KR200259094Y1 - Cooling water sharing device of ice storage tank for ice storage type air conditioner - Google Patents

Abstract

The present invention relates to a cooling water distribution device of a heat storage tank for ice heat storage air conditioner,

In the conventional heat storage tank, since the coolant at room temperature supplied from the indoor unit is continuously supplied to only one side of the heat storage tank during the operation of the indoor unit, the ice frozen inside the heat storage tank does not melt evenly as a whole, and the portion where the coolant at room temperature flows first melts. Afterwards, the rear part melts, so that the thawing action does not proceed evenly as a whole. When re-ice is made, the part where ice is not completely frozen freezes, thereby inhibiting the circulation of the cooling water. As the mixture is not mixed well, the cooling water of the not sufficiently cooled state is re-supplied to the indoor unit, causing the cooling performance of the indoor unit to decrease.

Therefore, the present invention for solving the above problems is installed in the upper end of the heat storage tank collecting means for collecting the cooling water dissolved in the inside of the heat storage tank as a whole, and while the indoor air is circulated evenly spreading the cooling water in the heat storage tank The distribution means for flowing in is formed in the center of the inner bottom of the heat storage tank, so that the intake and water supply of the cooling water are uniformly made in the heat storage tank, so that ice making and thawing in the cooling pipe are made constant so that the circulation of the cooling water is smooth. The present invention relates to a cooling water distribution device of a heat storage tank for an ice heat storage air conditioner, in which a cooling efficiency of a cooling device is greatly improved.

Description

Cooling water sharing device of ice storage tank for ice storage air-conditioning equipment {Cooling water sharing device of ice storage tank for ice storage type air conditioner}

The present invention relates to a cooling water distribution device of a heat storage tank for an ice storage air conditioner, and in particular, a collecting means for collecting the cooling water dissolved in the inside of the heat storage tank as a whole is uniformly installed on the upper end of the heat storage tank, and the temperature of the cooling water that rises while circulating the indoor unit is stored in the heat storage tank. By distributing means to spread evenly inside the center of the bottom of the heat storage tank, as the intake and water supply of the coolant is made uniform throughout the heat storage tank, ice making and thawing in the cooling pipe are made constant. The present invention relates to a cooling water distribution device of a heat storage tank for an ice heat storage air conditioner that facilitates circulation to significantly improve the cooling efficiency of the air conditioner.

In general, the ice heat storage air-cooling device is a device that cools indoor air by circulating the cooling water generated by melting ice in the heat storage tank to the indoor unit during the day time by freezing the ice in the heat storage tank by using midnight electricity.

An outdoor unit is provided for compressing, condensing, and expanding the refrigerant at night to supply low-temperature and low-pressure liquid refrigerant to the heat storage tank. A heat storage tank for accumulating cold heat by freezing the coolant filled therein using the coolant supplied from the outdoor unit is provided. It has a low temperature cooling water supplied from the heat storage tank by operating in the day time, and consists of an indoor unit for supplying cool air to the room by heat-exchanging the cooling water and hot air.

The ice storage type air-cooling device configured as described above uses an inexpensive late night electricity to operate the outdoor unit at night time, and the cold storage changed into liquid of low temperature and low pressure is supplied to the heat storage tank by the operation of the outdoor unit.

The refrigerant supplied to the heat storage tank circulates inside the heat storage tank to freeze the cooling water. The freezing bodies of the heat storage tank melt cold during the day and supply cool coolant to the indoor unit, and the indoor unit cools the air by using the coolant supplied from the heat storage tank. It will be cooled to the room by supplying it to the room.

1 is a view showing the internal configuration of a conventional heat storage tank,

One side of the heat storage tank 1 is formed with an inlet port 2 for receiving the cooling water from the indoor unit at the upper side, and a cooling water discharge port 3 for supplying the cooling water to the indoor unit is formed at the lower side, and inside the heat storage tank 1. The inlet side and the outlet side are connected to the expansion valve and the compressor of the outdoor unit, respectively, and the cooling pipe 4 is wired so that the middle part of the heat storage tank circulates zigzag.

In the heat storage tank having the above-described structure, the low-temperature and low-pressure liquid refrigerant supplied while the outdoor unit is driven at midnight passes through the cooling pipe 4, and as the refrigerant passes through the cooling pipe 4, absorbing the surrounding heat. A certain thickness of ice is frozen around the cooling pipe (4).

