JPH0749890B2 - Heat pump air conditioner - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a heat pump cooling and heating device, and a cooling and heating device using an air heat source heat pump and a refrigerant that uses kerosene or city gas as a heat source when the outside air is at a low temperature. The present invention relates to a heat pump cooling / heating device including an external heat source heat pump heating device that uses a combustor that is heated and used for heating indoors.

[Prior Art] An air heat source heat pump cooling / heating device can obtain a heat output that is 2 to 3 times as much as the amount of heat pumped from the outside in a room. However, with respect to the heating performance, the heating capacity decreases due to the principle of the heat pump, against the increase of the heating load due to the decrease of the outside air temperature.

Therefore, air-heat-source heat pump heating is currently not practical in cold regions such as Tohoku and Hokkaido regions.For this reason, in the winter, the refrigerant is heated outdoors by the combustion heat of kerosene, city gas, etc. However, an external heat source heat pump cooling and heating device using a combustor that is conveyed to the inside of the room for heating has been put into practical use. Such an external heat source heat pump air conditioner will be described with reference to the drawings.

FIG. 4 is an overall configuration diagram showing a refrigerant pipe and a device of a conventional heat pump cooling and heating device.

In the figure, (1) is a first compressor for compressing a refrigerant,
(2) is an air heat source outdoor heat exchanger that performs heat exchange by vaporizing or liquefying the refrigerant, (3) is a four-way switching valve that switches the refrigerant passage between heating operation and cooling operation, and (4) is the pressure of the refrigerant. A pressure reducing device for reduction, (5) is a first accumulator for temporarily accumulating a refrigerant, and (6) is an outdoor heat exchanger blower for blowing air to the air heat source outdoor heat exchanger (2). These constitute the air-heat-source heat pump cooling / heating outdoor unit (A).

(7) is a blower including a rolling fan, and (8) is an indoor heat exchanger that performs heat exchange by vaporizing or liquefying a refrigerant. These constitute the indoor unit (B).

(9) is a combustor that burns kerosene, (10) is a refrigerant heater that heats the refrigerant by exchanging heat between the combustion gas and the refrigerant, and (11) is a second tank that temporarily stores the refrigerant. The accumulator (12) is a second compressor for carrying the refrigerant. These constitute the outdoor heat source heat pump heating outdoor unit (C).

(13) and (14) are first and second refrigerant on-off valves, which are electromagnetic valves and the like inserted in a refrigerant passage connecting the air-heat-source heat pump cooling / heating outdoor unit (A) and the indoor unit (B). And (15) and (16) are refrigerant heaters (10) in the outdoor heat source heat pump heating outdoor unit (C).
And a second accumulator (11) and a second compressor (12), which are third and fourth refrigerant on-off valves respectively arranged in front and rear portions connected in series. These refrigerant on-off valves (13), (14),
In (15) and (16), the opening / closing operation is appropriately performed according to the operation mode to switch the refrigerant circulation flow path.

Next, the operation of each refrigerant circuit during the cooling operation, the air heat source heat pump heating operation, and the external heat source heat pump heating operation of the heat pump cooling and heating apparatus of this configuration will be described.

First, during cooling operation, each of the refrigerant on-off valves (13), (1
4), (15), (16), the first and second refrigerant on-off valves (13), (14) are opened, and the third and fourth refrigerant on-off valves (15), (16) are The refrigerant is closed and the refrigerant accumulated in the first accumulator (5) is used. The refrigerant is the first compressor (1) → four-way switching valve (3) → air heat source outdoor heat exchanger (2) → pressure reducing device (4) → second refrigerant on-off valve (14) → indoor heat exchanger ( 8)-> first refrigerant on-off valve (13)-> four-way switching valve (3)-> first accumulator (5)-> first compressor (1). At this time, the operation of the second compressor (12) in the outdoor heat source heat pump heating outdoor unit (C) and the refrigerant heater (10) for heating the refrigerant by the external heat source are stopped.

