KR20050074108A - Cooling system and the control method of the same - Google Patents

Abstract

The present invention relates to a cold storage air conditioning system in which cooling performance is improved by supplying a low temperature fluid of a constant temperature to a cooler by promoting the stratification of a fluid, comprising: a cold storage tank having a heat exchanger disposed therein; A panel for dividing the interior of the storage cooling tank into a plurality of cells to facilitate stratification of the fluid supplied into the storage storage tank; It characterized in that it comprises a cooler for cooling the room using the fluid discharged from the storage tank.

Description

Cooling system and the control method of the same

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cold storage air conditioning system and a control method thereof, and more particularly, to a cold storage air conditioning system and a control method thereof in which the inside of the cold storage tank is divided left and right to promote stratification of the fluid inside the cold storage tank.

Generally, a cold storage air conditioning system cools a fluid by a heat exchanger inside a cold storage tank and cools a room by using a cooled fluid.

5 is a perspective view of a main part of a cold storage air conditioning system according to the prior art.

As shown in FIG. 1, the air-cooling air conditioning system according to the prior art cools a room by using a cold storage tank 4 having a heat exchanger 2 disposed therein and a fluid discharged from the cold storage tank 4. It is comprised including the air conditioner (6).

The heat exchanger (2) is a pipe arranged in a zigzag shape on the inner lower portion of the cold storage tank (4), and a refrigerant for cooling the fluid in the cold storage tank (4) flows therein.

A recovery pipe 8 for returning the hot fluid heated while passing through the air conditioner 6 to the storage cooling tank 4 is connected to an upper portion of the storage cooling tank 4, and a lower portion of the storage cooling tank 4 is connected. A supply pipe 10 for guiding the fluid cooled by the heat exchanger 2 into the cooler 6 is connected to the inside of the cold storage tank 4.

A diffuser (not shown) for dispersing the high temperature fluid recovered through the recovery pipe 8 into the storage cooling tank 4 is installed at the upper portion of the storage cooling tank 4.

Referring to the operation of the conventional cold storage air conditioning system configured as described above are as follows.

First, the fluid inside the heat storage tank 4 is cooled by the heat exchanger 2.

The high temperature fluid in the fluid in the cold storage tank 4 is lowered in density and ascends to the upper portion of the cold storage tank 4, and the low temperature fluid becomes higher in density and descends to the lower part of the cold storage tank 4, between the hot fluid and the low temperature fluid. Stratification which forms an arbitrary film | membrane in progress is advanced.

The low temperature fluid located in the lower portion of the cold storage tank 4 is introduced into the air conditioner 6 through the supply pipe 10 when the lower outlet of the cold storage tank 4 is opened. After heating to a high temperature while cooling, it is passed through the recovery pipe 8 and the diffuser one by one, and recovered to the upper portion of the storage cooling tank 4.

The fluid recovered in the cold storage tank 4 cools the room while repeating the above cooling, stratification, supply, heating and recovery.

However, in the storage cooling air conditioning system according to the prior art, when the height of the storage cooling tank (4) is low, the cooling of the high-temperature fluid recovered to the storage cooling tank (4) is non-uniform, the path of the high temperature fluid to a specific portion occurs There is a problem that the temperature of the fluid supplied through the supply pipe 10 becomes high.

The present invention has been made to solve the above problems of the prior art, it is an object of the present invention to provide a cold storage air conditioning system to improve the cooling performance by promoting the stratification of the fluid to supply a low temperature fluid of a constant temperature to the cooler.

Another object of the present invention is to provide a control method of a storage cooling air-conditioning system that can provide a comfortable cooling to the user by controlling the storage of the storage cooling in the storage cooling tank.

A refrigeration air conditioning system according to the present invention for solving the above problems is a refrigeration tank having a heat exchanger disposed therein; A panel for dividing the interior of the storage cooling tank into a plurality of cells to facilitate stratification of the fluid supplied into the storage storage tank; It characterized in that it comprises a cooler for cooling the room using the fluid discharged from the storage tank.

The control method of the cold storage air conditioning system according to the present invention includes a load sensing step of detecting a cooling load; A determination step of determining an appropriate cooling amount corresponding to the sensed load; And a fluid control step of supplying a fluid contained in the plurality of cells of the storage cooling tank to the cooler in response to the determined appropriate cooling amount.

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

1 is a perspective view of an embodiment of a storage cooling air conditioning system according to the present invention, Figure 2 is an exploded perspective view of the main part of the storage cooling air conditioning system according to an embodiment of the present invention, Figure 3 is a view of the inside of a storage cooling tank of the storage cooling air conditioning system according to the present invention Section.

1 to 3, the heat storage air conditioner according to the present invention, the heat exchanger 52 is disposed inside the cold storage tank 50, the fluid Wa, Panels 54 and 56 for dividing the interior of the cold storage tank 50 into a plurality of cells A, B, and C are arranged to facilitate the stratification of Wb).

The heat exchanger 52 is arranged to be located inside each of the plurality of cells A, B and C.

