JP4969271B2 - Air conditioner - Google Patents

Description

  The present invention relates to the difference between the discharge pipe temperature of the refrigerant compressor and the outdoor heat exchanger temperature during cooling, and the difference between the discharge pipe temperature of the refrigerant compressor and the indoor heat exchanger temperature during heating, with respect to the rotation speed of the compressor. However, it is related with the air conditioner which controls the opening degree of an expansion valve so that it may become a target range, respectively.

In a heat pump air conditioner in which a refrigerant pump, a four-way switching valve, an outdoor heat exchanger, an expansion valve, and an indoor heat exchanger are sequentially connected by a refrigerant pipe to form a heat pump cycle capable of cooling and heating operation Patent Document 1 discloses a configuration in which the rotation speed of the refrigerant compressor and the outside air temperature are input, thereby changing the target discharge pipe temperature to ensure the optimum degree of superheat.
Further, based on the outside air temperature and the rotation speed (Hz) of the refrigerant compressor, the reference opening degree of the expansion valve is stored so as to obtain a target discharge temperature that gives an appropriate degree of superheat, and the discharge refrigerant temperature is set as a target during operation. Patent Document 2 discloses that the deviation between the opening at the discharge temperature and the reference opening is grasped and the reference opening is corrected based on this deviation to control the expansion valve opening. ing.

  Furthermore, in the air conditioner as described above, in order to optimize the opening degree of the expansion valve, the refrigerant compressor discharge pipe temperature Td and the outdoor heat exchanger temperature TOPL at the time of cooling with respect to the rotation speed of the refrigerant compressor. (Td-TOPL), and during heating, the opening of the expansion valve is zone-controlled so that the difference (Td-TIP) between the discharge pipe temperature of the refrigerant compressor and the indoor heat exchanger temperature is within the target range, respectively. Has been implemented. Further, in the control for optimizing the expansion valve opening, in order to prevent the expansion of the expansion valve opening, the high pressure rises and the pressure use restriction of the refrigerant compressor is removed, the refrigerant compressor The minimum opening degree is set with respect to the number of rotations, and the pressure use restriction of the refrigerant compressor is satisfied.

JP-A-5-322356 JP-A-5-272819

  However, if the minimum opening is set with respect to the rotational speed of the refrigerant compressor, the difference between the room temperature and the set temperature is small when the outside air temperature or room temperature is high, and the refrigerant compressor repeats on / off operation. In such transient operation, sufficient protection control may not be possible. That is, as shown in FIG. 4, the refrigerant compressor is turned on / off when the discharge pipe temperature of the refrigerant compressor rises to a certain temperature and becomes stable as originally indicated by a solid line. Then, as indicated by a broken line, the process of raising the compressor when it is on and descending when the compressor is off is repeated. In this case, the discharge pipe temperature remains low, and the discharge superheat degree TdSH with respect to the compressor rotation speed (discharge pipe temperature−indoor heat exchanger temperature at the time of heating) is small, for example, within the target range indicated by hatching in FIG. On the other hand, it becomes a state like S point of the lower area. For this reason, the opening degree of the expansion valve is gradually reduced in the direction of increasing the discharge superheat degree TdSH, and the expansion valve becomes too closed, and the high pressure rises and deviates from the pressure use restriction of the refrigerant compressor, and there is a possibility that sufficient protection control cannot be performed. Arise.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide an air conditioner that can satisfy the pressure use restriction of the refrigerant compressor and can perform stable cooling and heating operation even in a wide range of temperature conditions. And

In order to solve the above problems, the air conditioner of the present invention employs the following means.
That is, the air conditioner according to the present invention is a heat pump capable of cooling and heating operation by sequentially connecting a refrigerant compressor, a four-way switching valve, an outdoor heat exchanger, an expansion valve, and an indoor heat exchanger through refrigerant piping. A cycle is configured, and the difference between the discharge pipe temperature of the refrigerant compressor and the outdoor heat exchanger temperature during cooling, and the discharge pipe temperature of the refrigerant compressor and the indoor temperature during heating, with respect to the rotation speed of the refrigerant compressor the difference between the heat exchanger temperature, in each air conditioner control unit is provided for controlling the opening of the expansion valve so that the target range to the target value, the control unit, whether the target value outside temperature minimum opening setting means for setting a minimum opening degree of the expansion valve relative to the outside air temperature is equal to or provided without.