At the time of heating operation of the air heat source heat pump, the refrigerant on-off valves (13), (14), (15), (16) are similar to the above-mentioned cooling operation.
Among them, the first and second refrigerant on-off valves (13) and (14) are open, and the third and fourth refrigerant on-off valves (15) and (16) are closed. However, the refrigerant is circulated in the opposite direction to that during the cooling operation. This is because the switching operation of the four-way switching valve (3) causes a reverse connection state during cooling and heating.
Even in this operating state, the operation of the second compressor (12) in the external heat source heat pump heating outdoor unit (C) and the refrigerant heater (10) for heating the refrigerant by the external heat source are stopped. .

During the heating operation of the external heat source heat pump, the first and second refrigerant on-off valves (13) among the refrigerant on-off valves (13), (14), (15), (16) are reversely operated during the both operations. ) And (14) are closed, and the third and fourth refrigerant on-off valves (15) and (16) are opened. Then, the first compressor (1) in the air heat source heat pump cooling / heating outdoor unit (A) is stopped, and the second compressor (12) in the external heat source heat pump heating outdoor unit (C) is operated. Then, the second accumulator (11)
The refrigerant accumulated in is used. The refrigerant is the second compressor (1
2) → 4th refrigerant on-off valve (16) → indoor heat exchanger (8) →
It is circulated in the order of the third refrigerant on-off valve (15) → refrigerant heater (10) → second accumulator (11) → second compressor (12).

Here, the electrical configuration of the heat pump cooling and heating apparatus of FIG. 4 will be described.

In the figure, (17) is a controller provided in the indoor unit (B), (18) is in the air heat source heat pump cooling / heating outdoor unit (A), and (19) is in the external heat source heat pump. It is a controller respectively provided in the outdoor unit for heating (C). (20) is a power line to the air heat source heat pump cooling / heating outdoor unit (A), (21) is a power line to the indoor unit (B), and (22) is an air heat source heat pump outdoor unit (A). From the external heat source heat pump to the outdoor unit for heating (C). Further, (23) is a signal line for transmitting an operation signal from the indoor unit (B) to the external heat source heat pump heating outdoor unit (C), and (24) is an air heat source heat pump cooling and heating outdoor unit (A) at the same time. Is a signal line to be transmitted to.

The advantages of using this type of two-pump / three-piece heat pump cooling / heating device will be described below.

Normally, the heating capacity is 1 to 1.5 times that of the cooling capacity,
In the heating cycle by the external heat source heat pump heating operation as described above, the pressure reducing device (4) is not provided, and the pressure difference between the suction and the discharge of the second compressor (12) is only the pipe resistance, and the condensing temperature of the refrigerant is 50 to 50%. Since it is about 60 [° C], the working pressure of the refrigerant is about 20 [Kg / cm ² ], and the second compressor (12) for heating has the refrigerant carrying capacity of the first compressor for cooling. It is a fraction of that of (1).

Therefore, the second compressor (12) for heating may be a smaller compressor than the first compressor (1) for cooling.

In addition, even a small-sized and low-power compressor (12) is heated by using kerosene or the like as a heat source, and therefore the heating capacity is not affected by the outside air temperature, so that the heating capacity can be sufficiently exhibited.

Further, the air heat source heat pump heating operation and the external heat source heat pump heating operation can be appropriately selected according to the outdoor temperature and the like, and efficient and proper heating can be performed.

[Problems to be Solved by the Invention] In the conventional heat pump cooling and heating apparatus as described above, the refrigerant circuit by the cooling operation, the air heat source heat pump heating operation, and the external heat source heat pump heating operation is connected to the refrigerant on-off valve (1
3), (14), (15), and (16) were opened and closed appropriately. Then, in all the operation modes, one indoor heat exchanger (8) is commonly used.

Therefore, when the operation mode is switched and the operation is continuously performed in another operation mode, the amount of refrigerant required for the cycle may be insufficient and the operation may not be performed with an appropriate amount of refrigerant. As a means for correcting this, it was necessary to perform switching control in a special operation mode.

For example, immediately after the external heat source heat pump heating operation by the combustor (9) is performed with the first and second refrigerant on-off valves (13), (14) closed, the first compressor (1) is used. The case where the air heat source heat pump heating operation is performed corresponds to the above example.

