KR100393853B1 - The heating device of the absorption refrigeration and heating apparatus - Google Patents

Abstract

The present invention prevents the refrigerant vapor from detonating at the lower end of the evaporator by separating the solution and the refrigerant vapor which is moved from the high temperature regenerator to the lower part of the evaporator during heating, and to obtain a high heating efficiency by allowing the refrigerant steam to directly heat hot water. In addition, it is to provide a heating device of a small gas absorption air-conditioner that can reduce the size and size of the valve by reducing the movement resistance of the solution and the refrigerant vapor. To this end, the present invention provides a lithium bromide (LiBr) aqueous solution A refrigerant heating valve 14 is installed between the high temperature regenerator 11 and the lower part of the evaporator 12 of the small gas absorption air conditioner using water as a refrigerant and moves from the high temperature regenerator 11 to the condenser 13. Small gas absorption is provided on the branch branch pipe 16 is installed in the refrigerant orifice (15) branched to the evaporator 12 In the air conditioner, the inlet of the air conditioning valve 14 is located below the level of the solution of the high temperature regenerator 11 so that only the hot solution during heating is moved to the bottom of the evaporator 12 through the air conditioning valve 14, On the branch pipe 16 is characterized in that the refrigerant heating valve 17 is installed in parallel so that the hot refrigerant vapor generated in the high temperature regenerator 11 is moved directly to the evaporator 12.

Description

Heating device of the absorption refrigeration and heating apparatus

The present invention relates to a heating device of a small gas absorption air conditioner, and more specifically, to install a heating and cooling pipe between the high temperature regenerator and the lower part of the evaporator, the solution during heating by placing the inlet of the heating and heating valve below the water level of the high temperature regenerator The bay is moved to the evaporator through a heating and heating valve, and a refrigerant heating valve is installed on the branch pipe installed between the condenser and the evaporator to prevent the detonation phenomenon at the bottom of the evaporator by allowing the refrigerant vapor generated from the high temperature regenerator to be moved directly to the evaporator. In addition to providing high heating efficiency and reducing the transfer resistance of the solution and refrigerant vapor, it is possible to reduce the size or size of the valve.

In general, an absorption type air conditioner using an aqueous solution such as lithium bromide as an absorption solution and water as a refrigerant, includes a heating source and a regenerator for regenerating the absorption solution and generating a refrigerant, a solution pump for circulating the solution, and a refrigerant. An evaporator for evaporating, an absorber for absorbing refrigerant vapor evaporated from the evaporator, a cold water circuit for discharging the evaporative heat from the evaporator and introducing cold water cooled in the evaporator tube into the indoor unit to supply cold air to the room, and absorbing the absorber in the room. It is made of a cooling device such as a cooling tower to discharge the heat to the outside.

In this absorption type air conditioner, the heating method is to generate high temperature hot water and supply it through a radiator such as an indoor unit or a floor heating pipe that is installed in a place where heating is required. Instead of receiving a stable hot water (55 ~ 60 ℃) can always be supplied.

In the absorption type air conditioner, heating is divided into an evaporator type, an absorber type, a condenser type type, and a dedicated hot water heat exchanger type type, and all of them use the latent heat of condensation as a heating source. .

First, according to the evaporator method, hot water is obtained from the evaporator in the same manner as the cold water in the air conditioner. The refrigerant vapor is transferred directly to the evaporator to heat hot water, and the refrigerant condensed in the evaporator is combined with the absorbing solution in the absorber and sent to the high temperature regenerator by the absorbing solution pump for operation. There is this.

In addition, according to the absorber and condenser system, the hot water is extracted from the cooling water system during cooling, and the hot water is heated by the heat of retention of the absorption solution used as an aqueous solution in the absorber. That's the way. There is also a way to extract hot water only with a condenser.

In addition, according to the dedicated hot water heat exchanger method, hot water is taken out from a hot water heat exchanger that is independently installed independently. The hot water is heated by a refrigerant vapor generated from a high temperature regenerator, and the refrigerant condensed in the water heater flows into the high temperature regenerator. That's the way. At this time, air-conditioning switching valve should be closed on low temperature side of absorber, evaporator, condenser and low temperature regenerator. However, when the hot and cold water is simultaneously taken out, hot water can be taken out from the dedicated hot water heat exchanger at the same time as the operation of the cooling cycle.

However, according to the heating method using the evaporator in the heating method of such an absorption air conditioner, the heating device is installed between the high temperature regenerator 11 and the lower part of the evaporator 12 as shown in FIG. On the refrigerant pipe moving from the regenerator 11 to the condenser 13, a branch pipe 16 branched from the refrigerant orifice 15 to the evaporator 12 is installed.