Since the indoor unit is operated during the day time after the elapse of time, the cooling water remaining in the heat storage tank 1 without remaining frozen or melted from the freezing body is pumped and supplied to the indoor unit to be used for the cooling operation of the indoor unit.

At this time, the coolant having a temperature rise while passing through the indoor unit flows into the coolant inlet of the heat storage tank, and the coolant at room temperature introduced into the heat storage tank is mixed with the low temperature coolant present in the heat storage tank, cooled again, and then supplied again to the indoor unit. Will be able to carry out cooling operation stably during the daytime.

However, in the conventional heat storage tank, since the coolant at room temperature supplied from the indoor unit is continuously supplied to only one side of the heat storage tank during the operation of the indoor unit, the ice frozen inside the heat storage tank does not melt evenly as a whole. Part A of 1 is melted first, and then the back part is melted, so that the thawing action does not proceed evenly as a whole. When re-ice, the part where ice is not completely melted is frozen, which hinders the circulation of the coolant. As a result, the cooling water at room temperature does not mix well in the heat storage tank, and as the cooling water is not sufficiently cooled, the indoor unit is again supplied with the indoor unit, resulting in a decrease in the cooling performance of the indoor unit.

Therefore, the present invention for solving the above problems is installed in the upper end of the heat storage tank collecting means for collecting the cooling water dissolved in the inside of the heat storage tank as a whole, and while the indoor air is circulated evenly spreading the cooling water in the heat storage tank The distribution means for flowing in is formed in the center of the inner bottom of the heat storage tank, so that the intake and water supply of the cooling water are uniformly made in the heat storage tank, so that ice making and thawing in the cooling pipe are made constant so that the circulation of the cooling water is smooth. It is an object of the present invention to provide a cooling water distribution device of a heat storage tank for an ice storage heat-cooling device in which the cooling efficiency of the cooling device is greatly improved.

The present invention for achieving the above object,

In the cooling pipe for freezing of the cooling water inside the heat storage tank is zigzag wired,

A discharge pipe formed for discharging the cooling water on one side of the upper end of the heat storage tank, and formed so that a predetermined amount of cooling water can be contained, and a water collecting tank positioned at the center of the inner upper end of the heat storage tank in a state in which one side is in communication with the discharge pipe; A collecting means comprising a plurality of inlet holes respectively formed at an upper side and a bottom of the sump to allow the coolant to flow into the sump in various directions;

The inlet pipe is formed at one side of the lower end of the heat storage tank so that the coolant temperature rising while passing through the indoor unit flows into the heat storage tank, and its end is bent toward the bottom from the center of the heat storage tank, A distribution means formed of a housing having an end portion of the inlet pipe coupled to an upper portion of the center thereof, and a plurality of distribution holes formed on a lower outer circumferential surface of the housing for smoothly discharging the cooling water discharged through the inlet pipe;

Characterized in that consisting of.

In addition, a cone-shaped distribution guider is formed on the bottom surface of the heat storage tank opposite to the outlet side of the inlet pipe, so that the coolant discharged through the inlet pipe can be spread evenly in various directions.

1 is a cross-sectional view showing a heat storage tank for a conventional ice heat storage cooling device.

Figure 2 is a cross-sectional view showing a cooling water distribution device for ice storage heat cooling device of the present invention.

3 is a view showing a collecting means applied to the present invention.

※ Explanation of code for main part of drawing

10: heat storage tank, 11: cooling pipe,

20: collecting means, 21: discharge pipe,

22: sump, 23: inlet,

30: distribution means, 31: inlet pipe,

32: housing, 33: distribution hole,

40: distribution guider

Hereinafter, with reference to the accompanying drawings Figures 2 and 3 will be described a preferred embodiment of the present invention.

Reference numeral 10 denotes a heat storage tank for ice heat storage, and the cooling pipe 11 through which the refrigerant for ice making is circulated is formed in a zigzag inside the heat storage tank 10.

The present invention is a collecting means 20 for collecting the cooling water present in the heat storage tank 10 as a whole, and a distribution means 30 for uniformly distributing the temperature-rise cooling water supplied from the indoor unit 10 in the heat storage tank 10. It is composed.

The collecting means 20 is installed on the upper end of the heat storage tank 10 to collect the cooling water,

The discharge pipe 21 for discharging the coolant to the indoor unit is formed on one end of the heat storage tank 10, and the collection tank 22 is connected to the inlet side of the discharge pipe 21.