That is, most of the refrigerant exists in the refrigerant heater (10) and the second accumulator (11) in the outdoor heat source heat pump heating outdoor unit (C), and therefore, the air heat source heat pump cooling and heating outdoor unit (A). A shortage of the refrigerant in) occurs, and proper heating operation cannot be performed. Therefore, while the third refrigerant on-off valve (15) is closed and the fourth refrigerant on-off valve (16) is opened, the refrigerant heating operation is temporarily performed for a short time to heat the refrigerant heater (10). It has been necessary to extrude the refrigerant in the downstream direction of the fourth refrigerant on-off valve (16) by evaporating the liquid refrigerant.

Incidentally, as a method of preventing the shortage of the refrigerant as described above,
Encapsulating a large amount of refrigerant in advance was also considered as one solution. However, with this method, it has been unavoidable that the refrigerant becomes insufficiently operated over time.

That is, a small amount of refrigerant leaks from the third and fourth refrigerant on-off valves (15) and (16), and the refrigerant is sunk in the refrigerant heater (10) and the second accumulator (11). This is because when the air heat source heat pump heating operation is performed, the first refrigerant on-off valve (1
The refrigerant passing through 3) is in the high-voltage side circuit (around 20 [Kg / cm ² ]), and the temperature of the refrigerant during heating is at least 10 [° C] or less, so an external heat source heat pump that is installed outdoors The third and fourth refrigerant on-off valves (15), (16) leak due to the pressure difference between the outdoor temperature saturation pressure (around 5 [Kg / cm ² ]) in the refrigerant circuit inside the machine unit (C). However, stagnation occurs in the refrigerant heater (10) and the second accumulator (11).

During the cooling operation, the first and second refrigerant on-off valves (13),
Since the refrigerant passing through (14) is a low-pressure refrigerant after passing through the decompression device (4), the stagnation phenomenon of the refrigerant does not occur.
The refrigerant can be discharged to the outside of the refrigerant pipe of the external heat source heat pump heating outdoor unit (C) only by temporarily opening the refrigerant on-off valves (15) and (16).

Further, in the method of releasing the refrigerant to the outside of the refrigerant circuit in the outdoor heat source heat pump heating outdoor unit (C) by the combustion heat, it is necessary to vaporize kerosene before turning on the burner of the combustor (9). Since it takes time (5 to 10 minutes) for the residual heat of the vaporizer of the burner, it took a long time to start the heating operation of the external heat source heat pump. In addition, operation control was complicated. Therefore, it was necessary to improve these.

Therefore, according to the present invention, when the operation modes of the cooling operation, the air heat source heat pump heating operation, and the external heat source heat pump heating operation are switched, it is not necessary to perform the switching control in the special operation mode, and the switching can be easily performed in a short time. It is an object to provide a heat pump cooling and heating device.

[Means for Solving the Problem] A heat pump cooling and heating apparatus according to the present invention includes an indoor unit (B) having an indoor heat exchanger (8) and a blower (7), a first compressor (1), An air heat source heat pump cooling / heating outdoor unit (A) formed by connecting a four-way switching valve (3), an air heat source outdoor heat exchanger (2), and a first accumulator (5), and the air heat source heat pump cooling / heating outdoor A refrigerant heater (10) for heating the refrigerant by an external heat source, a second accumulator (11), and a second compressor (12) are provided in a refrigerant passage connecting the machine unit (A) and the indoor unit (B). External heat source heat pump heating outdoor unit (C) in which refrigerant on-off valves (15) and (16) are connected in series
And the external heat source heat pump heating outdoor unit (C) and the air heat source heat pump cooling and heating outdoor unit (A) are connected in parallel, and the external heat source heat pump heating outdoor unit (C) is connected to the refrigerant passage. A first refrigerant on-off valve (13) and a second refrigerant on-off valve (14) arranged on the air heat source heat pump cooling and heating outdoor unit (A) side of the connection point of the second refrigerant on-off valve (14). ) And an external heat source heat pump heating outdoor unit (C) connecting point, a pressure reducing device (25) disposed in a refrigerant passage portion, the pressure reducing device (25) and a second refrigerant on-off valve (14). ) And a refrigerant recovery pipe (26) arranged from the second accumulator (11) of the outdoor heat source heat pump outdoor unit (C) via the check valve (27). is there.

