JPH0979645A - Air conditioning device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning device which is capable of dehumidifying based on a cooling operation even in a middle temperature range with regards to an open air introduction type air conditioning device. SOLUTION: This air conditioning device includes indoor equipment 10 having a compressor 12 and an indoor heat exchanger 14, outdoor equipment 18 having an outdoor heat exchanger 20 connected to the indoor equipment 10 while the indoor equipment is provided with an open air introduction part which introduces open air and introduces the air to the indoor heat exchanger 14, a heater 26, which heats the air in the indoor heat exchanger 14, a low pressure expansion valve 62, which bypasses the gas from a compressor 12 and a control circuit, which controls the heater 26 and the low pressure expansion valve 62. The control circuit is designed to control the compressor 12, the heater 26 and the low pressure expansion valve so that dehumidification operation may be available in the middle temperature range.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly to an outside air introduction type air conditioner.

[0002]

2. Description of the Related Art Conventionally, in an air conditioner used in a trunk room, an art museum, a museum, etc., dehumidification is performed by a cooling operation, and the humidity is controlled to be appropriate for a stored item.

[0003]

In the above conventional air conditioner, when the room temperature is higher than 21 ± 1 ° C. which is the minimum value of the JIS cooling operation condition, the dehumidification can be smoothly performed by the cooling operation. In a medium temperature range (for example, 15 ° C to 20 ° C) lower than 21 ± 1 ° C, it is difficult to dehumidify by cooling operation. This is because the liquid refrigerant cannot evaporate in the medium temperature region, and a so-called liquid back state occurs.

An object of the present invention is to provide an air conditioner capable of dehumidifying by cooling operation even in a medium temperature range.

[0005]

The invention according to claim 1 includes an indoor unit having a compressor and an indoor heat exchanger, and an outdoor unit having an outdoor heat exchanger connected to the indoor unit. Is an outside air introduction part for introducing outside air to lead to the indoor heat exchanger, a heater part for heating air in the indoor heat exchanger, a low pressure expansion valve for bypassing gas from the compressor, the compressor and the heater part. And a control circuit for controlling the low pressure expansion valve,
The control circuit is configured to control the compressor, the heater unit, and the low pressure expansion valve so that the dehumidifying operation can be performed in the medium temperature range.

The invention of claim 2 includes an indoor unit having a compressor and an indoor heat exchanger, and an outdoor unit having an outdoor heat exchanger connected to the indoor unit, wherein the indoor unit introduces outside air. An outside air introduction part leading to the indoor heat exchanger, a heater part for heating air in the indoor heat exchanger, a low pressure expansion valve for bypassing gas from the compressor, and a control for controlling the compressor, the heater part and the low pressure expansion valve. A circuit, the control circuit is a room temperature,
It is configured to control the compressor, the heater unit, and the low pressure expansion valve so that the dehumidifying operation can be performed in the medium temperature range based on the indoor humidity, the outside air temperature, and the gas pressure from the compressor.

The invention of claim 3 includes an indoor unit having a compressor and an indoor heat exchanger, and an outdoor unit having an outdoor heat exchanger connected to the indoor unit, wherein the indoor unit introduces outside air. The outside air introduction part that leads to the indoor heat exchanger, the heater part that heats the air in the indoor heat exchanger, the low pressure expansion valve that bypasses the gas from the compressor, the compressor, the heater part, and the low pressure expansion valve. A control circuit for controlling, in the air conditioner, the control circuit,
Based on the room temperature, indoor humidity, outside air temperature and gas pressure from the compressor, the compressor, the heater unit, and the low-pressure expansion valve are controlled so that the dehumidifying operation can be performed in the medium temperature range. And, when the compressor is stopped based on the gas pressure from the compressor, the delay time for restarting the compressor is varied based on the cause of the compressor stop.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 shows a schematic configuration of an air conditioner according to the present invention.

In FIG. 1, the indoor unit 10 includes a compressor 12, an indoor heat exchanger 14, and an indoor fan 16. The outdoor unit 18 connected to the indoor unit 10 includes an outdoor heat exchanger 20 and an outdoor fan 22.
The cooler 24 is blown out from 0 to cool the room.

If the room temperature is low, for example, J
In the medium temperature range (for example, 15 ° C. to 20 ° C.) lower than 21 ± 1 ° C., which is the minimum value of the IS cooling operation condition, the liquid refrigerant cannot evaporate, and thus the cooling operation is difficult.

Therefore, in the indoor unit 10, the indoor heat exchanger 14
A heater 26 is provided adjacent to the heater 2 and the air in the room is supplied to the heater 2.
It is configured to be heated by 6, and further configured to suck the outside air 28 having a temperature higher than room temperature through the duct 30 and supply the heat exchanger 14. With such a configuration, even when the indoor air temperature is medium, the liquid refrigerant can be evaporated in the indoor heat exchanger 14, and the cooling operation can be performed.

Next, FIG. 2 shows a refrigerant piping system of the air conditioner of FIG.

In FIG. 2, the gaseous refrigerant from the compressor 12 in the indoor unit 10 reaches the gas side closing valve 34 via the muffle 32 and passes through the pipe 36 to the gas closing valve 38 of the outdoor unit 18. To reach. In the outdoor unit 18, the refrigerant is supplied to the condenser (heat exchanger) 20 and liquefied, and the liquid refrigerant passes through the receiver tank 40 and the liquid side closing valve 42.
And reaches the liquid side closing valve 46 of the indoor unit 10 through the pipe 44. In the indoor unit 10, the refrigerant is supplied to the evaporator (heat exchanger) 14 through the dryer 48 and the expansion valve 50 to be evaporated, and the gaseous refrigerant is stored in the accumulator 52.
Return to the copressor 12 through. In the indoor unit 10, reference numeral 54 represents a check joint, 56 represents a high pressure switch, and in the outdoor unit 18, reference numeral 58 represents a fusible plug. Further, reference numeral 60 represents a low-voltage switch,
Reference numeral 62 receives the refrigerant from the point 64 through the pipe 66. When the refrigerant has a low pressure, the amount of the refrigerant from the compressor 12 supplied to the outdoor unit 18 is reduced and the refrigerant is supplied to the evaporator 14 via the pipes 68 and 70. Is a low pressure expansion valve (hot gas bypass valve).

Next, FIG. 3 shows various sensors used in the air conditioner of FIG.

In FIG. 3, TH ₁ indicates a room temperature thermoswitch (setting) for comparison with the room temperature t ₁ ,
Reference numeral ₂ denotes a low-temperature operation prevention thermostat (setting) for comparison with the intake outside air temperature t ₂ , HU denotes a hemistat (setting) for comparison with the indoor temperature k, and 60 denotes a low pressure switch (setting, abbreviation). : LP), which is 2 kg / c
It is set to OFF at m ² and ON at 3 kg / cm ² . 62 is a low pressure expansion valve (hot gas bypass valve, abbreviated as:
EXV), fully opened at 3.7 kg / cm ² , 4.2 k
It is set to g / cm ² and fully closed.

Next, the control method of the air conditioner will be described with reference to the flowchart of FIG.

In FIG. 4, the operation is started in step 100, and if the indoor temperature t ₁ is higher than the set temperature TH in step 102, the process proceeds to step 104 to perform the cooling operation. In this step 104, the compressor 12 is turned on depending on the magnitude of the room temperature t ₁ and the set temperature TH ₁ , but when the compressor 12 is turned off based on the relationship of t ₁ <TH ₁ , the compressor 12 is operated for 3 minutes. Restart is prohibited.

From the above step 104, various steps 106, 110, 114 and 116 are carried out, and hereinafter, each step 106, 110, 114,
116 will be described.

In step 106, if the suction outside air temperature t ₂ is lower than the set temperature TH ₂ (for example, 20 ° C.), the process proceeds to step 108, freeze prevention control of the indoor heat exchanger is performed, and the compressor 12 is stopped. In this case, the compressor 12 is prohibited from restarting for 10 minutes.

In step 110, when the indoor humidity k is higher than the set temperature HU, (HU is 60% and O
N, OFF at 40%), reheat dehumidifying operation is performed in step 112, that is, the compressor operation is performed,
The reheat heater 26 is energized. In this case, the compressor 1
When 2 is stopped, the compressor 12 is prohibited from restarting for 3 minutes.

In step 114, when the low pressure of the refrigerant is lower than the set low pressure (LP), the routine proceeds to step 108, the freeze prevention control of the indoor heat exchanger is performed, and the compressor 12 is stopped. In this case, the compressor 12
Only a minute restart is prohibited. This is because in the case of industrial equipment, it is basically to operate the air conditioner as much as possible, so that it restarts after 10 minutes (that is, unlike normal use, it is a long time as an abnormal state. Not stop it). The low pressure of the refrigerant and the high and low of LP in step 114 are constantly monitored.

At step 116, the low pressure of the refrigerant is compared with the set low pressure (EXV), and by the magnitude relation,
As shown by reference numeral 200 in FIG. 5, opening / closing of the low pressure expansion valve (hot gas bypass valve) is controlled. That is, when the pressure of the refrigerant is 3.7 kg / cm ² or less, the low pressure expansion valve is fully opened, and when the pressure of the refrigerant is 4.2 kg / cm ² , the low pressure expansion valve is fully closed and the pressure of the refrigerant is 3.7 kg. / Cm ² to 4.
At 2 kg / cm ² , the low pressure expansion valve is the opening compared between fully open and fully closed.

