JPH0742066Y2 - Air conditioner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial application] The present invention relates to a remote condenser type air-cooled air conditioner.

(Problems to be Solved by Prior Art and Invention) A remote condenser type air-cooling type air conditioner is known as disclosed in Japanese Utility Model Laid-Open No. 55-69672. In the case of this type of air conditioner, when the thermostat is started and stopped, the compressor, the indoor fan, and the outdoor fan are started and stopped according to a command from the control device provided on the indoor unit side. Therefore, a control line for transmitting the operation control command of the outdoor fan from the indoor unit side to the outdoor unit side is required. That is, since it is necessary to wire two lines, a power supply line and a control line, between the outdoor unit and the indoor unit, there is a problem that the on-site wiring work becomes complicated. .

The present invention has been made in view of the above points, and it is an object of the present invention to eliminate the need to provide a control line between an outdoor unit and an indoor unit, thereby reducing the construction work. is there.

(Means for Solving the Problem) In the invention of claim 1, as means for solving the above-mentioned problem, as shown in the drawings, an outdoor unit including an outdoor heat exchanger 2 provided with an outdoor fan 6 attached thereto. A, compressor 1,
In the air conditioner including an indoor unit B including an expansion mechanism 3 and an indoor heat exchanger 4, the outdoor unit A
By the air temperature detecting means 8 for detecting the air temperature in the outdoor unit A, the refrigerant temperature detecting means 9 for detecting the refrigerant temperature in the outdoor unit A, the air temperature detected by the air temperature detecting means 8 and the refrigerant temperature detecting means 9. Control means 10 for outputting a command to stop the operation of the outdoor fan 6 when the temperature difference from the detected refrigerant temperature becomes equal to or lower than a predetermined value.
And are attached.

In the invention of claim 2, as means for solving the above-mentioned problems, as shown in the drawings, an outdoor unit A provided with an outdoor heat exchanger 2 provided with an outdoor fan 6, and a compressor 1,
In an air conditioner including an indoor unit B having an expansion mechanism 3 and an indoor heat exchanger 4, an air temperature detecting means 8 for detecting an air temperature in the outdoor fan A and a refrigerant pressure in the outdoor unit A are detected. When the temperature difference between the air temperature detected by the refrigerant pressure detecting means 11 and the air temperature detecting means 8 and the refrigerant saturation temperature corresponding to the refrigerant pressure detected by the refrigerant pressure detecting means 11 becomes a predetermined value or less. And a control means 12 for outputting a command to stop the operation of the outdoor fan 6.

(Operation) According to the first aspect of the invention, the following operation is obtained by the above means.

That is, when the temperature difference between the air temperature in the outdoor unit A and the refrigerant temperature in the outdoor unit A becomes a predetermined value or less when the air conditioner thermostat is stopped, the operation of the outdoor fan 6 is stopped. As a result, the start / stop control of the outdoor fan 6 can be performed only on the outdoor unit A side.

According to the second aspect of the invention, the following effects can be obtained by the above means.

That is, when the thermostat of the air conditioner is stopped, when the temperature difference between the air temperature in the outdoor unit A and the refrigerant saturation temperature corresponding to the refrigerant pressure in the outdoor unit A becomes a predetermined value or less, the operation of the outdoor fan 6 is stopped. As a result of being stopped, the start / stop control of the outdoor fan 6 can be performed only on the outdoor unit A side.

According to the invention of claim 1, the outdoor unit A including the outdoor heat exchanger 2 provided with the outdoor fan 6, the compressor 1,
In the air conditioner including an indoor unit B including an expansion mechanism 3 and an indoor heat exchanger 4, the outdoor unit A
By the air temperature detecting means 8 for detecting the air temperature in the outdoor unit A, the refrigerant temperature detecting means 9 for detecting the refrigerant temperature in the outdoor unit A, the air temperature detected by the air temperature detecting means 8 and the refrigerant temperature detecting means 9. Control means 10 for outputting a command to stop the operation of the outdoor fan 6 when the temperature difference from the detected refrigerant temperature becomes equal to or lower than a predetermined value.
When the thermostat of the air conditioner is stopped, the operation of the outdoor fan 6 is stopped when the temperature difference between the air temperature in the outdoor unit A and the refrigerant temperature in the outdoor unit A becomes a predetermined value or less. As a result, the start / stop control of the outdoor fan 6 can be performed only on the outdoor unit A side. As a result, the line connecting the outdoor unit A and the indoor unit B need only be the power supply line. There is a practical effect that wiring work can be simplified.

