KR200275757Y1 - Absorption chiller - Google Patents

Abstract

The present invention relates to an absorption cold / hot water heater, wherein the evaporator (2) and the absorber (4) are installed vertically therein, and the lower portion of the rare solvent is first heated through the low temperature heat exchanger (12), and then the high temperature heat exchanger (14). A regenerator pump 30 is provided to supply the high temperature regenerator 16 via the first housing H1 having the low temperature regenerator 6 installed thereon, and the condenser 8 at the upper portion of the low temperature regenerator 6. Including a second housing (H2) and the refrigerant transport pipe provided to connect the evaporator (2) and the condenser (8) installed in the second housing (H2) is installed in the first housing (H1). In the absorption type cold and hot water heater, provided with a hollow cylindrical pressure control chamber 90 is blocked at both ends in the middle of the refrigerant transfer pipe (80, 82), the refrigerant transfer pipe conduit from the second housing (H2) so as to communicate with the inside thereof ( 80) is communicated to the lower side relative to the center of the pressure control chamber (90). In addition to the lock connection, the refrigerant transport pipe 82 of the outlet side connected to the first housing (H1) is characterized in that the connection is provided on the upper side, so that the evaporation action is not interrupted to improve the operating efficiency of the water heater have.

Description

Absorption chiller

The present invention relates to an absorption chiller, and in particular, by installing a chamber in the condensation refrigerant condenser connecting the condenser and the evaporator, so that the condenser and the evaporator is blocked during light load operation and dilution operation of the cold and hot water generator, and continuous evaporation occurs. It relates to an absorption cold and hot water heater to improve the operating efficiency.

In general, the air conditioner is to maintain the optimum temperature and humidity according to all climatic conditions and indoor environment, and a humidifier to maintain proper humidity, including air conditioning and heating to cool or warm the room air. Ventilation equipment for discharging indoor air to the outside is included.

Such an air conditioner may be classified into various types according to a refrigerant to be used, and in particular, water is used as a refrigerant to absorb cold and hot water. In the absorption type cold and hot water machine using water as a refrigerant, lithium bromide (LiBr) (absorption solution) is mainly used as an absorbent, and water and lithium bromide solution are heated using steam or hot water.

FIG. 1 is a schematic configuration diagram of a general absorption cold / hot water heater. In the schematic configuration of the absorption cold / hot water heater, the lower part of the first housing H1 in which the evaporator 2 and the absorber 4 are installed vertically is a regenerator pump 30. Is installed to firstly heat the rare solution through the low temperature heat exchanger (12), and to supply the high temperature heat exchanger (14) to the high temperature regenerator (16), and to the upper portion of the first housing (H1). The low temperature regenerator 6 and the second housing H2 in which the condenser 8 is built in the upper part of the low temperature regenerator 6 are provided.

Here, the low temperature regenerator (6) is to supply steam and concentrate to the condenser (8) and the absorber (4), the rare solution that is supplied heat to the burner (42) of the high temperature regenerator (16) is the Separated by steam, the separated hot steam is passed through the tube 54 of the cryogenic regenerator 6 connected to the first pipe 52, at this time via the high temperature heat exchanger 14 through the second pipe (58). While the heat-exchanged concentrate is sprayed to the outside of the tube 54 of the cryogenic regenerator 6, the concentrated liquid is heated to the heat of the hot steam flowing therein to change into steam.

This steam flows into the condenser 8 installed on one side, and the heavy solution is sent to the absorber 4 via the low temperature heat exchanger 12.

The condenser 8 is provided with a first cooling line 70 having a second heat exchanger 72 connected to a first heat exchanger 74 installed in the absorber 4.

The evaporator 2 is the refrigerant liquid generated by the vapor contact with the second heat exchange unit 72 in the condenser 8 passes through the refrigerant transfer pipe 23 connecting the condenser 8 and the evaporator 2, the injector 24 By spraying through), it is adapted to absorb heat from the cold water flowing therein.

Here, the injected refrigerant liquid is supplied to the inflow side of the refrigerant pump 20 through the drain plate 28 and the tank 18 provided at the lower end of the third heat exchanger 26 and the third pipe connected to the discharge side. It is adapted to be resupplied to the injector 24 through the 22.

The discharge side of the refrigerant pump 20 is connected to the lower end of the second housing (H2) is selectively supplied to the inlet side of the regenerator pump (30).

In addition, an absorber pump 31 is provided on one side of the second housing H2 to supply the rare solution and the heavy solution to the absorber 4.

The absorption cold / hot water system configured as described above controls the fuel amount corresponding to the outlet temperature of the cold water provided by the evaporator.

That is, when the outlet temperature of the cold water changes due to the change in the temperature of the outside air, the amount of fuel is controlled accordingly, so that the light load operation is performed, and the amount of condensed refrigerant rapidly decreases during the dilution operation in which the continuous refrigerant is not transferred due to the power cut. Due to the cause, the refrigerant is not filled with the refrigerant in the transfer pipe, and the refrigerant transfer pipe communicates with the condenser and the evaporator, so that the pressure inside them is the same.

As a result, the evaporation is stopped, and there is a problem that the efficiency of the cold and hot water is lowered.

Therefore, the present invention has been devised to solve such a problem, by installing a chamber for regulating the pressure between the condenser and the evaporator to block the light load and dilution during operation, the continuous evaporation is made, operating efficiency It is an object of the present invention to provide an absorption cold and hot water heater to prevent the fall.

