JPH06159760A - Air conditioner - Google Patents

Abstract

PURPOSE:To improve an operating ratio and to reduce trouble to be imparted to a user as much as possible. CONSTITUTION:Since a third temperature sensor 35 is, if the sensor 25 becomes, for example, abnormal during a heating operation, a temperature sensor to be used only at the time of a cooling operation, the heating operation is, if it is during the heating operation, continued. Simultaneously, a display of a gist that the sensor 25 is abnormal is conducted by a display unit 51 of an indoor unit. If it is during the cooling operation, the sensor 35 is stopped, since it is used in the heating operation, by control means 50.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner which can be operated in various operation modes such as cooling operation and heating operation.

[0002]

2. Description of the Related Art An air conditioner of this type which can be operated in various operation modes such as a cooling operation and a heating operation generally has a structure as shown in the embodiments of the present application. That is, as shown in FIG. 2, the compressor 1, the four-way switching valve 5, the outdoor heat exchanger 8,
First electric expansion valve 13, liquid receiver 11, second electric expansion valve 1
6, the indoor heat exchanger 18, the accumulator 26, etc. constitute a refrigerant circulation path.

A temperature sensor for detecting the temperature is arranged in the middle of the refrigerant circulation path. That is, the discharge pipe 3 connected to the compressor 1 is provided with the first temperature sensor 33, and the outdoor heat exchanger 8 is provided with the second temperature sensor 34. Further, the muffler 25 on the indoor heat exchanger 18 side has a third temperature sensor 35 (35a to 3a).
5d), the fourth temperature sensor 36 is arranged in each of the pipes 20 in which the capillary tube 21 is interposed. A fifth temperature sensor 37 is provided on the suction pipe 4 side. Here, the second temperature sensor 34 is used in the cooling operation or the defrosting operation, the third temperature sensor 35 is used only in the cooling operation, and the fifth temperature sensor 37 is used only in the heating operation. It is supposed to be used.

In such a conventional example, air conditioning control is performed by receiving signals from the temperature sensors 33 ... 37 according to various operation modes such as cooling operation, heating operation, and defrosting operation. And during operation, each temperature sensor 33 ...
Abnormalities such as disconnection and short circuit of 37 are constantly detected, and when an abnormality of the temperature sensor is detected during operation, the system of the entire air conditioner is shut down.

[0005]

By the way, conventionally, the entire system is shut down even when an abnormality of the temperature sensor irrelevant to the operation mode currently in operation is detected. That is, the operation of the air conditioner is always stopped when an abnormality is detected in any of the temperature sensors regardless of the operation mode currently used. As a result, as the system becomes complicated and the number of sensors increases, the rate of system down due to sensor abnormality of the product increases, the operating rate decreases, and the comfort of air conditioning is likely to be impaired.

The present invention has been made in order to solve the above-mentioned conventional drawbacks, and it is an object of the present invention to improve the operating rate and to reduce the frequency of giving discomfort to the user as much as possible. To provide an air conditioner.

[0007]

Therefore, an air conditioner according to a first aspect of the present invention includes a compressor 1, a four-way switching valve 5, and an outdoor heat exchanger 8.
The decompression mechanism 13 and the indoor heat exchanger 18 constitute a refrigerant circulation path, and a plurality of temperature sensors 33, 37 are provided to detect the temperature of each part during operation in various operation modes such as cooling and heating. , Each temperature sensor 33 according to each operation mode ...
In the air conditioner adapted to perform the air conditioning operation by receiving the signal from 37, the abnormality detecting means 50 for detecting the abnormality of each of the temperature sensors 33, ... It is characterized in that a control means 50 is provided for stopping the operation only when an abnormality occurs in the temperature sensors 33 ,.

Further, in the air conditioner according to the second aspect, when the abnormality of the temperature sensor 33, ... 37 occurs, the display unit 51 for notifying the abnormality of the temperature sensor 33 ,. It is characterized by that.

[0009]

According to the air conditioner of the first aspect, when an abnormality occurs in the temperature sensor 33 ... 37, if the temperature sensor 33. If there is an abnormality in the temperature sensors 33 ... 37 that is not related to the operation mode currently in operation,
Since the operation is continued as it is, the operation rate is improved. Therefore, when any of the temperature sensors 33, 37 becomes abnormal, unlike the conventional system in which the system is always down, the comfort of air conditioning can be less frequently reduced.

According to the air conditioner of the second aspect, when an abnormality occurs in the temperature sensors 33, ... 37, the abnormality occurs in the temperature sensor 33 ,. Because of the notification, in the case of an abnormality of the temperature sensor 33 ... 37 that is not related to the driving mode during driving, the temperature sensor 33 ... 37 which has an abnormality before the system is down must be repaired. It will be possible.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Next, specific embodiments of the air conditioner of the present invention will be described in detail with reference to the drawings. 2 is 4
FIG. 2 shows a refrigerant circuit diagram of a multi-type air conditioner equipped with two indoor units. In the figure, X indicates an outdoor unit, and A to D indicate first to fourth indoor units, respectively.

