JPH10332184A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the charge for electric power use, and to perform an air conditioning operation stably. SOLUTION: The first compressor 21 is connected with a normal power source line 42, and the second compressor 22 is connected with a snow melting power source line 44. Whether electric power is supplied by the snow melting power source 41 or not is detected. If the electric power is supplied by the snow melting power source 41, the driving of the first compressor 21 and the second compressor 22 are set at a permitted condition. On the other hard, if the electric power supply from the snow melting power source 41 is stopped, the driving of only the first compressor 21 is set at the permitted condition. Thereby, a stable air conditioning operation can be performed, and also the charge for electric power use can be reduced at the same time.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner having a plurality of compressors, and more particularly to a measure for supplying power to the compressors.

[0002]

2. Description of the Related Art Conventionally, air conditioners have been disclosed in
As disclosed in JP-A-128740, an indoor unit is connected to an outdoor unit, and two compressors are mounted on the outdoor unit.

[0003] While the first compressor is controlled by an inverter, the second compressor (22) is of a constant displacement type, and the air conditioner controls ON / OFF of the second compressor (22). The capacity control corresponding to the air conditioning load is performed by the capacity control of the second compressor.

As a result, the operation of the second compressor can be stopped and the amount of electric power used can be reduced as compared with the case where the operation capacity is controlled by one compressor.

[0005]

In the above-described air conditioner, although the operating capacity is controlled by two compressors, both of the two compressors (21, 22) are usually connected to a normal power supply. However, there is a problem that it is difficult to say that the electricity rate has been sufficiently reduced because the electricity is supplied from the company.

On the other hand, the power supply of various equipment such as the air conditioner includes a normal power supply that is generally used and a low-cost snow melting power supply that is used for melting snow in a region with a large amount of snow. is there.

However, if the snow melting power supply is simply used, there is a problem that the snow melting power supply is not stable and the air conditioning operation cannot be performed stably because the power supply is not stable.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described circumstances, and has as its object to stabilize the air-conditioning operation while reducing the power consumption rate.

[0009]

[Means for Solving the Problems]

-Summary of the Invention- In the present invention, the first compressor (21) is connected to the normal power supply line (42), and the second compressor (22) is connected to the snow melting power supply line (44). It is detected whether or not power is supplied from the snow melting power supply (41).
While the driving of the compressor (21) and the second compressor (22) is set to the permitted state, if the power supply from the snow melting power supply (41) is stopped, the driving of only the first compressor (21) is permitted. Set to. As a result, a stable air-conditioning operation is performed, and at the same time, the power consumption rate is reduced.

-Solution Means- Specifically, as shown in FIG. 1, the means of the invention according to claim 1 is a refrigerant circuit (10) on which a plurality of compressors (21, 22) are mounted. It is assumed that an air conditioner equipped with One of the plurality of compressors (21, 22) is connected to a normal power supply line (42) so as to be supplied with power from a normal power supply (40). The other compressor (22) is connected to the snow melting power supply line (44) so as to be supplied with power from the snow melting power supply (41). Further, it is detected whether or not the power is supplied from the snow melting power supply (41). If the power is supplied from the snow melting power supply (41), the supply signal is sent, and the power supply from the snow melting power supply (41) is stopped. And a determination means (RY) for outputting a stop signal. In addition, when the determination means (RY) outputs a supply signal, the drive of all the compressors (21, 22) is set to a permission state, and when a stop signal is output, the drive is connected to the normal power supply line (42). State setting means (70) is provided for setting the driving of only the compressor (21) to the permitted state.

The means adopted by the second aspect of the present invention is the same as the first aspect, except that a plurality of compressors (21, 2) are provided.
2) is composed of a first compressor (21) connected to a normal power supply line (42) and a second compressor (22) connected to a snow melting power supply line (44). When the determination means (RY) outputs the supply signal, the state setting means (70) sets the driving of the first compressor (21) and the second compressor (22) to the permission state, and outputs the stop signal. Then, the drive of only the first compressor (21) is set to the permission state.

-Operation- According to the above-mentioned invention specifying matter, in the invention of claim 1,
First, when power is supplied from both the normal power supply (40) and the snow melting power supply (41), the power from the normal power supply (40) is supplied to the compressor (21) connected to the normal power supply (40), Specifically, according to the second aspect of the present invention, when the power is supplied from the snow melting power supply (41) while being supplied to the first compressor (21), the compressor connected to the snow melting power supply (41) is provided. (22), and more specifically, in the second aspect of the invention, is supplied to the second compressor (22).