The heat exchanger 52 is a zigzag-shaped pipe vertically disposed in the zigzag shape inside the storage tank 50, and a refrigerant for cooling the fluid in the storage tank 50 flows therein.

The heat exchanger 52 comprises an evaporator in a refrigeration cycle consisting of a compressor, a condenser, an expander, and an evaporator, and the refrigerant evaporates while absorbing the heat of the fluid in the storage cold storage tank (50).

The storage tank 50 has a recovery hole (50a, 50b, 50c) communicating with each of the cells (A, B, C) so that the fluid can be recovered to each of the plurality of cells (A, B, C) And a supply hole 50e, 50f, 50g communicating with each of the cells A, B, and C so that fluid may be supplied to the air conditioner 58 in each of the plurality of cells A, B, and C. Is formed.

The heat storage air conditioning system further includes supply valves 60, 62, and 64 that open and close each of the supply holes 50e, 50f, and 50g.

Between the recovery holes 50a, 50b, 50c and the air conditioner 58, a recovery pipe 66 for recovering the heated hot fluid Wb through the air conditioner 58 into the heat storage tank 50 is provided. The low temperature fluid Wa supplied from the cells A, B, and C of the heat storage tank 50 is connected between the supply valves 60, 62, 64 and the air conditioner 58. There is arranged a supply pipe 68 for supplying to.

On the other hand, the cold storage tank 50 is formed with a guide rib for guiding the vertical sliding mounting of the panel (54, 56).

The guide rib is formed to protrude on the inner wall surface of the heat storage tank 50, the left and right ribs 72, 74 are spaced apart from the left and right by the thickness of the panel (54, 56) and arranged long vertically, The rear left and right ribs 72 and 74 are spaced apart by the front and rear widths of the panels 54 and 56, and are spaced left and right by the thickness of the panels 54 and 56, and the rear left and right sides are vertically disposed. And ribs 76,78.

The panels 54 and 56 have a height H compared to a width L1 of a space (cells A, B, and C) in which the fluid is contained, and a height H compared to a width L2 of the heat storage tank 50. In order to promote the stratification of the fluid by making it higher, it is arrange | positioned perpendicularly to the inside of the said storage cooling tank 50.

In general, the effect of stratification of the fluid becomes larger as the height of the space in which the fluid is contained increases. The height H of each of the cells A, B, and C is compared to the width L1 of the fluid storage tank 50. As the height (H) relative to the width (L2) of the to prevent the mixing of the hot fluid (Wb) and the low temperature fluid (Wa) in the cold storage tank (50).

In addition, each of the panels 54 and 56 is formed of ABS or PVC, and the communication holes 54a, 56a) is formed.

Looking at the operation of the present invention configured as described above are as follows.

Figure 4 is a flow chart illustrating an embodiment of a control method of a cold storage air conditioning system according to the present invention.

First, the cooling load of the air conditioner 58 is sensed.

Then, it determines the appropriate cooling amount corresponding to the detected cooling load (S2).

Then, the fluid contained in each of the cells A, B, and C of the heat storage tank 50 is supplied to the cooler in response to the determined appropriate cooling amount (S3).

That is, the supply amount of the fluid contained in each of the cells A, B, and C of the storage tank 50 is determined, and the on / off of the supply valves 60, 62, 64 is controlled according to the determined supply amount of the fluid. do.

For example, when the cooling load is small and the low temperature fluid contained in any one of the plurality of cells A, B, and C is sufficient, any one of the plurality of cells A, B, and C is sufficient. Only the valve 60 installed in the supply hole 50d of the was opened, and the remaining 62, 64 were turned off.

When the valve 60 is opened as described above, the low temperature fluid Wa contained in any one of the cells A, B, and C is supplied to the supply hole 50d, the supply valve 60, and the supply pipe. After passing through the (68) in order to flow into the air conditioner 58, and to cool the room while passing through the inside of the air conditioner 58, and heated to a high temperature after the recovery pipe 66 and the recovery holes (50a, 50b. Through the 50c) is recovered into the cold storage tank (50).

The recovered high temperature fluid Wb is cooled by the heat exchanger 52, and the high temperature fluid Wb among the fluids contained in the cells A, B, and C has a low density, and thus the cells A, B, Ascending to the top of C), the cold fluid Wa becomes dense and descends to the bottom of the cells A, B and C.

Meanwhile, the low temperature fluid Wa disposed under the plurality of cells A, B, and C is moved to another cell having a relatively low pressure through the communication holes 54a and 56a of the panels 54 and 56.

Thereafter, the fluid inside the storage tank 50 cools the room while repeating the stratification, supply, heating, recovery, and cooling as described above.

On the other hand, when a cooling load is medium and a low temperature fluid contained in two of the cells A, B, and C is required, two cells A, B of the cells A, B, and C may be The valves 60 and 62 provided in the supply holes 50d and 50e are opened, the rest 64 is turned off, and the stratification, supply, heating, recovery, and cooling of the fluid in the storage cooling tank 50 have a cooling load. Since it is the same as the small case, the detailed description thereof will be omitted.

In addition, when a cooling load is large and low-temperature fluid of all of the plurality of cells A, B, and C is required, a valve provided in each of the supply holes 50d, 50e, and 50f of each of the plurality of cells A, B, and C is provided. Each of 60, 62, and 64 is opened, and the stratification, supply, heating, recovery, and cooling of the fluid in the storage cooling tank 50 are the same as those in the case where the cooling load is small.

On the other hand, the control method of the heat storage air conditioning system according to the present invention, when the determined appropriate cooling amount exceeds the cooling amount of any one of the plurality of cells (A, B, C), the plurality of cells (A, B, C) The supply holes 50d, 50e, and 50f are sequentially opened to manage proper cooling load.

That is, when the low temperature fluid Wa contained in any one A of the plurality of cells A, B, and C is supplied to a predetermined value (for example, 90%) or more, the plurality of cells ( The low temperature fluid Wa contained in the other B of A, B, and C is supplied.

In the cold storage air conditioning system according to the present invention configured as described above, a panel is installed in the cold storage tank so as to divide the inside of the cold storage tank into a plurality of cells, and as the stratification of the fluid inside the cold storage tank is promoted, the hot fluid and the low temperature fluid are mixed. Since only a low temperature fluid of a constant temperature is supplied to the cooler, there is an advantage that the cooling performance is improved.

In addition, the storage cooling air-conditioning system according to the present invention has a guide rib for guiding the vertical sliding mounting of the panel is formed in the storage cooling tank, there is an advantage that the panel can be easily attached and detached.

In addition, the cold storage air conditioning system according to the present invention has a communication hole is formed in the lower portion of the panel, it is possible to quickly move the low-temperature fluid has the advantage that the low-temperature fluid can be quickly supplied to each of the plurality of cells.

In addition, the control method of the storage cooling air-conditioning system according to the present invention detects the cooling load and then determines the appropriate cooling amount corresponding to the detected load, and in response to the determined appropriate cooling amount, the fluid contained in the plurality of cells of the storage cooling tank Since it is supplied to the cooler, it is possible to control the low-temperature fluid of the storage tank in accordance with the cooling load, provide a comfortable cooling to the user and there is an advantage that the energy can be reduced.

1 is a perspective view of an embodiment of a cold storage air conditioning system according to the present invention;

Figure 2 is an exploded perspective view of the main part of the heat storage air conditioning system according to an embodiment of the present invention,

3 is a cross-sectional view showing the inside of the cold storage tank of the cold storage air conditioning system according to an embodiment of the present invention;

Figure 4 is a flow chart illustrating an embodiment of a control method of a cold storage air conditioning system according to the present invention,

Figure 5 is an exploded perspective view of the main part of the air-cooled air conditioning system according to the prior art.

<Explanation of symbols on main parts of the drawings>

50: cold storage tank 50a, 50b, 50c: recovery hole

50d, 50e, 50f: supply hole 52: heat exchanger

54, 56: Panel 58: air conditioner

60, 62, 64: supply valve 66: return pipe

68: supply pipe A, B, C: cell

Wa: low temperature fluid Wb: high temperature fluid

Claims (11)

A cold storage tank having a heat exchanger disposed therein; A panel for dividing the interior of the storage cooling tank into a plurality of cells to facilitate stratification of the fluid supplied into the storage storage tank; And a cooler configured to cool the room by using the fluid discharged from the cool storage tank. The method of claim 1, The storage cooling tank is a storage cooling air conditioning system, characterized in that the recovery hole in communication with each cell is formed in the upper portion so that the fluid can be recovered to each of the plurality of cells. The method of claim 1, The storage cooling tank is a storage cooling air conditioning system, characterized in that the supply hole communicating with each cell is formed in the lower portion so that the fluid can be supplied from each of the plurality of cells. The method of claim 3, wherein The heat storage air conditioning system further comprises a supply valve for opening and closing each of the supply holes. The method of claim 1, The cold storage tank is a cold storage air conditioning system, characterized in that the guide ribs for guiding the vertical sliding mounting of the panel is formed. The method according to any one of claims 1 to 5, The panel is a refrigeration air conditioning system, characterized in that the communication hole formed in the lower portion. The method according to any one of claims 1 to 5, And the panel is disposed vertically in the interior of the cold storage tank. The method according to any one of claims 1 to 5, And the heat exchanger is arranged to be positioned inside each of the plurality of cells. A load sensing step of detecting a cooling load; A determination step of determining an appropriate cooling amount corresponding to the sensed load; And a fluid control step of supplying a fluid contained in the plurality of cells of the cold storage tank to the cooler in response to the determined appropriate cooling amount. The method of claim 9, The fluid control step of the control method of the refrigeration air conditioning system, characterized in that to open the supply holes of the plurality of cells sequentially when the determined appropriate cooling amount exceeds any one of the plurality of cells. The method of claim 9, The fluid control step of the control method of the cold storage air conditioning system, characterized in that on / off the supply valve for opening and closing each of the supply holes of the plurality of cells.