The outdoor unit X has a compressor 1. The capacity of the compressor 1 is controlled by an inverter 2, and its discharge pipe 3 and suction pipe 4 are:
It is connected to the four-way switching valve 5. A first gas pipe 6 and a second gas pipe 7 are connected to the four-way switching valve 5, and an outdoor heat exchanger 8 is connected to the second gas pipe 7. An outdoor fan 9 is attached to the outdoor heat exchanger 8. The outdoor heat exchanger 8 has a first liquid pipe 1
0, the liquid receiver 11, and the second liquid pipe 12 are sequentially connected,
A first electric expansion valve 13 is interposed in the first liquid pipe 10. The second liquid pipe 12 is connected to a header 14, but from this header 14 four liquid side branch pipes 15 ...
15 is branched, and second electric expansion valves 16 ... 16 are provided in each liquid side branch pipe 15.

On the other hand, also from the first gas pipe 6, the four gas side branch pipes 17 ...
7 is branched, and indoor heat exchangers 18 are connected between the branch pipes 15 and 17. An indoor fan 19 is attached to each indoor heat exchanger 18, and both
The indoor units A to D are configured by 19. Further, the liquid receiver 11 and the suction pipe 4 of the compressor 1 are connected by a pipe 20, and a capillary tube 21 is provided in the pipe 20. In FIG. 2, 22 is a gas closing valve, 23 is a liquid closing valve, 25 is a muffler, and 26 is an accumulator.
27 to 29 are solenoid valves, 30 is a muffler, and 31 is a capillary tube.

In the above air conditioner, the refrigerant discharged from the compressor 1 is transferred from the outdoor heat exchanger 8 serving as a condenser to the indoor heat exchanger 1 serving as an evaporator, as indicated by a dashed arrow in the figure.
The cooling operation is performed by circulating the flow to 8 ... 18. In contrast to the above, the refrigerant discharged from the compressor 1 is
The heating operation is performed by circulating the flow from the indoor heat exchanger 18 serving as a condenser to the outdoor heat exchanger 8 serving as an evaporator (solid arrow in the figure).

Next, the temperature sensor which is the gist of the present invention will be described. For example, each of the temperature sensors 33, ...
A first temperature sensor 33 is arranged in the discharge pipe 3 connected to the compressor 1, and a second temperature sensor 34 is arranged in the outdoor heat exchanger 8.

Further, the muffler 25 on the indoor heat exchanger 18 side
The third temperature sensor 35 (35a to 35d) is provided in the pipe 20, and the fourth temperature is provided in the pipe 20 in which the capillary tube 21 is provided.
A temperature sensor 36 is provided. A fifth temperature sensor 37 is provided on the suction pipe 4 side.

The first temperature sensor 33 disposed in the discharge pipe 3 is used during the cooling operation, the heating operation, and the defrosting operation, respectively, and the inverter 2 is operated by the signal from the first temperature sensor 33. It has functions such as frequency control, protection of the compressor 1, temperature control of the discharge pipe 3 and detection of gas shortage. It is also used in the preheat operation before operation.
Therefore, the first temperature sensor 33 is short-circuited to the first temperature sensor 33 in order to be used in various operation modes.
When an abnormality such as disconnection occurs, the system of the air conditioner is down regardless of the operation mode during operation.

The second unit arranged in the outdoor heat exchanger 8
The temperature sensor 34 is used to drive and control the outdoor fan 9 according to the temperature of the outdoor heat exchanger 8 during the cooling operation. The sensor 34 is used for determining whether or not the defrosting operation is necessary during the heating operation, but is not used for operation control of the heating operation itself. Therefore, when an abnormality occurs during the heating operation, the second temperature sensor 34 cannot perform defrosting but can continue operation.

The third temperature sensor 35 (35a to 35d) arranged on the muffler 25 is the fourth temperature sensor 3
A signal from 6 is used to perform superheat control for controlling the second electric expansion valve 16 during the cooling operation, and is not used during the heating operation but used only during the cooling operation. Therefore, even if the third temperature sensor 35 fails during the heating operation, the heating operation can be continued.

Further, the fifth temperature sensor 37 arranged in the suction pipe 4 performs superheat degree control for controlling the first electric expansion valve 13 during the heating operation by the signal from the fourth temperature sensor 36. is there. Therefore, it is not used during the cooling operation, but is used only during the heating operation. Therefore, even if the fifth temperature sensor 37 fails during the cooling operation, the cooling operation can be continued.

The fourth temperature sensor 36 is also used during the cooling operation, the heating operation, and the defrosting operation as described above, and therefore an abnormality occurs in any operation mode. In some cases, it is necessary to stop the operation.

FIG. 1 shows a block circuit diagram of the control means 5.
0 always detects the abnormality of each of the temperature sensors 33, 37, and judges whether or not the current operating mode is related to the temperature sensor in which the abnormality has occurred. If so, the control is performed so as to continue the operation and stop the operation (system down) if there is a relationship. Even when the temperature sensor has an abnormality and the operation can be continued or the operation is stopped, the temperature sensor having the abnormality is displayed on the display unit 51 to notify the user. The display unit 51 may be provided either on the outdoor side or the indoor side, and in the present embodiment, it is provided on the indoor unit.