1 is a schematic configuration diagram of a general absorption chiller

2 is a schematic configuration diagram of an absorption cold / hot water heater according to the present invention

Figure 3 is a perspective view of the chamber used in the absorption chiller according to the present invention

Figure 4 is a longitudinal cross-sectional view of the chamber used for the absorption chiller according to the present invention

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

H1; First housing H2; Second Housing

2 ; Evaporator 8; Condenser

80,82; Refrigerant transfer pipe 90; Pressure control chamber

94a, 96a; parenthesis

In order to achieve the above object, the present invention installs the evaporator and the absorber vertically inside and heats the rare solution firstly through the low temperature heat exchanger, and then regenerator pump is installed to supply the high temperature regenerator via the high temperature heat exchanger. The upper housing includes a first housing in which a low temperature regenerator is installed, a second housing in which a condenser is installed in an upper portion of the low temperature regenerator, and a refrigerant provided to connect an evaporator in the first housing and a condenser in the second housing. In the absorption type cold and hot water heater comprising a feed pipe, provided with a hollow cylindrical pressure control chamber with both ends blocked in the middle of the refrigerant transfer pipe, the refrigerant transfer pipe conduit from the second housing so as to communicate with the inside of the central portion of the pressure control chamber In addition to being connected to the lower side as a reference, the outlet side connected to the first housing Refrigerant transfer pipe absorption cold and hot water characterized in that the upper side is provided with a connection.

Hereinafter, described in detail with reference to the accompanying drawings, the subject innovation is as follows.

Figure 2 is a schematic configuration diagram of the absorption chiller according to the present invention, Figure 3 is a perspective view of the chamber used in the absorption chiller according to the present invention, Figure 4 is a longitudinal cross-sectional view of the chamber used in the absorption chiller according to the present invention. The same code | symbol is used about the structure similar to a conventional structure.

That is, the absorption chiller according to the present invention has a light load operation generated by controlling the fuel amount when the outlet temperature of the cold water is changed due to the change in the temperature of the outside air, and during the dilution operation where the continuous refrigerant is not transferred due to the power cut. The evaporator 2 and the absorber 4 are installed vertically in the interior, and the rare solvent is primarily heated through the low temperature heat exchanger 12 at the bottom, and then the high temperature heat exchanger is performed. A regenerator pump 30 for supplying the 14 to the high temperature regenerator 16 is installed, and a first housing H1 provided with a low temperature regenerator 6 is provided at an upper portion thereof, and a top portion of the low temperature regenerator 6 is provided. Refrigerant transfer pipe provided to connect the second housing (H2) in which the condenser (8) is installed, the evaporator (2) in the first housing (H1) and the condenser (8) in the second housing (H2) Refrigerant transfer pipe (80,82) of the absorption chiller A cylindrical pressure adjustment chamber 90 of the both ends of the blocking hollow is provided along the way.

At this time, the refrigerant transfer pipe 80 conduit from the second housing (H2) so as to communicate with the inner side of the pressure control chamber 90 is connected to the lower side relative to the center of the pressure control chamber 90, The refrigerant transport pipe 82 of the outlet side connected to the first housing H1 is connected to the upper side.

That is, as shown in FIGS. 3 and 4, the pressure adjusting chamber 90 has a predetermined height difference between the refrigerant transport pipe 80 connected to the condenser 8 and the refrigerant transport pipe 82 connected to the evaporator 2. In order to block the pressure, insertion holes 94a and 96a are formed at both sides of the chamber 90 so that the refrigerant transfer pipes 80 and 82 communicate with each other.

That is, it is preferable that the coolant transfer pipes 80 and 82 are symmetrically provided to have a predetermined length from the center of the pressure control chamber 90.

As such, during normal operation of the water heater, the refrigerant converted into liquid in the condenser 8 is introduced into the pressure control chamber 90 through the refrigerant transport pipe 80, and then the refrigerant transport pipe 82 connected to the insertion hole 94a is opened. It is supplied to the evaporator 2 by a predetermined amount through.

At this time, when converted to light load operation or dilution operation, the liquid inside the pressure control chamber 90 has an throttling action such as an expansion valve, so that refrigerant liquid is generated and the condenser 8 installed in the second housing H2. The refrigerant transport pipe (82) connected to the lower portion of the chamber (90) and the refrigerant transport pipe (80) connected to the lower part of the chamber (90) and connected to the evaporator (2) installed in the first housing (1) is the upper side of the chamber (90). The pressure difference is generated in each pipe (80,82) to the pipe is not filled with the liquid of the refrigerant due to the connection.

As a result, since the condenser 8 and the evaporator 2 are blocked, the evaporator 2 continues to evaporate.

As described above, the present invention by installing a chamber to prevent the same pressure is applied to one side of the refrigerant transfer pipe for moving the refrigerant from the condenser to the evaporator, the evaporation action is never ceased to improve the operating efficiency of the water heater There is an advantage to let.

Claims (1)

After the evaporator 2 and the absorber 4 are installed vertically in the interior and the rare solution is primarily heated through the low temperature heat exchanger 12, the high temperature heat exchanger 14 is supplied to the high temperature regenerator 16. A regenerator pump 30 is installed, and a first housing H1 having a low temperature regenerator 6 installed thereon, and a second housing H2 in which a condenser 8 is installed above the low temperature regenerator 6. ), And a refrigerant conveying tube comprising a refrigerant conveying tube provided to connect an evaporator 2 installed in the first housing H1 and a condenser 8 installed in the second housing H2, It is provided with a hollow cylindrical pressure control chamber 90 is blocked at both ends of the refrigerant transfer pipe (80, 82), the refrigerant transfer pipe (80) conduit from the second housing (H2) so as to communicate with the inside of the pressure control Absorbing cold water heater, characterized in that the connection is provided to communicate with the lower side relative to the center of the chamber 90, the refrigerant transfer pipe 82 of the outlet side connected to the first housing (H1) is connected to the upper side. .