When heating using the heating device, the heating valve 14 of the heating pipe installed between the high temperature regenerator 11 and the evaporator 12 is opened to directly move the refrigerant vapor generated from the high temperature regenerator 11 to the evaporator 12. The hot water is heated, and the refrigerant condensed in the evaporator 12 is combined with the absorbing solution in the absorber and sent to the high temperature regenerator 11 by the absorbing solution pump for operation. When heating the evaporator 12 during cooling, Since the condenser 13 is used for heating, there is an advantage to reduce the size of the appliance, but the opening size of the heating valve is limited, if the size is small, there is a problem that can not satisfy the sufficient heating heat. .

In addition, in the high temperature regenerator 11, the gas flowing into the lower end of the evaporator 12 in the state in which the refrigerant vapor gas is mixed with the solution is increased as the detonation rises so that the solution level of the lower end of the evaporator 12 swings up and down. The fluctuation of the solution causes the device to vibrate and the solution comes into contact with the evaporator 12 easily, where the surface of the evaporator 12 is coated with a corrosive material in order to increase the evaporator 12 performance. Corrosion occurred and the performance of the evaporator 12 may be degraded.

The present invention has been made in order to solve the above-mentioned problems, and for the purpose of the present invention, only the solution from the high temperature regenerator is moved to the lower part of the evaporator to prevent the explosion phenomenon caused by the refrigerant vapor, as well as the refrigerant vapor generated from the high temperature regenerator. The present invention is to provide a heating device of a small gas absorption air conditioner in which the refrigerant vapor is directly heated to the evaporator through a refrigerant heating valve on the branch pipe to directly heat hot water to obtain high heating efficiency. In order to provide a heating device of a small gas absorption air conditioner, the solution and the refrigerant steam are separated through the air conditioning valve and the refrigerant heating valve, respectively, to reduce the movement resistance and to reduce the size or size of the valve.

1 is a schematic view showing the operation principle of a general absorption type air conditioner.

2 is a flow chart showing heating using an evaporator in a conventional absorption air conditioner.

Figure 3 is a flow chart showing the heating using the evaporator in the absorption air conditioner according to the present invention.

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

10; Absorption air conditioners 11; High temperature regenerator

12; Evaporator 13; Condenser

14; Heating and cooling valve 15; Refrigerant Orifice

16; Branch piping 17; Refrigerant Heating Valve

The present invention for achieving the above object

A cooling and heating valve is installed between the high temperature regenerator and the lower part of the evaporator of a small gas absorption air conditioner using an aqueous solution of lithium bromide (LiBr) as a refrigerant and branched from the refrigerant orifice to the evaporator on the refrigerant pipe that moves from the high temperature regenerator to the condenser. In the small gas absorption air-conditioner is installed with a branch pipe,

The inlet of the heating and cooling valve is located below the level of the solution of the high temperature regenerator so that only the hot solution is heated to the lower part of the evaporator through the heating and heating valve. On the branch pipe, the hot refrigerant vapor generated from the high temperature regenerator is directly transferred to the evaporator. The refrigerant heating valve is installed in parallel to move.

That is, a heating and heating valve is installed between the high temperature regenerator and the lower part of the evaporator, and the inlet of the heating / heating valve is positioned below the level of the solution of the high temperature regenerator so that only the solution is moved to the evaporator through the heating and cooling valve to the evaporator when heating the refrigerant vapor at the bottom of the evaporator. And a refrigerant heating valve on a branch pipe installed between the condenser and the evaporator, so that the refrigerant vapor generated from the high temperature regenerator can be directly transferred to the evaporator, thereby obtaining high heating efficiency. The solution and the refrigerant vapor are moved to the evaporator in the separated state through the air conditioning valve and the refrigerant heating valve, respectively, to reduce the movement resistance and to reduce the size or size of the valve.

Such, when described in detail with reference to the accompanying drawings of the present invention.

Figure 3 is a flow chart showing the heating using the evaporator in the absorption air conditioner according to the present invention.

The heating apparatus of the absorption type air conditioner according to the present invention is a heating method using an evaporator as shown in FIG. 3, and sends a solution heated in the high temperature regenerator 11 to a lower end of the evaporator 12, and a refrigerant flowing into the evaporator 12. Hot water is produced in such a way that the vapor is condensed in the evaporator 12.

To this end, a heating and cooling pipe is provided between the high temperature regenerator 11 and the lower part of the evaporator 12, and a heating and heating valve 14, which is a solenoid on / off vacuum valve, is installed in the middle of the heating pipe. The inlet of the 14 is positioned below the level of the solution of the hot regenerator 11 such that only the solution is moved to the bottom of the evaporator 12 through the heating / heating valve 14 when the hot regenerator 11 is heated.

Subsequently, a refrigerant orifice 15 is provided on the refrigerant pipe moving from the high temperature regenerator 11 to the condenser 13, and a branch pipe 16 branched to the evaporator 12 is installed on the refrigerant orifice 15.

Subsequently, a refrigerant heating valve 17 is installed on the branch pipe 16 so that the refrigerant vapor generated from the high temperature regenerator 11 is moved directly to the evaporator 12 during the heating operation.