The sump tank 22 is to be contained a certain amount of cooling water ' ', But the inlet of the discharge pipe 21 is in communication with the interior of the water collecting tank 22, a plurality of inlet holes 23 are formed in the upper and bottom surfaces of the water collecting tank 22, respectively, 10) The cooling water present in the inside is to be introduced into the water collecting tank 22 evenly in several directions.

Then, the distribution means 30 is to allow the cooling water having risen in temperature while passing through the indoor unit to be introduced into the heat storage tank 10,

The inlet pipe 31 is formed on one side of the lower end of the heat storage tank 10, and the outlet side 31a of the inlet pipe 31 is bent toward the bottom of the heat storage tank 10 so as to be supplied from the indoor unit. Is discharged toward the bottom surface of the heat storage tank 10, the end of the inlet pipe (31) The housing 32 is shaped.

A plurality of distribution holes 33 were formed on the lower outer circumferential surface of the housing 32 so that the coolant discharged through the inflow pipe 31 was evenly spread toward the entire bottom surface of the heat storage tank 10.

In addition, in the present invention, a conical distribution guider 40 is formed on the bottom surface of the heat storage tank 10 in order to spread the cooling water discharged from the inflow pipe 31 more uniformly.

The distribution guider 40 is formed to be located directly below the outlet side 31a of the inlet pipe 31, as shown in FIG. 2, so that the coolant discharged from the inlet pipe 31 is in the conical distribution guider 40. It is guided to spread more smoothly in all directions.

According to the present invention configured as described above it can be expected the following effects.

Since the high temperature cooling water passing through the indoor unit is distributed at the bottom surface of the heat storage tank 10 through the distribution means 30, the frozen body frozen in the cooling pipe 11 gradually melts from the lower side, and the high temperature is caused by natural convection. As the cooling water of circulates from the bottom of the heat storage tank 10 to the upper side, the upper ice material is also melted, so that the ice material existing in the heat storage tank 10 is uniformly thawed as a whole.

As a result, even if the ice is re-defrosted in a state where some ice is made, the phenomenon in which the ice is completely frozen in the cooling pipe 11 does not occur, thereby ensuring a smooth circulation of the cooling water.

In addition, according to the present invention, by using the collecting tank 22 of the collecting means 20, the cooling water existing in the upper side of the heat storage tank 10 is evenly collected from all directions and supplied to the indoor unit so that thawing and ice making are made uniform. It acts as a cause to lose.

As described above, the present invention installs a collecting means for collecting the cooling water dissolved in the heat storage tank uniformly on the inner top of the heat storage tank, and allows the coolant that has risen in temperature while circulating the indoor unit to be spread evenly inside the heat storage tank. As the distribution means is formed at the center of the inner bottom of the heat storage tank, the intake and water supply of the cooling water are uniformly made in the heat storage tank, so that ice making and thawing in the cooling pipe are made constant so that the circulation of the cooling water is smooth. The effect of providing the cooling water distribution device of the heat storage tank for ice heat storage air conditioner which can greatly improve the cooling efficiency of the can be expected.

Claims (2)

In the cooling pipe 11 for the freezing of the cooling water inside the heat storage tank 10 in a zigzag wiring, A discharge pipe 21 formed for discharging the cooling water on one side of the upper end of the heat storage tank 10 and a predetermined amount of cooling water may be contained therein, and one side of the heat storage tank 10 is in communication with the discharge pipe 21. A plurality of water collection tanks 22 located at the center of the upper end of the inner and upper surfaces of the water collection tanks 22 and the cooling water existing in the heat storage tank 10 are introduced into the water collection tanks 22 in various directions. A collecting means 20 composed of an inlet hole 23; The inlet pipe 31 is formed at one side of the bottom of the heat storage tank 10 so that the coolant having a temperature rise while passing through the indoor unit is introduced into the heat storage tank, and the end portion thereof is bent to face the bottom surface of the heat storage tank 10. Wow, ' And a housing 32 having an end portion of the inlet pipe 31 coupled to an upper portion of the center thereof, and a lower outer periphery of the housing 32 for smooth discharge of the cooling water discharged through the inlet pipe 31. Distribution means 30 consisting of a plurality of distribution holes 33 formed on the surface; Cooling water distribution device of the heat storage tank for ice heat storage cooling device, characterized in that consisting of. The method of claim 1, The conical distribution guider 40 is formed on the bottom surface of the heat storage tank 10 facing the outlet side of the inlet pipe 31 so that the coolant discharged through the inlet pipe 31 can be spread evenly in various directions. Cooling water distribution device of the heat storage tank for ice heat storage air conditioner.