tank 510 according to its open state. do.

In addition, the coolant tank 510 is installed so that the coolant flows from the top to the bottom, and the coolant has a maximum heat transfer time by being in contact with the hot water pipe 550 while forming a zigzag flow path.

At this time, except that the water supplied from the heating tube 100 is in contact with the hot water pipe 550 at the top except for the initial operation, the refrigerant whose temperature rises is brought into contact with the temperature difference by the lower portion of the refrigerant tank 510. Problems such as lowering of durability are eliminated.

In addition, the hot water pipe 550 is formed to have the maximum surface area while flowing at the same flow rate per unit time as compared to the pipe flowing at the same flow rate per unit time, and the heat transfer to the entire water flowing in the hot water pipe 550 is performed at the same time. Cooling is possible.

In addition, the refrigerant tank 510 is provided with a plurality of separation membranes 530 having through-holes 535 connected to each other through the refrigerant pipe 653 so as to form a zigzag flow path from the upper side to the lower side thereof. 550 flows with maximum contact time.

In addition, the refrigerant tank 510 is connected through the refrigerant pipe 653, the unit refrigerant tank 510 which is separated to form a zigzag flow path from the upper side to the lower side connecting pipe 515 having a maximum separation distance Is connected to allow the refrigerant to flow while having the maximum contact time with the hot water pipe 550.

As described above, the hot water pipe 550 is formed to have the maximum surface area while flowing at the same flow rate per unit time as compared to the pipe flowing at the same flow rate per unit time, so that rapid cooling is possible, and the hot water pipe 550 flows in a zigzag flow. Through the configuration of the refrigerant tank 510 to be located in the lower portion it is possible to solve the problems caused by the sudden temperature difference.

1 is a schematic diagram showing a conventional drinking water band.

2 is a schematic diagram illustrating a drinking water band according to the present invention.

Figure 3 is a side view showing a cooling apparatus for drinking water according to the present invention.

* Description of the symbols for the main parts of the drawings *

100 ... heater 150 ... bath

200 ... drinking water bottle 300 ... cold water bottle

530 Separator 550 Hot Water Piping

     650 ... pump

Claims (4)

The heating tub 100 for heating the water through the heating device, the water of the heating tub 100 is passed through the refrigerant tank 510 through which the refrigerant circulates through the hot water pipe 550 and cooled to cool the drinking water tank 200 Or in the drinking fountain is installed to supply to the cold water tank (300), The hot water pipe 550 is formed to have a maximum surface area while flowing at the same flow rate per unit time as compared to the pipe flowing at the same flow rate per unit time, The coolant tank 510, the temperature control is quick to adjust the temperature characterized in that it is formed to have a zigzag flow path from the top to the bottom According to claim 1, The hot water pipe 550 is further provided with heat transfer means 553 to increase the heat transfer area while the width of the left, right direction is maximized, the inside of the refrigerant tank 510 Quickly adjust temperature range, characterized in that the zigzag arrangement The method of claim 1, wherein the refrigerant tank 510, a plurality of separation membrane 530 having a through hole 535 to form a zigzag flow path from the upper side to the lower side is characterized in that the rapid temperature control is negative versus The method of claim 1, wherein the refrigerant tank 510 is formed as a unit refrigerant tank separated from the top to form a zigzag flow path from the top to the bottom is connected as a connection pipe 515 is installed at the maximum separation distance. Temperature range with quick temperature control

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