According to the present invention, the opening of the expansion valve is adjusted so that the difference between the discharge pipe temperature and the outdoor heat exchanger temperature during cooling and the difference between the discharge pipe temperature and the indoor heat exchanger temperature during heating are within the target ranges, respectively. Since the control unit that controls to the target value is provided with a minimum outside air temperature opening setting means that sets the minimum opening of the expansion valve with respect to the outside air temperature regardless of the target value, the difference between the room temperature and the set temperature is In a transient operation in which the refrigerant compressor is repeatedly turned on and off, it is possible to prevent the discharge pipe temperature of the refrigerant compressor from being detected low and the expansion valve from being excessively throttled. Therefore, the problem that the high pressure is increased by excessively reducing the expansion valve opening and deviates from the pressure use restriction range of the refrigerant compressor is satisfied, and the pressure use restriction of the refrigerant compressor is satisfied in a wide range of temperature conditions. The air conditioning operation can be performed stably.

  Furthermore, the air conditioner of the present invention is the air conditioner described above, wherein the outside air temperature minimum opening setting means has a minimum opening of the expansion valve in a region where the outside air temperature is equal to or higher than a set temperature, and the outside air temperature is a set temperature. It is set larger than the minimum opening of the expansion valve in the following region.

  According to the present invention, the minimum opening of the expansion valve in the region where the outside air temperature is equal to or higher than the set temperature is set larger than the minimum opening of the expansion valve in the region where the outside air temperature is equal to or lower than the set temperature. Thus, the opening of the expansion valve can be set to the minimum opening suitable for each temperature region. This prevents the expansion valve from being excessively throttled during a transient operation in which the refrigerant compressor is repeatedly turned on and off, thereby preventing the high pressure from rising and deviating from the pressure use restriction range of the refrigerant compressor. A stable cooling / heating operation can be performed under temperature conditions.

  Furthermore, the air conditioner of the present invention is the air conditioner according to any one of the above-described air conditioners, wherein the minimum outside air temperature setting means is a minimum value of the expansion valve in a region where the rotation speed of the refrigerant compressor is equal to or higher than a set rotation speed. The opening is set to be larger than the minimum opening of the expansion valve in a region where the rotation speed of the refrigerant compressor is less than a set rotation speed.

  According to the present invention, the minimum opening degree of the expansion valve in the region where the rotational speed of the refrigerant compressor is equal to or higher than the set rotational speed is greater than the minimum opening degree of the expansion valve in the region where the rotational speed of the refrigerant compressor is less than the set rotational speed. Therefore, even if the discharge pipe temperature and the high pressure are changed depending on the rotation speed of the refrigerant compressor, the opening of the expansion valve with respect to the rotation speed of the refrigerant compressor is set to the minimum opening suitable for each rotation speed region. Can be degrees. This prevents excessive expansion of the expansion valve during transient operation in which the refrigerant compressor is repeatedly turned on and off, thereby preventing high pressure from rising and deviating from the pressure usage limit of the refrigerant compressor. In, stable air conditioning operation can be performed.

  Furthermore, the air conditioner according to the present invention is characterized in that, in any of the above-described air conditioners, the minimum opening of the expansion valve is linearly set in multiple steps or continuously according to the outside air temperature. .

  According to the present invention, the minimum opening degree of the expansion valve is set linearly in a multi-stage or continuously according to the outside air temperature, so that the minimum opening degree of the expansion valve is finely adjusted according to the outside air temperature, Compressor protection control can be executed more precisely.

  According to the present invention, it is possible to prevent the refrigerant compressor discharge pipe temperature from being detected low and the expansion valve from being excessively throttled during a transient operation in which the refrigerant compressor is repeatedly turned on and off. Therefore, when the expansion valve opening is too narrowed, the high pressure is increased, and the problem of deviating from the pressure use restriction of the refrigerant compressor is solved, and the pressure use restriction of the refrigerant compressor is satisfied in a wide range of temperature conditions, Air-conditioning operation can be performed stably.

Embodiments according to the present invention will be described below with reference to the drawings.
[First Embodiment]
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS. 1 to 4.
FIG. 1 is a schematic configuration diagram including a refrigeration cycle of an air conditioner according to an embodiment of the present invention. In the air conditioner 1 according to the present embodiment, a refrigerant compressor 2, a four-way switching valve 3, an outdoor heat exchanger 4, an expansion valve 5, and an indoor heat exchanger 6 are sequentially connected by a refrigerant pipe 7. The heat pump cycle 8 is provided so that the configured air conditioning operation can be performed.