[Operation] In the heat pump cooling and heating apparatus of the present invention, the decompression device (25) is arranged in the outdoor heat source heat pump heating outdoor unit (C), and the decompression device (25) is provided on the low pressure side (during heating operation). External heat source heat pump From the second accumulator (11) of the outdoor unit for heating (C) to the check valve (27)
Since the refrigerant recovery pipe (26) is arranged via the heat exchanger, the external heat source heat pump heating operation is switched to the air heat source heat pump heating operation, and at the same time, the external heat source heat pump heating outdoor unit unit (C) refrigerant heater. The refrigerant in (10) and the second accumulator (11) moves smoothly during the air heat source heat pump heating operation cycle, and the air heat source heat pump heating operation with a sufficient amount of refrigerant is started.

[Embodiment] FIG. 1 is a configuration diagram showing a refrigerant pipe and a device of a heat pump cooling and heating apparatus according to an embodiment of the present invention. In the figure, the same reference numerals and symbols as those of the conventional example indicate the same or corresponding components as those of the conventional example, and thus the description thereof will be omitted here.

In the figure, (25) is a decompression device, which is disposed in the conventional air-heat-source heat pump cooling / heating outdoor unit (A), and is relocated to the external-heat-source heat pump heating outdoor unit (C). It is a thing. (26) is between the pressure reducing device (25) and the second refrigerant on-off valve (14) (the pressure reducing device (2
The second accumulator (1) of the outdoor heat source heat pump heating outdoor unit (C) on the low pressure side (during heating operation) of 5)
Refrigerant recovery pipe installed from 1), (27) recovery pipe (26)
It is a check valve arranged in the middle to regulate the flow direction of the refrigerant to one direction.

Since the flow path itself of each refrigerant circuit during the cooling operation, the air heat source heat pump heating operation, and the external heat source heat pump heating operation of the heat pump cooling and heating apparatus configured as described above is the same as that of the conventional example, the description thereof is omitted here. .
Here, an operation mode switching operation from the air heat source heat pump heating operation to the external heat source heat pump heating operation will be described.

In the heat pump cooling / heating device having the above-described configuration, when performing the external heat source heat pump heating operation, the second compressor (12)
Since the gas refrigerant discharged from the indoor heat exchanger (8) is condensed and liquefied, the path after the indoor heat exchanger (8) is filled with the liquid refrigerant. Then, this liquid refrigerant is heated by the refrigerant heater (10) and evaporated to be vaporized again. However, since it is heat exchange with the high temperature combustion gas, when the liquid refrigerant in the refrigerant heater (10) is insufficient, the refrigerant temperature at the outlet of this refrigerant heater (10) rises rapidly, and the refrigerant becomes damp. It is necessary to drive in this condition. Therefore, there is a large amount of liquid refrigerant in the refrigerant heater 10, and the second accumulator (11)
The operation is also performed in a state in which the liquid refrigerant is always held also in the lower part of.

Here, when the external heat source heat pump heating operation is stopped,
Immediately after the stop, due to the residual heat of the combustor (9) and the second compressor (12), the refrigerant pressure of the external heat source heat pump heating operation circuit system is high, but gradually decreases with the passage of time and becomes saturated with the ambient temperature. It becomes a state.

Next, a case where the air heat source heat pump heating operation is performed in the above state will be described.

In this case, since the upstream side of the decompression device (25) has a high pressure but the downstream side has a low pressure, the pressure causes the outside air heat source heat exchanger (2) to evaporate the refrigerant using the outside air as a heat source. The pressure at this time is lower than the saturation pressure synchronized with the ambient temperature. Therefore, the refrigerant in the second accumulator (11) passes through the recovery pipe (26) and the check valve (27) and is recovered by the air heat source heat pump heating operation circuit. At this time, the first and second refrigerant on-off valves (13),
(14) is opened, and the third and fourth refrigerant on-off valves (15),
(16) is closed.