According to the heating apparatus of the absorption type air conditioner according to the present invention having such a configuration,

When cooling, the heating valve 14 is closed to prevent the solution or the refrigerant from moving, and when heating, the heating valve 14 is opened so that the high temperature refrigerant vapor and the solution of the high temperature regenerator 11 are transferred to the evaporator 12. Heat to move.

In particular, in the heating operation, the heating valve 14 installed between the high temperature regenerator 11 and the lower part of the evaporator 12 is opened and then installed on the refrigerant pipe moving from the high temperature regenerator 11 to the condenser 13. When the refrigerant heating valve 17 branched to the evaporator 12 in front of the refrigerant orifice 15 is opened, only the hot solution generated in the high temperature regenerator 11 is lowered to the evaporator 12 through the heating valve 14. The high temperature refrigerant vapor is moved to the evaporator 12 through the refrigerant heating valve 17. At this time, some of the refrigerant vapor is moved to the evaporator 12 through the condenser (13).

That is, when the high temperature regenerator 11 is heated with a gas burner or other heat source, the solution of the high temperature regenerator 11 generates a refrigerant vapor while increasing the temperature, thereby increasing the pressure.

As the pressure increases as the temperature of the solution increases, the inlet of the refrigerant heating valve 14 is positioned below the solution level, so that only the solution heated in the high temperature regenerator 11 is heated to the high temperature regenerator 11 and the evaporator ( 12) By moving to the lower part of the evaporator 12 through the heating and cooling valve 14 and the heating pipe between the lower portion to prevent the detonation of the solution flowing into the lower part of the evaporator (12).

In addition, the refrigerant vapor generated in the high temperature regenerator (11) is the inlet of the pipe above the liquid level or separated by a diaphragm so that the refrigerant vapor is moved through the refrigerant pipe provided between the high temperature regenerator (11) and the condenser (13). At this time, when the refrigerant heating valve 17 is installed on the pipe branching to the evaporator 12 at the front end of the refrigerant orifice 15, most of the refrigerant vapor is evaporator 12 through the refrigerant heating valve 17 The heating efficiency is improved by directly heating the hot water to heat the hot water. That is, the pipe of the high temperature regenerator-low temperature regenerator-absorber system, which is used for cooling, takes more resistance than the heating pipe, so that the high temperature regenerator (11) In the refrigerant pipe leading to the condenser 13, some refrigerant or refrigerant vapor is moved into the evaporator 12, and most of the refrigerant vapor is evaporator 12 through the refrigerant heating valve 17. Will be moved to.

As such, the refrigerant vapor moved to the evaporator 12 is condensed on the surface of the evaporator 12 and the hot water received the condensation heat is sent to the indoor unit through a cold / hot water pump to radiate heat, that is, the hot water cooled down is recirculated. Heating is performed by reheating. In addition, the condensed refrigerant vapor is mixed with the solution in the lower part of the evaporator 12 and sent to the high temperature regenerator 11 again by the solution pump to be reheated, thereby preventing the determination of the solution and forming one heating cycle. The high temperature solution and the refrigerant vapor generated in the regenerator 11 are directly moved into the evaporator in a separated state through the air conditioning valve 14 and the refrigerant heating valve 17, respectively. Reduced travel resistance allows the size or size of the valve to be reduced.

As described above, in the present invention, only the solution moves through the heating / cooling valve provided between the high temperature regenerator and the lower part of the evaporator in the heating using the absorption air conditioner or the cold / hot water machine, so that the evaporator is corroded because the refrigerant vapor is not detonated at the lower part of the evaporator. In addition to the effects that can be prevented, there is an effect that can prevent the device from vibrating due to the explosion of the refrigerant vapor.

In addition, by moving the solution and the refrigerant vapor to the evaporator separately through the air conditioning valve and the refrigerant heating valve, the movement resistance can be reduced and the size or size of the valve can be reduced. There is little fear of movement, there is no unnecessary heat loss, and the refrigerant vapor is moved directly to the evaporator to heat the hot water to achieve the effect of obtaining a high heating efficiency.

Claims (1)

A heating / heating valve 14 is installed between the high temperature regenerator 11 and the lower part of the evaporator 12 of the small gas absorption air conditioner using an aqueous solution of lithium bromide (LiBr) as a water absorbent and the condenser (11) in the high temperature regenerator (11). In the small gas absorption air-conditioner, which is provided with a branch pipe 16 branched from the refrigerant orifice 15 to the evaporator 12 on the refrigerant pipe moving to 13), The inlet of the heating and cooling valve 14 is located below the level of the solution of the high temperature regenerator 11 so that only the hot solution during heating is moved to the bottom of the evaporator 12 through the heating and heating valve 14, the branch pipe (16) The heating device of the small gas absorption air conditioner, characterized in that the refrigerant heating valve 17 is installed in parallel so that the high temperature refrigerant vapor generated in the high temperature regenerator (11) is directly moved to the evaporator (12).