  The refrigerant compressor 2 sucks low-pressure and low-temperature refrigerant gas from the low-pressure side of the heat pump cycle 8, compresses the refrigerant gas to high-temperature and high-pressure, and discharges it to the high-pressure side of the heat pump cycle 8. A continuously variable hermetic electric compressor is used. The four-way switching valve 3 circulates the high-temperature and high-pressure refrigerant gas discharged from the refrigerant compressor 2 to the outdoor heat exchanger 4 side during the cooling operation and circulates to the indoor heat exchanger 6 side during the heating operation. It can be switched.

  The outdoor heat exchanger 4 functions as a condenser that exchanges heat between the high-temperature and high-pressure refrigerant gas supplied from the refrigerant compressor 2 and the outside air during the cooling operation and condenses and liquefies the refrigerant, and during the heating operation, the expansion valve 5 It functions as an evaporator that exchanges heat between the low-temperature and low-pressure two-phase refrigerant supplied via the outside air and evaporates the refrigerant, and is composed of a plate fin and tube type heat exchanger that blows outside air An outdoor fan (not shown) is attached.

  The expansion valve 5 adiabatically expands the high-pressure liquid refrigerant condensed in the outdoor heat exchanger 4 or the indoor heat exchanger 6 into a low-temperature low-pressure gas-liquid two-phase refrigerant, and is electrically driven by a pulse motor. An expansion valve of the type is used. During the cooling operation, the indoor heat exchanger 6 heat-exchanges the low-temperature and low-pressure gas-liquid two-phase refrigerant introduced through the expansion valve 5 and the indoor air to be air-conditioned, and cools the indoor air by evaporating the refrigerant. It functions as an evaporator and functions as a condenser that heats indoor air by heat-exchanging the high-temperature and high-pressure refrigerant gas supplied from the refrigerant compressor 2 and air in the air-conditioned room and condensing the refrigerant during heating operation. An indoor fan (not shown) that is configured by a plate fin and tube heat exchanger and circulates and distributes indoor air is attached.

  In the air conditioner 1 described above, during the cooling operation, the high-temperature and high-pressure refrigerant gas compressed by the refrigerant compressor 2 and discharged to the heat pump cycle 8 is introduced into the outdoor heat exchanger 4 by the four-way switching valve 3, and the outside air Heat exchanged with the liquid. This high-pressure liquid refrigerant is adiabatically expanded by the expansion valve 5 to be a low-temperature and low-pressure gas-liquid two-phase refrigerant and introduced into the indoor heat exchanger 6. In the indoor heat exchanger 6, the low-temperature and low-pressure gas-liquid two-phase refrigerant exchanges heat with the room air, absorbs heat from the room air and evaporates to become a low-temperature and low-pressure refrigerant gas, and is sucked into the refrigerant compressor 2. . The indoor air cooled by the evaporation of the refrigerant in the indoor heat exchanger 6 is blown out into the room through the indoor fan, whereby the cooling operation is performed.

  On the other hand, during the heating operation, the four-way switching valve 3 is switched, compressed by the refrigerant compressor 2, and the high-temperature and high-pressure refrigerant gas discharged to the heat pump cycle 8 is guided to the indoor heat exchanger 6 by the four-way switching valve 3. Then, heat is exchanged with room air to be condensed and liquefied. The indoor air is heated by the heat radiation at this time. The high-pressure liquid refrigerant condensed and liquefied in the indoor heat exchanger 6 is adiabatically expanded through the expansion valve 5, converted into a low-temperature and low-pressure gas-liquid two-phase refrigerant, and introduced into the outdoor heat exchanger 4. In the outdoor heat exchanger 4, the low-temperature and low-pressure gas-liquid two-phase refrigerant exchanges heat with the outside air, absorbs heat from the outside air, is vaporized, and is sucked into the refrigerant compressor 2 as a low-temperature and low-pressure refrigerant gas. Then, the room air heated by the heat release from the refrigerant in the indoor heat exchanger 6 is blown into the room through the indoor fan, whereby the heating operation is performed.

  The air conditioner 1 is provided with a control unit 10 for controlling the expansion valve 5 to the optimum opening (operating point optimization) during cooling operation and heating operation. The control unit 10 is provided in a discharge pipe of the refrigerant compressor 2 and is provided in a discharge pipe temperature sensor 11 for detecting the discharge pipe temperature and a heat exchange tube of the outdoor heat exchanger 4. An outdoor heat exchanger temperature sensor 12 for detecting the temperature, an indoor heat exchanger temperature sensor 13 for detecting the temperature of the indoor heat exchanger 6 provided in a heat exchange tube of the indoor heat exchanger 6, and an outside air temperature are detected. The detection values of the outside air temperature sensor 14 are input, and the rotation speed of the refrigerant compressor 2 is input from the inverter 9.