As described above, in the heat pump cooling and heating apparatus of this embodiment, it is possible to smoothly switch the operation modes of the air heat source heat pump heating operation and the external heat source heat pump heating operation. In particular, when switching from the external heat source heat pump heating operation to the air heat source heat pump heating operation, the refrigerant heater (10) and the second accumulator (11) of the outdoor heat source heat pump heating outdoor unit (C) are simultaneously transferred at the same time. Refrigerant of the recovery pipe (26) → check valve (2
Passing 7), it moves smoothly during the air heat source heat pump heating operation cycle, and the air heat source heat pump heating operation with a sufficient amount of refrigerant is started. Therefore, it is not necessary to perform a switching control in a special operation mode when switching each operation mode of the cooling operation, the air heat source heat pump heating operation, and the external heat source heat pump heating operation as in the conventional case, and it is easy in a short time. Can be switched to, and efficient heating can be performed.

Next, another embodiment of the present invention will be described. Second
FIG. 1 is a configuration diagram showing a refrigerant pipe and a device of a heat pump cooling / heating device which is another embodiment of the present invention. In the drawings, the same reference numerals and symbols as those of the first embodiment show the same or corresponding components as those of the first embodiment, and therefore the description thereof will be omitted here.

In the figure, (28) is a heat pump heating decompression device arranged in the external heat source heat pump heating outdoor unit (C), and (29) is a refrigerant flow arranged in parallel with the heat pump heating decompression device (28). It is a check valve that regulates the direction to one direction. The check valve (29) is arranged so as to be in the forward direction during the cooling operation. (30) is an air heat source heat pump, a cooling decompression device arranged in the outdoor unit for cooling and heating (A), and (31) is a cooling medium arranged in parallel with the cooling decompression device (30) in one direction. It is a check valve that regulates. The check valve (31) is arranged so as to be in the forward direction during the air heat source heat pump heating operation.

In the heat pump cooling / heating apparatus having this configuration, during the cooling operation, the cooling decompression device (30) in the air heat source heat pump cooling / heating outdoor unit (A) is used, and the refrigerant decompressed here is used for the external heat source heat pump heating. The flow goes through the check valve (29) in the outdoor unit (C) to the indoor heat exchanger (8) in the outdoor unit (B).

On the other hand, during the air heat source heat pump heating operation, the refrigerant condensed in the indoor heat exchanger (8) of the outdoor unit (B) is the outdoor heat source heat pump heating outdoor unit (C).
The pressure is reduced by the heat pump heating decompression device (28) therein, and flows through the check valve (31) to the air heat source outdoor heat exchanger (2) in the air heat source heat pump cooling and heating outdoor unit (A).

In this way, even if a dedicated decompression device for heating and cooling is separately arranged in the air heat source heat pump cooling / heating outdoor unit (A) and the external heat source heat pump heating outdoor unit (C), respectively, It is possible to obtain the same effect as that of the above embodiment. That is, the check valve (27) is connected from the second accumulator (11) of the outdoor heat source heat pump heating outdoor unit (C) to the low pressure side (during air heat source heat pump heating operation) on the downstream side of the heat pump heating decompression device (28). )
This is because the refrigerant recovery pipe (26) is disposed via the heat pump and the heat pump heating decompression device (28) operates effectively only during the heating operation.

In addition, in the case of this embodiment, during cooling operation, the downstream side of the cooling pressure reducing device (30) in the air heat source heat pump cooling and heating outdoor unit (A) has a low pressure, so that the external heat source heat pump heating outdoor unit is used. Refrigerant circuit in the unit (C) (refrigerant heater (10) and second accumulator (11))
The refrigerant is recovered in this refrigerant circuit system.

FIG. 3 is a main part enlarged configuration diagram showing the vicinity of the accumulator part in the external heat source heat pump heating outdoor unit of the heat pump cooling and heating apparatus according to the embodiment of the present invention. In the figure (1
1), (13), (25) to (27) are components that are the same as or correspond to the components of the above-mentioned conventional example and embodiment.