When power is supplied from the snow melting power supply (41), the determination means (RY) outputs a supply signal of the snow melting power supply (41), and the state setting means (70) receives the supply signal. The driving of the first compressor (21) and the second compressor (22) is set to a permission state.

In this state, for example, when the operation switch is turned on, the first compressor (2) is switched from the normal power supply (40).
At the same time as power is supplied to the first compressor (2), power is supplied from the snow melting power source (41) to the second compressor (22).
1) and the second compressor (22) are driven.

On the other hand, when the power supply from the snow melting power supply (41) is stopped, the judgment means (RY) outputs a stop signal of the snow melting power supply (41), and the state setting means (70) receives the stop signal. The driving of only the first compressor (21) is set to the permission state. That is, the second compressor (22) is set in a state where it cannot be driven.

In this state, power is supplied from the normal power supply (40) to only the first compressor (21), and only the first compressor (21) is driven.

That is, while the snow melting power supply (41) is supplied only during the winter season, it is supplied only for a predetermined time during the day. , The first compressor (21) and the second compressor (2
2) are driven together to perform the heating operation, and also in this winter, when the electric power is not supplied from the snow melting power supply (41), the heating operation is performed only by the first compressor (21).

In summer, power is not supplied from the snow melting power supply (41). However, since it is a summer in a snowy country, the cooling capacity is not so required, so that the cooling operation is performed only by the first compressor (21). Do.

[0019]

Thus, according to the present invention, a compressor (21) connected to a normal power supply (40) and a compressor (22) connected to a snow melting power supply (41) are provided. When power is supplied from 41), all compressors (21, 22) are permitted to operate together, and when power is not supplied from the snow melting power supply (41), only the compressor (21) with normal power supply (40) is driven. Is permitted, so that the snow melting power source (41) can be used, so that it is possible to surely reduce the power usage fee and reduce the running cost.

In particular, since the snow melting power supply (41) and the normal power supply (40) are used together without operating only the snow melting power supply (41), the capacity of each compressor (21, 22) itself is increased. Can be reduced, the contract power can be reduced, and the power rate can be reliably reduced.

Since the power supply of the snow melting power supply (41) is detected, it is possible to continue the air conditioning operation using the normal power supply (40) when the power supply of the snow melting power supply (41) is stopped. And stable air-conditioning operation can be performed.

[0022]

Embodiments of the present invention will be described below in detail with reference to the drawings.

As shown in FIG. 2, (10) is a refrigerant circuit of the air conditioner, and the refrigerant circuit (10) is composed of an outdoor unit (20) and an indoor unit (30). The direction is configured to be reversible, and the cooling operation and the heating operation are switched and performed.

The outdoor unit (20) has a first compressor (21) and a second compressor (22) mounted thereon, and the first compressor (21) and the second compressor (22) are parallel to each other. It is connected to the. The discharge sides of the first compressor (21) and the second compressor (22) are connected to a four-way switching valve (24) via one-way valves (23, 23). To outdoor heat exchanger (25)
And the outdoor expansion valve (26) and the receiver (27) are connected in order, while the suction side of the first compressor (21) and the second compressor (22) is switched four-way via an accumulator (28). Valve (2
4) Connected to. Note that the outdoor heat exchanger (25) is provided with an outdoor fan (Fo).

The indoor unit (30) includes an indoor expansion valve (31) and an indoor heat exchanger (32) connected in order, and one end of the indoor heat exchanger (32) is connected to the indoor expansion valve (31). ) Is connected to the receiver (27) of the outdoor unit (20), and the other end is connected to the four-way switching valve (24) of the outdoor unit (20). The indoor heat exchanger (32) has an indoor fan (Fi).
Is provided.

In the refrigerant circuit (10), the four-way switching valve (24) switches to the solid line side in FIG. 2 during the cooling operation, and discharges from the first compressor (21) and the second compressor (22). After the condensed high-pressure refrigerant is condensed in the outdoor heat exchanger (25), the pressure is reduced in the indoor expansion valve (31) and evaporated in the indoor heat exchanger (32), and the first compressor (21) and the second compressor ( Perform refrigerant circulation returning to 22).

