KR200274095Y1 - Generator for Absorption Chiller and Heater - Google Patents

Abstract

The present invention relates to a regeneration device of an absorption type cooling and heating device, and a wire rod for increasing heat efficiency and thermal efficiency in the first and second spaces between the heat exchanger of the high temperature regenerator and the high temperature regenerator formed by the inner guide of the high temperature regenerator surrounding the same. Is a structure that is in contact with the inner surface of the high temperature regenerator. In the high temperature regenerator having a bell-shaped shape, while minimizing the size of the high temperature regenerator, the required heat transfer area is secured sufficiently to increase the efficiency for heat exchange, and further, the even movement speed of the combustion gas. By varying the amount of and to prevent the thermal efficiency is lowered by the combustion load.

Description

Absorption Chiller and Heater Regeneration Device

The present invention relates to a regeneration device of an absorption type cooling and heating device, and more particularly, to minimize the size of the high temperature regenerator having a bell shape to secure sufficient heat transfer area to increase efficiency for heat exchange and to evenly move combustion gas. By controlling the speed and the amount variably to prevent the thermal efficiency is lowered by the combustion load.

In general, an absorption type cooling and heating device using an aqueous solution of lithium bromide as an absorption solution is composed of a heating source, a high temperature regenerator and a low temperature regenerator to regenerate the absorption solution, and a solution pump for circulating the solution, An absorber for absorbing the evaporated refrigerant vapor, the absorption heat absorbed by the evaporation heat from the evaporator and the heat of condensation or cooler of the condenser.

In addition, since the solution inside the absorber absorbs the refrigerant by the absorption action, the concentration is lowered and the absorption capacity is lowered. At this time, the high temperature regenerator makes the dilute solution into a thick solution to increase the concentration.

This is because a heating source equipped with a high temperature regenerator heats the dilute solution to separate the refrigerant and the solution using the boiling point difference, and the evaporated refrigerant is sent to the condenser through the high temperature heat exchanger to the low temperature regenerator.

Here, the heating source of the regenerator is mainly to use a Bunsen-type slit burner, the flame area of the slit burner is usually made of a square shape to reduce the diameter of the high temperature regenerator.

1 is a view illustrating a conventional high temperature regenerator. First, a gas-liquid separator 14 containing a lithium bromide aqueous solution 12 is vertically accommodated in a high temperature regenerator 10 having a vertical shape. The high temperature regenerator heat exchanger 16, which is integrally connected to the gas-liquid separator 14 and is formed in a columnar shape, is spaced apart from the inner and outer surfaces of the high temperature regenerator 10 by a predetermined interval, respectively. 20), the central bottom portion of the high temperature regenerator 10 is equipped with a Bunsen slit burner 24 having a blowing fan 22. As shown in FIG.

In addition, an exhaust port 26 is formed on one side of the upper end of the high temperature regenerator 10 so that combustion gas is discharged through the first space part 18, and the first and second space parts 18 and 20 are provided with a tubular body ( The heat exchanger heat exchanger 16 and the heat exchanger fin 28 for heat exchange action are bonded to each other by the brazing method.

However, when increasing the cooling and heating ability of the high temperature regenerator 10 having the vertical structure as described above, the number of slit burners 24 must be additionally added accordingly, thereby forming a square slit burner 24. ) Is expanded to a rectangular shape by the slit burner 24 to which the flame area is added, and the diameter of the hot regenerator 10, which is usually circular, increases in proportion to the enlarged flame area, resulting in excessive size as a whole. There was this.

In addition, by increasing the length of the heat exchange fin 28 in order to secure the required heat exchange area, there is a difficulty in that the height of the high temperature regenerator 10 is increased accordingly, and the movement path of the combustion gas is naturally long, the movement speed And because the distribution is not constant to generate a local load according to the combustion gas flow resistance there was a problem that the thermal efficiency is lowered due to local heating.

In the figure, reference numeral 29 is a solution inlet pipe.

Therefore, the present invention has been devised to solve the above problems. When increasing the cooling and heating ability of the high temperature regenerator, the heat transfer area is sufficiently secured while minimizing the volume or size of the high temperature regenerator to increase the efficiency of heat exchange. In addition, it is an object of the present invention to provide a regeneration device of an absorption type air conditioner and heater for preventing the thermal efficiency from being lowered by local heating by balancing an equal movement speed and quantity of combustion gas.

1 is a front sectional view showing the inside of a high temperature regenerator of a conventional absorption type air conditioner and heater.