In the figure, (32) is a connection portion between the second accumulator (11) and the recovery pipe (26), which is connected at a predetermined height level. In this way, the second accumulator (11)
When the transition to the air heat source heat pump heating operation is performed by setting the connection portion (32) between the recovery pipe (26) and the recovery pipe (26) to a predetermined height level from the lower surface of the second accumulator (11),
All the liquid refrigerant in the second accumulator (11) is not collected in the heating system. That is, normally, during the heating operation of the external heat source heat pump, it is necessary for the refrigerant circuit to properly operate that the liquid refrigerant is held under the second accumulator (11).

Therefore, even when the external heat source heat pump heating operation is performed again after the air heat source heat pump heating operation is stopped, a constant amount of the refrigerant is always retained in the second accumulator (11), so that the second compressor The operation in (12) starts smoothly. And the second compressor (12) immediately after starting
It is possible to prevent abnormal heating of the refrigerant at the outlet of the refrigerant heater (10) due to a shortage of the refrigerant to the refrigerant.

[Effects of the Invention] As described above, in the heat pump cooling / heating apparatus of the present invention, the decompression device is arranged in the external heat source heat pump heating outdoor unit, and the external heat source heat pump is provided on the low pressure side of the decompression device (during heating operation). By disposing the refrigerant recovery pipe from the second accumulator of the heating outdoor unit through the check valve, the external heat source heat pump heating operation is switched to the air heat source heat pump heating operation, and at the same time,
Since the refrigerant in the refrigerant heater and the second accumulator of the external heat source heat pump heating outdoor unit moves smoothly during the air heat source heat pump heating operation cycle, and the air heat source heat pump heating operation with a sufficient amount of refrigerant is started. There is no need to perform switching control in a special operation mode when switching between each operation mode of cooling operation, air heat source heat pump heating operation, and external heat source heat pump heating operation. Can provide good heating.

[Brief description of drawings]

FIG. 1 is an overall configuration diagram showing a refrigerant pipe and a device of a heat pump cooling and heating device according to an embodiment of the present invention, and FIG. 2 is an overall view showing a refrigerant pipe and a device of a heat pump cooling and heating device according to another embodiment of the present invention. FIG. 3 is an enlarged configuration diagram of an essential part showing the vicinity of an accumulator portion in an outdoor heat source heat pump heating outdoor unit of a heat pump cooling / heating apparatus of the present invention, and FIG. 4 shows a refrigerant pipe and apparatus of a conventional heat pump cooling / heating apparatus. It is the whole block diagram shown. In the figure, 10: refrigerant heater, 12: second compressor, 11: second accumulator, 13: first refrigerant on-off valve, 14: second refrigerant on-off valve, 15: third refrigerant on-off valve , 16: 4th refrigerant on-off valve, 25: Pressure reducing device, 26: Recovery pipe, 27,29, 31: Check valve, 28: Heat pump heating pressure reducing device, 30: Cooling pressure reducing device, A: Air heat source heat pump It is an outdoor unit for cooling and heating, B: an indoor unit, C: an outdoor unit for an external heat source heat pump heating. In the drawings, the same reference numerals and symbols indicate the same or corresponding parts.

Claims (1)

[Claims] 1. A refrigerant heater for heating a refrigerant by an external heat source in an indoor unit, an air heat source heat pump cooling / heating outdoor unit, and a refrigerant passage connecting the air heat source heat pump cooling / heating outdoor unit and the indoor unit. An external heat source heat pump heating outdoor unit unit in which a second accumulator, a second compressor, and a refrigerant on-off valve are connected in series; and an external heat source heat pump heating outdoor unit unit and an air heat source heat pump cooling and heating outdoor unit unit. A first refrigerant on-off valve and a second refrigerant on-off valve which are connected in parallel and are arranged on the air heat source heat pump cooling / heating outdoor unit unit side at a connection point with the refrigerant passage of the external heat source heat pump heating outdoor unit; A refrigerant passage portion between the second refrigerant on-off valve and a connection point of the external heat source heat pump heating outdoor unit A pressure reducing device disposed, and a refrigerant recovery pipe disposed between the pressure reducing device and the second refrigerant on-off valve from the second accumulator of the external heat source heat pump heating outdoor unit via a check valve, A heat pump cooling and heating device comprising: