KR200148297Y1 - Airconditioner - Google Patents

Abstract

The present invention discloses an air conditioner.

According to the present invention, the refrigerant gas compressed to high temperature and high pressure by the operation of the compressor is liquefied by being supplied to the condensation key through the discharge line, and the refrigerant liquefied by the action of the condenser is supplied to the evaporator through the expansion valve to perform the cooling operation. An air conditioner, which is then fed back to the compressor via an accumulator, the air conditioner comprising: a bypass line connected between the discharge line and the inlet side of the evaporator; A equalization valve and a ball valve connected in parallel to the bypass line and selectively closed and opened in parallel with each other so that hot gas of the bypass line can be blocked and introduced; And a control unit for selectively closing and opening the equalizing valve and the ball valve in accordance with a set value of an operating condition. Therefore, since the equalization valve and the ball valve are closed and opened selectively in parallel with each other, the hot gas is blocked and introduced into the evaporator, so that the refrigerant pressure and the cooling temperature of the evaporator can be easily controlled to significantly improve the stability and controllability of the cooling cycle. Will be.

Description

air conditioner

The present invention relates to an air conditioner (air conditioner), and more particularly to an air conditioner to improve the stability and controllability of the cooling cycle (cooling cycle). The air conditioner cools the indoor air using a cooling cycle to maintain a comfortable temperature. The air conditioner liquefies a refrigerant gas compressed at high temperature and high pressure by the operation of a compressor in a condenser. Later, the air conditioner performs cooling by the heat of vaporization of the refrigerant by vaporizing in an evaporator through an expansion valve. As shown in FIG. 1, the cooling cycle of the air conditioner is supplied to the condenser 11 through a discharge line L. The refrigerant gas compressed to high temperature and high pressure by the operation of the compressor 10 is supplied to the condenser 11. Liquefied In addition, the refrigerant liquefied by the action of the condenser 11 is supplied to the expansion valve 15 via the pressure relife valve 12, the dehydrator 13 and the sight glass 14 in sequence. The liquid refrigerant insulated and expanded by the anchor valve 15 is supplied to the evaporator 16. Then, the liquid refrigerant is evaporated by the action of the evaporator 16, and after the cooling operation is performed by the heat of vaporization, the liquid refrigerant is supplied to the compressor 10 again via an accumulator 17. In the cooling cycle of the air conditioner, components such as the compressor 10 and the condenser 11 are installed outdoors to form an outdoor unit (Uo), and the components such as the evaporator 16 are an indoor unit (indoor). unit (Ui). However, the air conditioner as described above has a problem that the output cycle is severely changed according to the change in the operating conditions, that is, the environmental conditions, the cooling cycle becomes unstable. That is, in the rainy season during which the temperature changes rapidly, a poor condensation of the coolant occurs, and thus, an unbalance of the coolant in the evaporator 16 causes pressure imbalance between the components, resulting in a considerable unstable cooling cycle. In addition, when the cooling cycle of the air conditioner becomes unstable, control is difficult, resulting in a problem of lowering the reliability of the product.

The present invention has been made to solve the above-mentioned conventional problems, it is an object of the present invention to provide an air conditioner to improve the stability and controllability of the cooling cycle when the operating conditions change.

A feature of the present invention for achieving the above object is that the refrigerant gas compressed to high temperature and high pressure by the operation of the compressor is supplied to the condenser through the discharge line to liquefy, the refrigerant liquefied by the action of the condenser is expanded In the air conditioner is supplied to the evaporator through the valve to perform a cooling action, and then supplied back to the compressor via the accumulator, the air conditioner is connected in parallel to the bypass line and the bypass line connected between the discharge line and the inlet side of the evaporator. A pressure equalizing valve and a ball valve selectively closed and opened in parallel with each other so that hot gas of the bypass line can be blocked and introduced; The air conditioner includes a control unit for selectively closing and opening the equalizing valve and the ball valve according to the set value of the operating conditions. A more preferable feature of the air conditioner according to the present invention is that the ball valve is selectively closed or opened by an actuator driven according to the control signal of the controller. In addition, the temperature sensor for sensing the temperature of the room on the suction side of the evaporator is further mounted to be connected to the control unit.

1 is a system diagram showing a cooling cycle of a general air conditioner.

2 is a system diagram showing a cooling cycle of the air conditioner according to the present invention.

