JP2002106924A - Control device for air conditioner - Google Patents

Abstract

(57) [Problem] In a conventional air conditioner, the operating current (I) is low because the outdoor fan rotation speed (r) is low during the reheating and dehumidifying operation.
Even when the temperature is low, the temperature exceeds the allowable temperature of the outdoor unit electrical components, causing a problem with the outdoor unit electrical components. SOLUTION: The air conditioner of the present invention has a control for changing an outdoor fan rotation speed (r) in accordance with an operation current (I) detected by an operation current detection means, and protects an outdoor unit electrical component. It is characterized by doing.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

TECHNICAL FIELD The present invention relates to a reheating dehumidifying operation,
The present invention relates to a control device for an air conditioner that changes the rotation speed (r) of an outdoor blower.

[0002]

2. Description of the Related Art In a conventional air conditioner, an operating current detector as an operating current detecting means corresponding to an outdoor temperature (Tout) detected by an outdoor temperature detector 9 as an outdoor air temperature detecting means in FIG. The upper limit of the operating current (I) detected by 11 is limited by the following procedure.

[0003] The operating current detected by the current detecting unit 11 in FIG. 9 and the outdoor temperature (Tout) detected by the outdoor temperature detector 9 are transmitted to the central control unit 19, and the central control unit 19 A predetermined reference temperature (TS, for example, 36 ° C.) related to the outdoor temperature (Tin) stored in advance in the table storage unit and the detected outdoor temperature (Tou)
t) are compared, and a predetermined reference current (IS, for example, 14 A) relating to the operating current (I) and the detected current (I)
As a result, the outdoor temperature (Tout) becomes equal to the reference temperature (Tout).
S, 36 ° C) and the operating current (I) is equal to or higher than the reference current (I
S, 14A) and only when the central control unit 19
Transmits a signal for lowering the compressor frequency to the compressor control unit 20, and the compressor 7 operates at the frequency of the compressor control unit 20. As a result, the outdoor temperature (Tout) is reduced to the reference temperature (Tout).
S) At the time, control has been performed to limit the rise in the temperature of the outdoor unit control unit by limiting the operating current (I) to the reference current (IS) or less.

[0004]

However, even when such a control means is used during the reheating and dehumidifying operation, the outdoor unit electric components are not affected even when the operation current (I) is low because the outdoor fan rotation speed (r) is low. There is a problem that the temperature may exceed the allowable temperature, and there is a risk that the electric equipment of the outdoor unit may be destroyed.

Accordingly, the present invention is to prevent the temperature rise of electrical components.

[0006]

According to a first aspect of the present invention, there is provided a control apparatus for an air conditioner, comprising: a compressor;
In a second condenser, a throttle mechanism, a two-way valve, and an air conditioner having a reheat dehumidification circuit configured by an evaporator, the air conditioner includes operating current detecting means for detecting an operating current. The rotation speed (r) of the outdoor blower is changed according to the detected operating current (I).

According to a second aspect of the present invention, there is provided an air conditioner control apparatus according to the first aspect, further comprising an outdoor temperature detecting means for detecting an outdoor temperature, wherein the outdoor temperature detecting means is provided. The outdoor temperature (Tout) detected at
The rotation speed (r) of the outdoor blower is changed according to the operating current (I).

According to a third aspect of the present invention, there is provided an air conditioner control device according to the second aspect, further comprising a compressor discharge temperature detecting means for detecting a compressor discharge temperature. The rotational speed (r) of the outdoor blower is changed in accordance with the compressor discharge temperature (Td) detected by the compressor discharge temperature detecting means, the operating current (I), and the outdoor temperature (Tout). The control device for an air conditioner according to claim 2, wherein

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of the present invention will be described below with reference to FIG. FIG. 1 shows an air conditioner for cooling and heating. The air conditioner generally includes an indoor unit 1 arranged in a space to be air-conditioned and an outdoor unit 2 arranged outdoors.
And a circulation path 3 for the heat medium.