According to the invention of claim 2, the outdoor unit A including the outdoor heat exchanger 2 provided with the outdoor fan 6, the compressor 1,
In the air conditioner including an indoor unit B including an expansion mechanism 3 and an indoor heat exchanger 4, the outdoor unit A
The air temperature detecting means 8 for detecting the air temperature in the outdoor unit A, the refrigerant pressure detecting means 11 for detecting the refrigerant pressure in the outdoor unit A, the air temperature detected by the air temperature detecting means 8 and the refrigerant pressure detecting means 11. An air conditioner is additionally provided with a control means 12 that outputs a command to stop the operation of the outdoor fan 6 when the temperature difference between the detected refrigerant pressure and the refrigerant saturation temperature is equal to or less than a predetermined value. When the thermostat is stopped, the operation of the outdoor fan 6 is stopped when the temperature difference between the air temperature in the outdoor unit A and the refrigerant saturation temperature corresponding to the refrigerant pressure in the outdoor unit A becomes a predetermined value or less. So outdoor fan 6
As a result that the start / stop control can be performed only on the outdoor unit A side, the line connecting the outdoor unit A and the indoor unit B need only be the power supply line, which simplifies the on-site wiring work. Has a practical effect.

Embodiments Hereinafter, some preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Embodiment 1 FIG. 1 shows a refrigerant circuit of an air conditioner according to Embodiment 1 of the present invention. This embodiment corresponds to the device of claim 1.

The refrigerant circuit of the air conditioner of the present embodiment is configured by sequentially connecting the compressor 1, the outdoor heat exchanger 2, the expansion mechanism 3, the indoor heat exchanger 4 and the accumulator 5 with a refrigerant pipe. An outdoor fan 6 for cooling is attached to the exchanger 2, and an indoor fan 7 is attached to the indoor heat exchanger 4.

The outdoor heat exchanger 2 and the outdoor fan 6 form an outdoor unit A, and the compressor 1, the expansion mechanism 3, the indoor heat exchanger 4, the accumulator 5, and the indoor fan 7 form an indoor unit B. Has become.

Therefore, the outdoor unit A has
In the outdoor heat exchanger 2 (in other words, the outdoor unit A), and an air temperature sensor 8 acting as an air temperature detecting means for detecting the air temperature Ta in the refrigerant temperature detecting means for detecting the refrigerant temperature Tr in the outdoor heat exchanger 2 (in other words, the outdoor unit A). Sensor 9
And the air temperature sensor 8 and the refrigerant temperature sensor 9
And a control means 10 for controlling the start and stop of the outdoor fan 6 based on the temperature information from.

The control means 10 comprises, for example, a microcomputer, and the air temperature Ta detected by the air temperature sensor 8 and the refrigerant temperature detected by the refrigerant temperature sensor 9.
When the temperature difference (| Tr−Ta |) with Tr becomes equal to or less than a predetermined value ΔT, a command to stop the operation of the outdoor fan 6 is output.

The operation of the air conditioner having the above structure will be described with reference to the flowchart shown in FIG.

When the operation of the air conditioner is stopped by the thermostat, the operations of the compressor 1 and the indoor fan 7 are stopped by a command from a control device (not shown) provided on the indoor unit B side. Then, since the supply of the refrigerant to the outdoor heat exchanger 2 is not made, the temperature difference between the refrigerant temperature Tr input from the air temperature Ta and the refrigerant temperature sensor 9 which is input from the air temperature sensor 8 in step S ₁ (| Tr −Ta |) becomes smaller. Therefore, in step S ₂ , the temperature difference (| Tr−Ta |) is compared with the predetermined value ΔT, and if it is determined that | Tr−Ta |> ΔT, the control by the control means 10 is controlled in step S ₃ And the operation of the outdoor fan 6 is continued, but if | Tr−Ta | ≦ ΔT is determined in step S ₂ , the control means
The control by 10 proceeds to step S ₄ , and the operation of the outdoor fan 6 is stopped. That is, in this embodiment, the start / stop of the outdoor fan 6 is controlled only by the device arranged on the outdoor unit A side, and the indoor unit B is controlled.
There is no need to transmit a control signal from the outdoor unit A to the outdoor unit A. Therefore, the outdoor unit A and the indoor unit B
Between the and, only the power supply line needs to be wired, which simplifies the on-site wiring work.

Embodiment 2 FIG. 3 shows a refrigerant circuit of an air conditioner according to Embodiment 2 of the present invention. This embodiment corresponds to the invention of claim 2.

The refrigerant circuit of this embodiment is the same as that of the first embodiment, except that the outdoor unit A has an outdoor heat exchanger 2 instead of the refrigerant temperature sensor 9 for detecting the refrigerant temperature of the outdoor heat exchanger 2. A pressure sensor 11 is provided which functions as a refrigerant pressure detecting means for detecting the refrigerant pressure P. In the case of this embodiment, the outdoor unit A includes the air temperature sensor 8
Control means 12 for controlling the start / stop of the outdoor fan 6 based on the temperature information from the above and the pressure information from the pressure sensor 11 is additionally provided.