* Explanation of symbols for main parts of the drawings

20: compressor 21: condenser

25: expansion valve 26: evaporator

27: accumulator 30: bypass line

31: pressure regulating valve 32: ball valve

33: actuator 40: control unit

41: control panel 45: temperature sensor

Uo: outdoor unit Ui: indoor unit

Hereinafter, one preferred embodiment of an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the refrigerant gas compressed to high temperature and high pressure by the operation of the compressor 20 is supplied to the condenser 21 through the discharge line L to liquefy. In addition, the refrigerant liquefied by the action of the condenser 21 is supplied to the expansion valve 25 via the safety valve 22, the dryer 23, and the sight glass 24 sequentially, and is supplied by the expansion valve 25 The adiabatic expanded liquid refrigerant is supplied to the evaporator 26. Here, the safety valve 22 is supplied by adjusting the pressure of the liquid refrigerant to the set pressure or less, and the dryer 23 is dried by removing the moisture of the liquid refrigerant. Can be checked by the user. Then, the liquid refrigerant is vaporized by the action of the evaporator 26, and after cooling is performed by the heat of vaporization, it is again supplied to the compressor 20 via the accumulator 27, where the accumulator 27 is supplied with the liquid refrigerant. In the cooling cycle of the air conditioner, components such as the compressor 20 and the condenser 21 are installed outdoors to form an outdoor unit Uo, and the evaporator 26. The components of the back constitute the indoor unit Ui. Meanwhile, one side of a bypass line 30 is connected to the mischarge line L of the compressor 20 and the condenser 21, and the other side of the bypass line 30 is an evaporator 26. It is connected between the inlet side of the expansion valve 25 and the evaporator 26. In addition, the bypass line 30 is connected to the pressure regulating valve 31 and the ball valve 32 in parallel. . The pressure equalizing valve 31 and the ball valve 32 are selectively selected in parallel with each other so that the hot gas of the bypass line 30, that is, the high temperature and high pressure gas which are not liquefied by the action of the condenser 21, can be blocked and introduced. Closed and opened. Accordingly, the hot gas can be selectively supplied to the evaporator 26 through the bypass line 30. Here, the ball valve 32 is selectively closed and opened by driving the actuator 33. The equalization valve 31 and the ball valve 32 are controlled by the operation of the control unit 40, and the control water 40 is connected to the control panel 41. Accordingly, the user can selectively set the cooling mode of the air conditioner by operating the panel 41, and the cooling system of the air conditioner is operated by the control of the controller 40. Here, the controller 40 is constituted by a general microcomputer, while the indoor unit Ui is further equipped with a temperature sensor 45 for sensing the temperature of the room at the suction side of the evaporator 26. The temperature sensor 45 is connected to the control unit 40. Therefore, when the user sets the cooling mode by the control of the panel 41, the basic cooling mode is operated by the cooling cycle of the air conditioner to generate pressure on the lines of the respective components. Various general pressure and temperature sensors 45 (not shown) installed on such a line are operated. At this time, the equalization valve 31 is connected through a common capillary tube (not shown) of the refrigerant pressure of the outlet line of the evaporator 26. Will be detected. However, due to the heat radiation amount of the condenser 21 or the heat load of the evaporator 26, the fluctuation of the refrigerant pressure in the evaporator 26 may occur severely, and thus the refrigerant pressure of the evaporator 26 is generated beyond the operating condition set value of the air conditioner. If so, the equalization valve 31 is closed by the operation of the control unit 40 to block the hot gas from entering the evaporator 26. On the contrary, when the refrigerant pressure of the evaporator 26 drops below the operating condition set value of the air conditioner, the pressure regulator 31 is opened to open the equalization valve 31 so that the hot gas passes through the bypass line 30. 26, the refrigerant pressure of the evaporator 26 is increased accordingly. As such, the hot gas is selectively blocked and introduced into the evaporator 26 by the operation of the pressure equalizing valve 31, thereby maintaining a stable state of the refrigerant pressure of the evaporator 26.

On the other hand, in parallel with the operation of the equalization valve 31 described above, the air temperature at the suction side of the evaporator 26 is detected by the operation of the temperature sensor 45, and the temperature value detected by the temperature sensor 45 is controlled. 40 is passed. In addition, the control unit 40 operates the ball valve 32 by comparing the set value set in the operation condition with the temperature value detected by the temperature sensor 45. That is, the controller 40 compares the set value with the temperature value and outputs a control signal proportional thereto to operate the actuator 33 to selectively close and open the ball valve 32. As the ball valve 32 is closed and opened, the hot gas is selectively blocked and introduced into the evaporator 26 through the bypass line 30 to adjust the cooling temperature to an appropriate state by the action of the evaporator 26. do. In short, cooling of the evaporator 26 by closing and opening the ball valve 35 while keeping the refrigerant pressure of the evaporator 26 close to the set value of the operating conditions by closing and opening the equalization valve 31. By controlling the temperature, the phenomenon in which the refrigerant pressure fluctuation in the evaporator 26 is caused by the heat radiation amount of the condenser 21 or the heat load of the evaporator 26 is effectively improved.

In addition, the present invention, while maintaining the flow of the refrigerant naturally, the temperature, that is, the refrigerant pressure and cooling temperature of the evaporator 26 is controlled without a short circuit of the compressor 20 is greatly improved durability. Therefore, the present invention maintains a constant refrigerant pressure of the evaporator 26 even when the operating conditions of the air conditioner, i.e., the environmental conditions are severely changed, not only improves the stability of the cooling cycle but also facilitates the control of the cooling cycle. Controllability is improved. As a result, the reliability and performance of the product are significantly improved, and the practicality and versatility of the air conditioner are greatly expanded. On the other hand, the above embodiments are not limited to the description of one preferred embodiment of the present invention, the scope of the present invention is not limited to such, and can be changed as appropriate within the scope of the same idea.

As described above, according to the air conditioner according to the present invention, since the equalization valve and the ball valve are selectively closed and opened, the hot gas is blocked and introduced into the evaporator, so that the refrigerant pressure and the cooling temperature of the evaporator are easily controlled. The stability and controllability of the cooling cycle is significantly improved.

Claims (3)

The refrigerant gas compressed to high temperature and high pressure by the operation of the compressor is liquefied by being supplied to the condenser through the discharge line, and the refrigerant liquefied by the action of the condenser is supplied to the evaporator through the expansion valve to perform the cooling operation. In the air conditioner supplied to the compressor again via an accumulator, a bypass line (30) connected between the discharge line (L) and the inlet side of the evaporator (26) and the bypass line (30) A equalization valve 31 and a ball valve 32 connected in parallel and selectively closed and opened in parallel with each other so that the high temperature gas of the bypass line 30 can be blocked and introduced; And a control unit (40) for selectively closing and opening the equalizing valve (31) and the ball valve (32) in accordance with a set value of an operating condition. The air conditioner according to claim 1, wherein the ball valve (32) is selectively closed or opened by an actuator (33) driven according to a control signal of the controller (40). The air conditioner according to claim 1, further comprising a temperature sensor (45) connected to the control unit (40) for sensing the temperature of the room at the suction side of the evaporator (26).