The purpose of control by comparing the low pressure refrigerant pressure and the set low pressure pressures (LP, EXV) in steps 114 and 116 is to control the intermediate period (eg, May to July, October to 1).
When cooling is performed when the outside air temperature is low in January), it is intended to prevent the refrigerant from freezing due to the refrigerant pressure drop and to prevent the liquid refrigerant from returning.

Next, FIG. 5 shows a graph according to the control method of the air conditioner described in the flowchart of FIG.

In FIG. 5, cooling is performed in (A), the room temperature decreases when the compressor is in the ON state, and the compressor is in the OFF state at the set room temperature (TH ₁ ) = 23 ° C. After that, the room temperature rises due to the compressor being turned off, but after the forced stop period of 3 minutes has passed, the compressor is turned on again.

In FIG. 5, in (B), dehumidification is performed, and when the compressor is ON and the reheat heater is ON, the humidity decreases, and when the lower limit of the set humidity (HU) = 40%, the compressor is OFF. The reheat heater is turned off. Then, turn off the compressor and reheat the heater O
The humidity increases due to FF, the humidity reaches the upper limit of the set humidity (HU) = 60%, and when the forced stop period (3 minutes) of the compressor elapses, the compressor and the reheat heater are turned on again. After that, when the outside air temperature reaches the set outside air temperature (TH ₂ ) = 20 ° C or the refrigerant low pressure becomes the set low pressure (LP) = 2 kg / cm ² , the compressor is turned off (the reheat heater is turned on. maintain). Then, after the forced stop period of 10 minutes, the compressor is turned on again.

Although the embodiments of the present invention have been described above, the present invention can be applied to, for example, air conditioning of a high-class piano installation place where it is necessary to strictly control temperature and humidity. This is because according to the present invention, the operating range of the air conditioner for cooling and dehumidifying is expanded.

[0029]

As described above, according to the present invention,
By appropriately controlling the compressor, the heater unit, and the low-pressure expansion valve, it is possible to perform dehumidification by the cooling operation even in the medium temperature range.

[Brief description of drawings]

FIG. 1 is an explanatory diagram of a configuration of an air conditioner.

FIG. 2 is a transfer system diagram of a refrigerant of an air conditioner.

FIG. 3 is a diagram showing various sensors used in the air conditioner.

FIG. 4 is a flowchart of a method for controlling the air conditioner.

FIG. 5 is a graph showing a control method of the air conditioner.

[Explanation of symbols]

 10 Indoor Unit 12 Compressor 14 Indoor Heat Exchanger 18 Outdoor Unit 20 Outdoor Heat Exchanger 26 Heater 28 Outside Air 60 Low Pressure Switch 62 Low Pressure Expansion Valve (Hot Gas Bypass Valve)

Claims (3)

[Claims] 1. An indoor unit having a compressor and an indoor heat exchanger, and an outdoor unit connected to the indoor unit and having an outdoor heat exchanger, wherein the indoor unit introduces outside air and the indoor heat exchanger. To the outside air introduction section, a heater section for heating air in the indoor heat exchanger, a low pressure expansion valve for bypassing gas from the compressor, the compressor, the heater section,
And a control circuit for controlling the low-pressure expansion valve, wherein the control circuit controls the compressor, the heater unit, and the low-pressure expansion valve so that dehumidifying operation can be performed in the medium temperature range. Air conditioner that does. 2. An indoor unit having a compressor and an indoor heat exchanger, and an outdoor unit having an outdoor heat exchanger connected to the indoor unit, wherein the indoor unit introduces outside air into the indoor heat exchanger. An external air introducing section for guiding, a heater section for heating air in the indoor heat exchanger, a low pressure expansion valve for bypassing gas from the compressor, and a control circuit for controlling the compressor, the heater section and the low pressure expansion valve. In the air conditioner, the control circuit controls the compressor, the heater unit, and the low-pressure expansion valve so that dehumidifying operation can be performed in the medium temperature range based on room temperature, indoor humidity, outside air temperature, and gas pressure from the compressor. An air conditioner characterized by: 3. An indoor unit having a compressor and an indoor heat exchanger, and an outdoor unit connected to the indoor unit and having an outdoor heat exchanger, wherein the indoor unit introduces outside air to provide the indoor heat exchanger. To the outside air introduction section, a heater section for heating air in the indoor heat exchanger, a low-pressure expansion valve for bypassing gas from the compressor, the compressor, a heater section,
And a control circuit for controlling the low pressure expansion valve, wherein the control circuit enables dehumidification operation in a medium temperature range based on room temperature, indoor humidity, outside air temperature and gas pressure from the compressor. In addition to controlling the compressor, heater, and low-pressure expansion valve, room temperature, room humidity, outside air temperature,
Also, when the compressor is stopped based on the gas pressure from the compressor, the delay time for restarting the compressor is varied based on the cause of the compressor stop.