On the other hand, during the heating operation, the four-way switching valve (24) switches to the broken line side in FIG. 2, and the refrigerant circuit (10) discharges from the first compressor (21) and the second compressor (22). After the condensed high-pressure refrigerant is condensed in the indoor heat exchanger (32), the pressure is reduced in the outdoor expansion valve (26) and evaporated in the outdoor heat exchanger (25), and the first compressor (21) and the second compressor ( Perform refrigerant circulation returning to 22).

On the other hand, as shown in FIG. 3, the first compressor (21) and the second compressor (22) are supplied with electric power from a normal power supply (40) and a snow melting power supply (41). That is, the first
The motor (21-M) of the compressor (21) is normally connected to the power line (4
2) via the first main contact (43) and the normal power supply (4
0), the motor (22-M) of the second compressor (22) is connected to the snow melting power supply line (44) via the second main contact (45), and is connected to the snow melting power supply (41). ). The snow melting power source (41) is a low-power-rate power source used for snow melting in a region with a large amount of snow.

The normal power supply line (42) includes a first power supply line (61) and a second power supply line (62) of the outdoor controller (60).
And are connected. The first power supply line (61) and the second power supply line (62) are connected to a transformer (63) through a fuse (Fu, Fu).
Is connected, and a first control line (6) of the first compressor (21) is connected between the first power supply line (61) and the second power supply line (62).
4) and the second control line (65) of the second compressor (22) are connected. The first control line (64) and the second control line (65) are provided with driving contacts (6a,
6a) and the excitation coil (6b, 6b) of each main contact (43, 45) are connected in series. The transformer (63) converts power supply power into control power. Although not shown, a CPU or the like is connected to the transformer (63).

The excitation coil (RY-M) of the detection relay (RY) is connected to the snow melting power supply line (44), and the relay switch (RY-b) of the detection relay (RY) is connected to the outdoor. Connected to the controller (60), the above detection relay (RY)
Detects whether power is being supplied from the snow melting power supply (41), and if power is being supplied from the snow melting power supply (41), the relay switch (RY-b) is turned off to supply a supply signal to the snow melting power supply (41). When the power supply is stopped from 41), the relay switch (RY-b) is turned on to constitute a determination means for outputting a stop signal.

Further, the outdoor controller (60) includes:
A state setting means (70) is provided, and an operation control means (71) for the first compressor (21) and the second compressor (22) is provided. The state setting means (70), when the relay switch (RY-b) of the detection relay (RY) is turned off and outputs the supply signal, the first compressor (21) and the second compressor (22).
Drive is set to the enable state, and the detection relay (RY)
When the relay switch (RY-b) is turned on to output a stop signal, the drive of only the first compressor (21) connected to the normal power supply line (42) is set to a permitted state. .

The operation control means (71) receives the state signal of the state setting means (70) and receives the operation signal and the like, and receives the driving signal of the first control line (64) and the second control line (65). (6a, 6a).

-Operation Control of Compressor- Next, operation control of the first compressor (21) and the second compressor (22) in the air conditioner will be described.

First, a normal power supply (40) and a snow melting power supply (41)
Normal power supply (40) when both are powered by
Is supplied to the first compressor (21) when the first main contact (43) is turned on. On the other hand, the power from the snow melting power supply (41) is supplied to the second compressor (22) when the second main contact (45) is turned on, and the exciting coil (RY-) of the detection relay (RY) is supplied. M) is excited, and the excitation of the exciting coil (RY-M) turns off the relay switch (RY-b) to output a supply signal. Then, the supply signal is received by the state setting means (70), and the first compressor (21) and the second compressor (22)
Is set to the permission state.

In this state, when an operation switch (not shown) is turned on, the operation control means (71) causes both the driving contacts (6) of the first control line (64) and the second control line (65) to operate.
a, 6a) is turned on, and the excitation coil (R) of each main contact (43, 45) is turned on.
YM) is excited to turn on the main contacts (43, 45), and power is supplied from the normal power supply (40) to the first compressor (21), and at the same time, the second compressor (21) is supplied from the snow melting power supply (41). Power is supplied to the first compressor (22), and the first compressor (21) and the second compressor (22) are driven.