2 is a front sectional view showing the inside of the high temperature regenerator according to the present invention;

3 is a front sectional view showing another embodiment of the high temperature regenerator according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: high temperature regenerator 12: aqueous solution

14,32: gas-liquid separator 16: high temperature regenerator heat exchanger

18: first space portion 20: second space portion

22: blower fan 24: slit burner

26 exhaust port 28 heat exchange fin

30,38: Wire rod 34: Third space part

36: fourth space part

The present invention for achieving the above object is a wire rod for increasing heat efficiency and heat efficiency in the first and second spaces between the heat exchanger of the high temperature regenerator and the high temperature regenerator formed by the internal guides surrounding the high temperature regenerator. It is designed to be in contact with the inner surface of the structure, while minimizing the size of the high temperature regenerator and securing the necessary heat transfer area to increase the efficiency of heat exchange, and also by appropriately distributing the equal velocity and amount of combustion gas, the thermal efficiency is reduced. There is a feature in that it prevents.

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

2 is a view illustrating a high temperature regenerator of the present invention, and FIG. 3 shows another embodiment of a high temperature regenerator according to the present invention, and the same reference numerals as those of FIG. This description will be omitted in order to avoid duplicate description thereof, and only different points from FIG. 1 will be described.

Referring to FIG. 2, first, the high temperature regenerator heat exchanger 16 which is connected to the gas-liquid separator 14 and configured in a conical shape has first and second spaces 18 and 20 disposed on an inner surface of the high temperature regenerator 10. Is located close to the state to form, where the present invention is made of a thin wire 30 or stainless steel having heat resistance and corrosion resistance to the first and second spaces (18, 20) forming the flow path of the combustion gas The iron core made is attached and supported by a brazing method in a state of being intertwined to be in contact with the high temperature regenerator heat exchanger 16. Accordingly, the flow path of the combustion gas is very narrow due to the entanglement of the wire 30.

Meanwhile, FIG. 3 is a view showing another embodiment of the present invention. First, a gas-liquid separator 32 having a circular or pipe shape is formed perpendicularly to the slit burner 24 at an upper portion of the high temperature regenerator 10. It is accommodated in a spaced apart state, the wire rods in contact with the outer surface of the high temperature regenerator 10 in the third and fourth spaces 34 and 36 between the high temperature regenerator 10 and the internal guide 40 of the high temperature regenerator. (38) is equipped.

Therefore, when increasing the cooling and heating capability of the high temperature regenerator 10 configured as described above, the wire rods 30, 38 or stainless steel filled in the first, second, third and fourth space portions 18, 20, 34 and 36. Wire rods 30 and 38 filled in the first and third spaces 18 and 34 than the density of the wire rods 30 and 38 filled in the second and fourth spaces 20 and 36 by adjusting the density of the iron core made of a material. By narrowing the density of the combustion gas resistance to the exhaust port 29, it is possible to control the uniform movement speed and amount of the combustion gas, thereby increasing the efficiency for heat exchange.

In addition, the heat transfer area is sufficiently secured while minimizing the volume of the high temperature regenerator by contact and density due to the entanglement of the wire rods 30 and 38, thereby maximizing efficiency for heat exchange.

As described above, the present invention increases the cooling and heating ability of the high temperature regenerator having a bell shape, while minimizing the volume of the high temperature regenerator, ensuring sufficient heat transfer area to increase the efficiency of heat exchange, and at the same time, the movement speed of the combustion gas and By controlling the amount there is an effect of preventing the thermal efficiency is lowered by the combustion load.

Claims (3)

It is enclosed in the heat exchanger section of the high temperature regenerator with the inner guide of the high temperature regenerator to form the first and second space parts, and an exhaust port is formed at one upper end of the high temperature regenerator so that combustion gas is discharged through the first space part. In the regeneration device for absorption type air conditioner equipped with a Bunsen slit burner having a blowing fan at the center bottom of the high temperature regenerator, The first and second spaces between the heat exchanger of the high temperature regenerator and the high temperature regenerator formed by the internal guides surrounding the high temperature regenerator are provided with wire rods in contact with the inner surface of the high temperature regenerator to increase heat exchange efficiency and thermal efficiency. Absorption type cooling and heating device regeneration device characterized in that. The method of claim 1, The high temperature regenerator is composed of a conical heat exchanger and is located in an accommodating state at an upper portion of the high temperature regenerator spaced vertically from the slit burner, and the wire rod is in contact with the third and fourth space portions between the high temperature regenerator inner guide and the high temperature regenerator. Absorption type air conditioner, characterized in that the regeneration device for heating. The method according to claim 1 or 2, The wire rod is a regenerator for absorption type air conditioner, characterized in that the replaceable iron core made of stainless material.