The control means 12 is composed of, for example, a microcomputer, and the temperature difference between the air temperature Ta detected by the air temperature sensor 8 and the refrigerant saturation temperature Tr corresponding to the refrigerant pressure P detected by the pressure sensor 11 (| When Tr−Ta |) becomes equal to or less than a predetermined value ΔT, a command to stop the operation of the outdoor fan 6 is output.

The operation of the air conditioner having the above structure will be described with reference to the flowchart shown in FIG.

When the operation of the air conditioner is stopped by the thermostat, the operations of the compressor 1 and the indoor fan 7 are stopped by a command from a control device (not shown) provided on the indoor unit B side. Then calculation, since the supply of the refrigerant to the outdoor heat exchanger 2 is not made, in step S ₂ on the basis of the refrigerant pressure P which is input from the air temperature Ta and the pressure sensor 11 that is input from the air temperature sensor 8 in step S ₁ The difference temperature (| Tr−Ta |) from the refrigerant saturation temperature Tr is reduced. Therefore, the step difference temperature in _{S 3 (| Tr-Ta |} ) compared with the predetermined value ΔT is performed, | Tr-Ta |> when it is determined that the ΔT is controlled by the control means 12 Step S ₄ And the operation of the outdoor fan 6 is continued, but if it is determined in step S ₃ that | Tr−Ta | ≦ ΔT, the control means
The control by 12 proceeds to step S ₅ , and the operation of the outdoor fan 6 is stopped. That is, in this embodiment, the start / stop of the outdoor fan 6 is controlled only by the device arranged on the outdoor unit A side, and the indoor unit B is controlled.
There is no need to transmit a control signal from the outdoor unit A to the outdoor unit A. Therefore, the outdoor unit A and the indoor unit B
Between the and, only the power supply line needs to be wired, which simplifies the on-site wiring work.

The present invention is not limited to the configuration of each of the above-mentioned embodiments, and it goes without saying that the design can be appropriately changed without departing from the scope of the invention.

[Brief description of drawings]

FIG. 1 is a refrigerant circuit diagram of an air conditioner according to Embodiment 1 of the present invention, FIG. 2 is a flow chart for explaining the operation of the air conditioner according to Embodiment 1 of the present invention, and FIG. FIG. 4 is a refrigerant circuit diagram of the air conditioner according to the second embodiment of the present invention, and FIG. 4 is a flowchart for explaining the operation of the air conditioner according to the second embodiment of the present invention. DESCRIPTION OF SYMBOLS 1 ... Compressor 2 ... Outdoor heat exchanger 3 ... Expansion mechanism 4 ... Indoor heat exchanger 6 ... Outdoor fan 8 ... Air temperature detection means (air temperature sensor) 9 ... Refrigerant temperature detection means (refrigerant temperature sensor) 10 ... Control means 11 ... Refrigerant pressure detection means (pressure sensor) 12 ... Control means A ... Outdoor unit B ... Indoor unit

Claims (2)

[Scope of utility model registration request] 1. An outdoor unit (A) having an outdoor heat exchanger (2) provided with an outdoor fan (6), a compressor (1), an expansion mechanism (3) and an indoor heat exchanger (4). In an air conditioner including an indoor unit (B) including an air temperature detecting unit (8) for detecting an air temperature in the outdoor unit (A), and the outdoor unit (A).
Temperature detecting means (9) for detecting the refrigerant temperature in
And the outdoor fan (6) when the temperature difference between the air temperature detected by the air temperature detecting means (8) and the refrigerant temperature detected by the refrigerant temperature detecting means (9) is below a predetermined value. An air conditioner equipped with a control means (10) for outputting a command to stop the operation of the air conditioner. 2. An outdoor unit (A) having an outdoor heat exchanger (2) provided with an outdoor fan (6), a compressor (1), an expansion mechanism (3) and an indoor heat exchanger (4). In an air conditioner including an indoor unit (B) including an air temperature detecting unit (8) for detecting an air temperature in the outdoor unit (A), and the outdoor unit (A).
Pressure detection means (11) for detecting the refrigerant pressure in the
And when the temperature difference between the air temperature detected by the air temperature detection means (8) and the refrigerant saturation temperature corresponding to the refrigerant pressure detected by the refrigerant pressure detection means (11) is below a predetermined value. An air conditioner provided with a control means (12) for outputting a command to stop the operation of the outdoor fan (6).