The indoor unit 1 includes a second condenser 13, an evaporator 4,
It has a reheat dehumidifier throttle 14 and a reheat dehumidifier two-way valve 15.

The outdoor unit 2 includes a first condenser 16, an outdoor unit blower 6 whose air volume can be adjusted, a compressor 7 for compressing a heat medium, a throttle 8, an outdoor temperature detector 9 for detecting an outdoor temperature, and a discharge temperature of the compressor. Temperature detector 17, a four-way valve 10 for switching the flow of the heat medium between the cooling operation and the heating operation, an operation current detector 11 for detecting an operation current, and an outdoor unit capable of controlling the air volume of an outdoor unit blower. The control unit 12 includes a blower control device 18.

FIG. 2 is a block diagram showing a control circuit of the air conditioner according to the embodiment of the present invention. In this control circuit, the main control unit 12 transmits the operating current (I) information detected by the current detection unit to the central control unit 19, and the central control unit 19 stores the information and the table storage unit 21 in advance. The configuration is such that the number of rotations (r) of the outdoor blower 6 is changed by the outdoor blower controller 18 based on the information on the number of rotations of the outdoor blower (r).

FIG. 3 is a block diagram showing a control circuit of the air conditioner according to the embodiment of the present invention. In this control circuit, the main body controller 12 transmits the outdoor air temperature (Tout) detected by the outdoor temperature detector 9 and the operating current (I) information detected by the current detector 11 to the central controller 19, The control unit 19 changes the rotation speed (r) of the outdoor blower 6 to the outdoor blower control unit 18 based on the information and the information of the outdoor fan rotation speed (r) stored in the table storage unit 21 in advance. Is configured.

FIG. 4 is a block diagram showing a control circuit of the air conditioner according to the embodiment of the present invention. In the control circuit, the main body controller 12 controls the outdoor temperature (Tout) detected by the outdoor temperature detector 9, the compressor discharge temperature (Td) detected by the discharge temperature detector 17, and the current detector 11. Information on the detected operating current (I) is transmitted to the central control unit 19, and the central control unit 19 based on the information and the information on the outdoor fan rotation speed (r) stored in the table storage unit 21 in advance. The outdoor blower control unit 18 is configured to change the rotation speed (r) of the outdoor blower 6.

Referring to the flowchart of FIG. 5, a procedure in which the central control unit 19 controls the outdoor fan rotation speed (r) at the start of operation based on the input information and the information stored in the table storage unit 21. Will be described.

When the air conditioner is operated, an operation start signal is transmitted to the central control unit 19 (step S1). When detecting the input of the operation start signal, the central control unit 19 drives the compressor 7, the outdoor blower 6, the two-way valve 15 for reheating and dehumidification, the four-way valve 10, and the like via an operation control unit (not shown) to perform the air conditioning operation. Start. Then, in step S2, the central control unit 19 does not proceed to step S3 until the reheat dehumidification mode is detected,
Continue air-conditioning operation.

When the reheat dehumidification mode is detected in step S2, a reheat dehumidification mode signal is transmitted to the central control unit 19 in the same manner as the operation start signal. The operating current (I) is detected by the unit 11. (Step S7) In step S8, the central control unit 1
9 compares the information of the predetermined reference current which has been previously stored in the operating current (I) to the table storage unit 21 detected in step S7 (Is _1), if the reference current (Is ₁₎ or the process proceeds to step S9, if the reference current (is ₁₎ or less returns to step S7 (step S8).

In step S9, the central control unit 19 stores the operating current (I) detected in step S7 in a predetermined reference current (I) stored in the table storage unit 21 in advance.
Compared with the information of s ₂ ), if it is equal to or more than the reference current (Is ₂ ), a signal for changing the outdoor fan rotation speed to 690 rpm is transmitted, and if it is equal to or less than the reference current (Is ₂ ), a signal for changing to 250 rpm is transmitted. I do.

Referring to the flowchart of FIG. 6, a procedure in which the central control unit 19 controls the outdoor fan rotation speed (r) based on the input information and the information stored in the table storage unit 21 at the start of operation. Will be described.

When the air conditioner is operated, an operation start signal is transmitted to the central control unit 19 (step S1). When detecting the input of the operation start signal, the central control unit 19 drives the compressor 7, the outdoor blower 6, the two-way valve 15 for reheating and dehumidification, the four-way valve 10, and the like via an operation control unit (not shown) to perform the air conditioning operation. Start. Then, in step S2, the central control unit 19 does not proceed to step S3 until the reheat dehumidification mode is detected,
Continue air-conditioning operation.

In step S2, when the reheat dehumidification mode is detected, a reheat dehumidification mode signal is transmitted to the central control unit 19 in the same manner as the operation start signal. Outdoor temperature (Tout) by detector 9
Is detected (step S3).

In step S4, the central control unit 19 compares the outdoor temperature (Tout) detected in step S3 with information of a predetermined reference outdoor temperature (Ts) stored in the table storage unit 21 in advance. If the temperature is equal to or higher than the reference outdoor temperature (Ts), the process proceeds to step S7, and the operating current (I) is detected by the current detecting unit 11 (step S7). If the temperature is equal to or lower than the reference outdoor temperature (Ts), the process returns to step S3.

In step S8, the central control unit 19 stores the operating current (I) detected in step S7 into a predetermined reference current (I) stored in the table storage unit 21 in advance.
Compared with the information of s _1), if the reference current (Is ₁₎ or the process proceeds to step S9, if the reference current (Is ₁₎ or less returns to step S3.

In step S9, the central control section 19 stores the operating current (I) detected in step S7 in a predetermined reference current (I) stored in the table storage section 21 in advance.
Compared with the information of s ₂ ), if it is equal to or more than the reference current (Is ₂ ), a signal for changing the outdoor fan rotation speed to 690 rpm is transmitted, and if it is equal to or less than the reference current (Is ₂ ), a signal for changing to 250 rpm is transmitted. I do.

Referring to the flowchart of FIG. 7, a procedure in which the central control unit 19 controls the outdoor fan rotation speed (r) based on the input information and the information stored in the table storage unit 21 at the start of the operation. Will be described.

When the air conditioner is operated, an operation start signal is transmitted to the central control unit 19 (step S1). When detecting the input of the operation start signal, the central control unit 19 drives the compressor 7, the outdoor blower 6, the two-way valve 15 for reheating and dehumidification, the four-way valve 10, and the like via an operation control unit (not shown) to perform the air conditioning operation. Start. Then, in step S2, the central control unit 19 does not proceed to step S3 until the reheat dehumidification mode is detected,
Continue air-conditioning operation.

In step S2, when the reheat dehumidification mode is detected, a reheat dehumidification mode signal is transmitted to the central control unit 19 in the same manner as the operation start signal. Outdoor temperature (Tout) by detector 9
Is detected (step S3).

In step S4, the central control unit 19 compares the outdoor temperature (Tout) detected in step S3 with information of a predetermined reference outdoor temperature (Ts) stored in the table storage unit 21 in advance. If the temperature is equal to or higher than the reference outdoor temperature (Ts), the process proceeds to step S5, and the discharge temperature detector 17 detects the discharge temperature (Td) (step S5). If the temperature is equal to or lower than the reference outdoor temperature (Ts), the process returns to step S3.

In step S6, the central control unit 19 compares the discharge temperature (Td) detected in step S5 with information of a predetermined reference discharge temperature (Td ₁ ) stored in the table storage unit 21 in advance. If it is equal to or higher than the reference discharge temperature (Td ₁ ), the process proceeds to step S7, where the operating current detector 11 detects the operating current (I) (step S7). If the temperature is equal to or lower than the reference discharge temperature (Td ₁ ), the process returns to step S3.

In step S8, the central control unit 19 stores the operating current (I) detected in step S7 in a predetermined reference current (I) stored in the table storage unit 21 in advance.
Compared with the information of s _1), if the reference current (Is ₁₎ or the process proceeds to step S9, if the reference current (Is ₁₎ or less returns to step S3.

In step S9, the central control unit 19 stores the operating current (I) detected in step S7 in a predetermined reference current (I) stored in the table storage unit 21 in advance.
Compared with the information of s ₂ ), if it is equal to or more than the reference current (Is ₂ ), a signal for changing the outdoor fan rotation speed to 690 rpm is transmitted, and if it is equal to or less than the reference current (Is ₂ ), a signal for changing to 250 rpm is transmitted. I do.

[0032]

As is apparent from the above embodiment, in the first aspect of the present invention, the air conditioner detects the operating current (I) at the time of reheat dehumidification, and this operating current (I) is detected. In response to I), the electrical component can be protected by changing the outdoor unit blower rotation speed (r) to prevent the temperature of the electrical component from increasing.

In the invention according to the second aspect, the outdoor temperature (Tout) is detected as well as the operating current (I), and this is used as a criterion for selecting the operation content. The operation content can be determined.

Further, the invention according to claim 3 detects the compressor discharge temperature (Td) as well as the operation current (I) and the outdoor temperature (Tout), and uses this to determine the operation content. Since the reference is used as a reference, more appropriate operation contents can be determined.

[Brief description of the drawings]

FIG. 1 is a refrigeration cycle diagram of an air conditioner according to an embodiment of the present invention.

FIG. 2 is a block diagram showing the control circuit.

FIG. 3 is a block diagram showing the control circuit.

FIG. 4 is a block diagram showing the control circuit.

FIG. 5 is a flowchart showing a control method of the air conditioner.

FIG. 6 is a flowchart showing a control method of the air conditioner.

FIG. 7 is a flowchart showing a control method of the air conditioner.

FIG. 8 is a refrigeration cycle diagram of a conventional air conditioner.

FIG. 9 is a block diagram showing the control circuit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Indoor unit 2 Outdoor unit 3 Circulation path 4 Evaporator 5 Condenser 6 Outdoor blower 7 Compressor 8 Restrictor 9 Outdoor temperature detector 10 Four-way valve 11 Operating current detector 12 Control part 13 Second condenser 14 Reheat dehumidification restrictor 15 Two-way valve for reheat and dehumidification 16 First condenser 17 Discharge temperature detector 18 Outdoor blower control device 19 Central control unit 20 Compressor control unit 21 Table storage unit

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Teruo Fujisha 1006 Kazuma Kadoma, Kadoma-shi, Osaka Matsushita Electric Industrial Co., Ltd. F-term (reference) 3L060 AA03 AA08 CC01 CC03 CC09 CC10 DD02 EE06

Claims (3)

[Claims] 1. An air conditioner having a reheat dehumidifier circuit comprising a compressor, a first condenser, a second condenser, a throttle mechanism, a two-way valve, and an evaporator. A control device for an air conditioner, comprising: operating current detecting means for detecting, and changing the rotation speed (r) of the outdoor blower in accordance with the operating current (I) detected by the operating current detecting means. . 2. An outdoor temperature detecting means for detecting an outdoor temperature, wherein an outdoor temperature (T) detected by the outdoor temperature detecting means is provided.
2. The control device for an air conditioner according to claim 1, wherein a rotation speed (r) of the outdoor blower is changed according to the operating current (I) and the operating current (I). 3. 3. A compressor discharge temperature detecting means for detecting a compressor discharge temperature, wherein the compressor discharge temperature (Td) detected by the compressor discharge temperature detecting means and the operating current (I).
The rotation speed (r) of the outdoor blower is changed corresponding to the outdoor temperature (Tout).
The control device for an air conditioner as described in the above.