  As shown in FIG. 3, the control unit 10 detects the discharge pipe temperature Td detected by the discharge pipe temperature sensor 11 and the outdoor heat during the cooling operation with respect to the rotation speed of the refrigerant compressor input from the inverter 9. The expansion valve 5 so that the discharge superheat degree TdSH, which is a difference (Td−TOPL) from the temperature TOPL of the outdoor heat exchanger 4 detected by the exchanger temperature sensor 12, falls within a target zone (range indicated by hatching). To control the opening degree. Similarly, during heating operation, the difference (Td−TIP) between the discharge pipe temperature Td detected by the discharge pipe temperature sensor 11 and the temperature TIP of the indoor heat exchanger 6 detected by the indoor heat exchanger temperature sensor 13. The opening degree of the expansion valve 5 is controlled so that a certain discharge superheat degree TdSH enters a target zone.

  The control unit 10 is provided with an outside air temperature minimum opening setting means 20 that sets the minimum opening of the outside air temperature during zone control for controlling the opening of the expansion valve 5. The minimum opening setting means 20 is set as shown in FIGS. 2A and 2B with respect to the rotational speed of the refrigerant compressor 2 and the outside air temperature. This setting example is in the case of heating. In the case where the rotation speed of the refrigerant compressor 2 is not less than Arps and less than Arps, when the outside air temperature TO is T1 ° C. or less, the B region, and when the outside temperature TO is T2 ° C. or more, C The minimum opening in the B region when the compressor speed is greater than or equal to Arps is set as a pulse, and the minimum opening in the C region is set as the c pulse, and the B region when the compressor speed is less than Arps. The minimum opening is set to b pulses, and the minimum opening in the C region is set to d pulses. However, a <c and b <d. The same can be set for the case of cooling.

Thus, according to the present embodiment described above, the following operational effects are obtained.
In the air conditioner 1, during the cooling operation and the heating operation, in order to optimize the opening degree of the expansion valve 5 (operating point optimization), the controller 10 controls the discharge superheat degree TdSH (in the cooling operation, the discharge pipe). Temperature Td−outdoor heat exchanger temperature TOPL, and during heating operation, discharge pipe temperature Td−indoor heat exchanger temperature TIP) is controlled to enter the target zone (shaded area) as shown in FIG. In such zone control of the expansion valve 5, generally, when the outside air temperature is high during the cooling operation or when the room temperature is high during the heating operation, the high pressure tends to increase, so the expansion valve 5 is controlled to open. Is done.

  Further, in the above zone control, the discharge superheat degree TdSH may be small depending on the operation condition, and the expansion valve 5 may be excessively throttled. In this case, the high pressure rises and exceeds the pressure use restriction range of the refrigerant compressor 2. May end up. Therefore, conventionally, the minimum opening of the expansion valve 5 is set with respect to the rotation speed of the refrigerant compressor 2 so that the refrigerant compressor 2 does not deviate from the pressure use restriction range. However, during transient operation in which the refrigerant compressor 2 is repeatedly turned on and off, sufficient protection control may not be performed simply by setting the minimum opening of the expansion valve 5 with respect to the rotational speed of the refrigerant compressor 2. Occurs.

  In the present embodiment, since the outside air temperature minimum opening setting means 20 for setting the minimum opening of the expansion valve 5 with respect to the outside air temperature is provided, the refrigerant compressor 2 is turned on / off as shown in FIG. When the refrigerant compressor 2 is turned on and off, the discharge pipe temperature Td does not rise sufficiently as shown by the broken line, the discharge superheat degree TdSH does not enter the target zone, and the expansion valve 5 is opened. Even when the degree becomes too narrow, the minimum opening set as shown in FIG. 2 is maintained. Accordingly, it is possible to prevent the discharge valve temperature of the refrigerant compressor 2 from being detected to be low and the expansion valve 5 from being excessively throttled during the transient operation. That is, since the minimum opening degree of the expansion valve 5 in the C region where the outside air temperature is equal to or higher than the set temperature is set to be larger than the minimum opening degree of the expansion valve 5 in the B region where the outside air temperature is equal to or lower than the set temperature. On the other hand, the minimum opening degree of the expansion valve 5 can be set to the minimum opening degree suitable for the respective temperature regions B and C.

Accordingly, the problem that the high pressure increases due to the opening degree of the expansion valve 5 being excessively reduced and deviates from the pressure use restriction of the refrigerant compressor 2 is solved, and the pressure use of the refrigerant compressor 2 under a wide range of temperature conditions. Satisfying the restrictions, stable air-conditioning operation can be performed.
Further, the minimum opening degree of the expansion valve 5 in the region where the rotational speed of the refrigerant compressor 2 is equal to or higher than the set rotational speed Arps, and the minimum opening degree of the expansion valve 5 in the region where the rotational speed of the refrigerant compressor 2 is less than the set rotational speed Arps. Therefore, even if the discharge pipe temperature and the high pressure are changed depending on the rotation speed of the refrigerant compressor 2, the minimum opening degree of the expansion valve 5 is set to the respective rotations with respect to the rotation speed of the refrigerant compressor 2. The minimum opening suitable for several regions can be obtained. Therefore, even during the transient operation in which the refrigerant compressor 2 is repeatedly turned on / off, the expansion valve 5 is prevented from being excessively throttled to prevent the high pressure from rising and deviating from the pressure use restriction of the refrigerant compressor 2. In this temperature condition, stable air conditioning operation can be performed.

[Second Embodiment]
Next, a second embodiment of the present invention will be described.
The present embodiment is different from the first embodiment described above in the way of setting the minimum opening of the expansion valve 5 in the outside air temperature minimum opening setting means 20. Since other points are the same as those in the first embodiment, description thereof will be omitted.
In the present embodiment, the minimum opening degree of the expansion valve 5 with respect to the outside air temperature is set not to two stages of the B region and the C region but to three or more stages or continuously changed linearly. It is set as follows.

  By setting the minimum opening of the expansion valve 5 as described above, as in the first embodiment, the pressure use restriction of the refrigerant compressor 2 in the air conditioner 1 is satisfied, and stable air conditioning is achieved in a wide range of temperature conditions. Driving can be performed. Further, by finely adjusting the minimum opening degree of the expansion valve 5 corresponding to the outside air temperature, the protection control of the refrigerant compressor 2 can be executed more precisely.

  The present invention is not limited to the invention according to each of the above-described embodiments, and can be modified as appropriate without departing from the scope of the invention. For example, the air conditioner 1 may be an integral type, a separate type, or a multi-type air conditioner in which a plurality of indoor units including an indoor heat exchanger 5 and an indoor fan are connected in parallel. .

It is a schematic block diagram including the refrigerating cycle of the air conditioner concerning 1st Embodiment of this invention. It is explanatory drawing of the minimum opening degree set with respect to the external temperature of the expansion valve in the air conditioner shown in FIG. It is explanatory drawing of the zone control content of the expansion valve in the air conditioner shown in FIG. It is explanatory drawing of the driving | running state at the time of the transient driving | running in the air conditioner shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Air conditioner 2 Refrigerant compressor 3 Four-way switching valve 4 Outdoor heat exchanger 5 Expansion valve 6 Indoor heat exchanger 7 Refrigerant piping 8 Heat pump cycle 9 Inverter 10 Control part 11 Discharge pipe temperature sensor 12 Outdoor heat exchanger temperature sensor 13 Indoor Heat exchanger temperature sensor 14 outside air temperature sensor 20 outside air temperature minimum opening setting means

Claims (4)

A refrigerant pump, a four-way switching valve, an outdoor heat exchanger, an expansion valve, and an indoor heat exchanger are sequentially connected by a refrigerant pipe to constitute a heat pump cycle capable of cooling and heating operation,
The difference between the refrigerant compressor discharge pipe temperature and the outdoor heat exchanger temperature during cooling, and the refrigerant compressor discharge pipe temperature and the indoor heat exchanger temperature during heating with respect to the rotation speed of the refrigerant compressor. In the air conditioner provided with a control unit that controls the opening of the expansion valve to a target value so that the difference between the respective ranges is a target range,
The air conditioner is characterized in that the controller is provided with an outside air temperature minimum opening setting means for setting the minimum opening of the expansion valve with respect to the outside air temperature regardless of the target value .   The outside air temperature minimum opening setting means sets the minimum opening of the expansion valve in a region where the outside air temperature is equal to or higher than a set temperature, and larger than the minimum opening of the expansion valve in a region where the outside air temperature is equal to or lower than the set temperature. The air conditioner according to claim 1.   The outside air temperature minimum opening setting means has a minimum opening of the expansion valve in a region where the rotation speed of the refrigerant compressor is equal to or higher than a set rotation speed, and the rotation temperature of the refrigerant compressor is in a region where the rotation speed is less than a set rotation speed. The air conditioner according to claim 1 or 2, wherein the air conditioner is set to be larger than a minimum opening degree of the expansion valve.   The air conditioner according to any one of claims 1 to 3, wherein the minimum opening of the expansion valve is linearly set in multiple steps or continuously according to the outside air temperature.

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