During the next operation mode, the temperature sensor 33
································································ Whether the operation needs to be stopped will be described with reference to the flowchart of FIG. First, the operation switch is turned on, the desired operation mode is instructed, and the operation is started. When any of the temperature sensors 33, 37 is detected to be abnormal as shown in step S1 during operation, in step S2, the temperature sensor in which the abnormality occurs is operated in the operation mode currently in operation. Determine if the temperature sensor is necessary for. Then, if the temperature sensor is not used in the operation mode during operation, as shown in step S5, a display indicating that the temperature sensor is abnormal is displayed on the display unit 51 provided in the indoor unit to inform the user. Inform. This notification may be a visually appealing display or a buzzer or the like. In this way, the abnormality of the temperature sensor is displayed, and step S6
As shown in, the operation is continued in the operation mode in which the operation is being performed.

Here, for example, when the third temperature sensor 35 becomes abnormal during the heating operation, this third temperature sensor 35
Is a temperature sensor used only during the cooling operation, so if the heating operation is in progress, the heating operation is continuously performed.
A message indicating that the temperature sensor 35 is abnormal is displayed. If the third temperature sensor 35 is being used during the cooling operation, the control means 50 stops the operation because the third temperature sensor 35 is being used during the cooling operation. Since the third temperature sensor 35 is provided for each room in this embodiment, the third temperature sensor
In the case of the temperature sensor, for example, 35a, only the operation of the indoor unit A corresponding to the third temperature sensor 35a may be stopped and the other indoor units B to D may continue to operate.

If the fifth temperature sensor 37 becomes abnormal during the cooling operation, the fifth temperature sensor 37 is used only during the heating operation, so the fifth temperature sensor 37 is used.
Is displayed and the cooling operation is continued. On the contrary, when the fifth temperature sensor 37 becomes abnormal during the heating operation, the abnormality is displayed and the operation is stopped.

Although not shown in the figure, as another temperature sensor, a temperature sensor for detecting the outside air temperature, a temperature sensor for detecting the temperature of the control box of the inverter,
Furthermore, there is a temperature sensor that detects the temperature of the power transistor that constitutes the inverter. Since each of these temperature sensors is used in each operation mode such as heating operation, cooling operation, and defrosting operation, the system is down even if any of the temperature sensors becomes abnormal. Further, although the case of the inverter-type multi-type air conditioner has been described above, the present invention can be applied to an air conditioner having only one indoor unit or a pressure capacity control system having another configuration. Of course.

[0027]

As described above, according to the air conditioner of the first aspect, when an abnormality occurs in the temperature sensor, if the temperature sensor is related to the operation mode currently in operation, the operation is stopped. In the case of an abnormality of the temperature sensor irrelevant to the currently operating mode, the operation rate is improved because the operation is continued. Therefore, when any one of the temperature sensors becomes abnormal, unlike the conventional method in which the system is always down, it is possible to reduce the frequency of impairing air conditioning comfort.

Further, according to the air conditioner of the second aspect, when the abnormality of the temperature sensor occurs, the abnormality of the temperature sensor having the abnormality is notified on the display unit of the indoor unit. In the case of an abnormality of the temperature sensor that is not related to the operation mode during operation, it is possible to repair the temperature sensor that has an abnormality before the system goes down,
The frequency of impairing air-conditioning comfort can be further reduced.

[Brief description of drawings]

FIG. 1 is a block circuit diagram of an embodiment of the present invention.

FIG. 2 is a refrigerant circuit diagram of an embodiment of the present invention.

FIG. 3 is a flowchart showing an operation when the temperature sensor of the embodiment of the present invention is abnormal.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Compressor 2 Inverter 3 Discharge piping 5 Four way switching valve 8 Outdoor heat exchanger 11 Liquid receiver 13 First electric expansion valve 16 Second electric expansion valve 18 Indoor heat exchanger 20 Piping 21 Capillary tube (pressure reducing mechanism) 26 Accumulator 33 1st temperature sensor 34 2nd temperature sensor 35 3rd temperature sensor 36 4th temperature sensor 37 5th temperature sensor 50 Control means 51 Display part

Claims (2)

[Claims] 1. A compressor (1), a four-way switching valve (5),
The outdoor heat exchanger (8), the pressure reducing mechanism (13), and the indoor heat exchanger (18) constitute a refrigerant circulation path, and detect the temperature of each part during operation in various operation modes such as cooling and heating. In an air conditioner that is provided with a plurality of temperature sensors (33 ... 37) and receives a signal from each temperature sensor (33 ... 37) according to each operation mode to perform air conditioning operation,
Only when the abnormality detection means (50) for detecting the abnormality of each of the temperature sensors (33 ... 37) is provided, and the abnormality of the temperature sensor (33 ... 37) related to the operation mode currently in operation occurs An air conditioner comprising a control means (50) for stopping the operation. 2. A display unit (51) for notifying an abnormality of the temperature sensor (33 ... 37) when the abnormality of the temperature sensor (33 ... 37) occurs, the indoor unit (A ...
The air conditioner according to claim 1, wherein the air conditioner is provided in D).