On the other hand, when the power supply from the snow melting power supply (41) is stopped, the exciting coil (RY-
M) is demagnetized, and the demagnetization of the exciting coil (RY-M) turns on the relay switch (RY-b) to output a stop signal.
Then, the stop signal is received by the state setting means (70), and the driving of only the first compressor (21) is set to the permission state. That is, the second compressor (22) is set in a state where it cannot be driven.

In this state, the operation control means (71)
Turns on the drive contact (6a) of the first control line (64)
Then, the exciting coil (6b) of the main contact (43) in the first control line (64) is excited to turn on the first main contact (43), and from the normal power supply (40) to the first compressor (21). And only the first compressor (21) is driven.

That is, while the snow melting power supply (41) is supplied only during the winter season, it is supplied only for a predetermined time during the day. , The first compressor (21) and the second compressor (2
2) are driven together to perform the heating operation, and also in this winter, when the electric power is not supplied from the snow melting power supply (41), the heating operation is performed only by the first compressor (21).

In the summer, the electric power is not supplied from the snow melting power supply (41). However, since it is a summer in a snowy country, the cooling capacity is not so required, so that the cooling operation is performed only by the first compressor (21). Do.

-Effects of Embodiment- As described above, according to this embodiment, the first compressor (21) connected to the normal power supply (40) and the second compressor connected to the snow melting power supply (41). A compressor (22) is provided, and when power is supplied from the snow melting power supply (41), both the driving of the first compressor (21) and the second compressor (22) are permitted, and the power is supplied from the snow melting power supply (41). When the power is not supplied, only the first compressor (21) is permitted to be driven, so that the snow melting power source (41) can be used, so that the electricity consumption rate can be reliably reduced, and the running cost can be reduced. Can be reduced.

In particular, since the snow melting power supply (41) and the normal power supply (40) are used in combination without operating only the snow melting power supply (41), the capacity of each compressor (21, 22) itself is increased. Can be reduced, the contract power can be reduced, and the power rate can be reliably reduced.

Since the power supply of the snow melting power supply (41) is detected, it is possible to continue the air conditioning operation using the normal power supply (40) when the power supply of the snow melting power supply (41) is stopped. And stable air-conditioning operation can be performed.

[0043]

In another embodiment of the present invention, the first
Although two compressors, a compressor (21) and a second compressor (22), are provided, in the invention according to claim 1, three or more compressors (2) are provided.
1, 22, ...) may be provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of the present invention.

FIG. 2 is a refrigerant circuit diagram of the air conditioner.

FIG. 3 is an electric circuit diagram showing an electric system of the compressor.

[Explanation of symbols]

 10 Refrigerant circuit 20 Outdoor unit 21 First compressor 22 Second compressor 30 Indoor unit 40 Normal power supply 41 Snow melting power supply 42 Normal power supply line 43 Snow melting power supply line 60 Outdoor controller 61, 62 Power supply line 64, 65 Control line 70 State setting means RY detection relay (judgment means) RY-M excitation coil RY-b relay switch

Claims (2)

[Claims] An air conditioner provided with a refrigerant circuit (10) on which a plurality of compressors (21, 22) are mounted, wherein any one of the compressors (21, 22) The other compressor (22) is connected to the normal power supply line (42) so as to be supplied with power from the normal power supply (40), and the other compressor (22) is connected to the snow melting power supply so as to be supplied with power from the snow melting power supply (41). While being connected to the line (44), it detects whether or not power is supplied from the snow melting power supply (41), and if the power is supplied from the snow melting power supply (41), a supply signal is sent to the snow melting power supply (41). (RY) that outputs a stop signal when the power supply is stopped, and when the determination means (RY) outputs a supply signal, the drive of all the compressors (21, 22) is set to a permitted state. When a stop signal is output, only the compressor (21) connected to the normal power supply line (42) is allowed to operate. An air conditioning apparatus characterized by comprising a state setting means (70) to be set. 2. The air conditioner according to claim 1, wherein the plurality of compressors (21, 22) include a first compressor (21) connected to a normal power supply line (42) and a snow melting power supply line (21). 44)
The state setting means (70), when the determination means (RY) outputs a supply signal, connects the first compressor (21) and the second compressor (22) to the second compressor (22). An air conditioner characterized in that, when driving is set to a permitted state and a stop signal is output, driving of only the first compressor (21) is set to a permitted state.