KR100719851B1 - Unitary air-conditioner - Google Patents

Abstract

The present invention provides a thermostat for generating a driving signal, an outdoor unit driven according to a driving signal of the thermostat, an indoor unit for driving an indoor fan according to a driving signal of the thermostat, and the indoor fan driven at a rated air volume. After that, it is configured to include an indoor fan control unit to increase the amount of air, energy efficiency is good because the indoor fan is driven by the air flow rate greater than the rated air flow rate after the indoor fan is driven by the indoor fan control unit It provides a unitary air conditioner that can realize ultra-low power operation.

Unit air conditioner, thermostat, variable capacity outdoor unit, indoor unit, indoor fan, indoor fan control unit, 2-speed kit, relay switch

Description

Unitary air conditioner

1 is a control circuit block diagram of a one-stage unitary air conditioner according to the prior art;

2 is a control circuit block diagram of a one-stage unitary air conditioner according to the prior art;

3 is a control circuit blow diagram of a two-stage unitary air conditioner according to the prior art;

4 is a control circuit blow diagram of a unitary air conditioner according to a first embodiment of the present invention;

5 is a control circuit blow diagram of a unitary air conditioner according to a second embodiment of the present invention;

6 is a control circuit blow diagram of a unitary air conditioner according to a third embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

50: thermostat 60: outdoor unit

62: outdoor unit control unit 63: signal input unit

64: operation state determination control unit 65: signal output unit

70: indoor unit 72: indoor unit control unit

74: indoor fan motor 80: indoor fan control unit

The present invention relates to a unitary air conditioner mainly used in North America, and in particular, when the indoor fan is continuously driven for a predetermined time at a rated air flow, an ultra low power operation that can maximize energy efficiency by increasing the air volume of the indoor fan can be realized. To a unitary air conditioner.

FIG. 1 is a block diagram of a conventional one-stage unitary air conditioner, and FIG. 2 is a control circuit block diagram of a conventional one-stage unitary air conditioner.

When the unitary air conditioner as shown in FIGS. 1 and 2 receives a driving (Y) or a stop signal from the 1-stage Thermostat 2 installed indoors, the 1-stage outdoor unit 4 installed outdoors and Allow the one-stage indoor unit 6 installed indoors to run or stop.

This one-stage unitary air conditioner is an air conditioning system used in most homes in North America, such as the United States, according to the operation (Y) / stop signal of the one-stage thermostat (2) the one-stage outdoor unit ( 4) and the one-stage indoor unit 6 are turned ON or OFF with a single operating capacity.

3 is a control circuit block diagram of a conventional two-stage unitary air conditioner, which shows a main circuit terminal connection state.

The two-stage unitary air conditioner as shown in FIG. 3 is provided with a two-stage thermostat 10 for generating a strong (Y1) or weak (Y2) operating stage signal, and the two-stage thermostat (10). The two-stage outdoor unit 12 and the two-stage indoor unit 14 are subjected to the strong operation while changing the operation capacity according to the strong Y1 or weak Y2 driving signal.

However, the unitary air conditioner according to the prior art as described above has a problem that cannot be applied by connecting products of different stages because only indoor and outdoor units of which the stage is fitted with each other are interoperable with each other.

That is, as described above, the one-stage unitary air conditioner is operated by connecting only the one-stage outdoor unit 4 and the one-stage indoor unit 6 to the one-stage thermostat 2, and the two-stage unit The battery air conditioner can operate by connecting only the two-stage outdoor unit 12 and the two-stage indoor unit 14 to the two-stage thermostat 10, and thus there is a limit to the expansion application of the product.

In addition, the unitary air conditioner generally has a problem of low energy efficiency because the indoor fan of the indoor unit is driven only at a rated air flow considering temperature, humidity, and the like.

The present invention has been made to solve the above-mentioned problems of the prior art, by providing a unitary air conditioner that can be used in conjunction with different stage components by configuring to operate even if the operating stage of the indoor unit and the outdoor unit does not match each other. Its purpose is to.

In addition, the present invention by installing an indoor fan control unit so that the indoor fan of the indoor unit is driven in conjunction with the operating state of the variable capacity outdoor unit, such as a two-stage, the indoor unit can be operated in a plurality of stages without replacing the indoor unit The purpose is to provide a unit air conditioner.

In addition, an object of the present invention is to provide a unitary air conditioner that can maximize energy efficiency by installing an indoor fan control unit so that the air volume is increased after the indoor fan of the indoor unit is driven at the rated air volume.

Unitary air conditioner according to the present invention for solving the above problems and the thermostat for generating a driving signal; An outdoor unit driven according to a driving signal of the thermostat; An indoor unit in which an indoor fan is driven according to a driving signal of the thermostat; After the indoor fan is driven at the rated air flow rate, it characterized in that it comprises an indoor fan control unit for increasing the air flow rate.

The thermostat is characterized by generating a single or multiple driving signals.

The outdoor unit may be a variable capacity outdoor unit in which a driving stage of a compressor and an outdoor fan is variable according to a driving state of the outdoor unit.

The indoor unit may be operated in a single or multiple driving stages.

The indoor fan control unit is characterized in that when the indoor fan is continuously driven for a time set to the rated air flow rate, the air volume of the indoor fan is increased.

The indoor fan is driven in two or more stages, and the indoor fan control unit is characterized in that, after the indoor fan is driven at the rated air volume of a predetermined stage, the air volume of the indoor fan is increased to the rated air volume of the upper stage. .

The indoor fan control unit is characterized in that the air flow rate of the indoor fan is maintained at the rated air flow rate when the rated air flow rate of the indoor fan is the maximum air flow rate.

The indoor fan control unit is characterized in that when the operating state of the outdoor unit is changed, the indoor fan is driven at the rated air flow rate set according to the changed operating state of the outdoor unit.

The indoor fan control unit is characterized in that configured as a relay switch.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a control circuit blow diagram of a unitary air conditioner according to a first embodiment of the present invention.

The unitary air conditioner according to the first embodiment of the present invention includes a thermostat (50) installed indoors, an outdoor unit (60) operated according to a driving signal of the thermostat (50), and the thermostat (50). The indoor fan 70 is driven according to the driving signal, and the indoor fan control unit 80 controls the indoor fan.

The thermostat 50 may be configured as a one-stage for generating a single driving signal or a two-stage for generating a plurality of driving signals, limited to the one-stage thermostat 50 for convenience of description below. In addition, the reference numeral of the one-stage thermostat 50 is displayed in synchronization with the reference numeral of the thermostat 50.

The one-stage thermostat 50 as described above is configured to generate only a single operating signal Y of the unitary air conditioner. That is, the one-stage thermostat 50 is operated only in the ON / OFF mode.

The outdoor unit 60 is ON / OFF operation according to the signal of the one-stage thermostat 50, the operation of the compressor and the outdoor fan in accordance with its own operation state by the determination of its outdoor unit control unit 62 during operation The driving stage is automatically controlled, so that the capacity of the outdoor unit 60 is provided with a variable capacity.

Hereinafter, the variable-capacity outdoor unit 60 can operate a plurality of stages, such as a two-stage strong, weakly operated or a three-stage strong, medium, or weakly operated, and for the convenience of description, the capacity is 40% or 60%. In addition to being limited to a driving operation stage or a strong driving stage whose capacity is 100%, the reference numerals of the variable capacity outdoor units 60 are displayed in synchronization with the reference numerals of the outdoor units 60.

The outdoor unit control unit 62 includes a signal input unit 63 for receiving a driving signal of the one-stage thermostat 50, a signal of the signal input unit 63, and its own operating state, that is, the compressor or the outdoor fan. The driving state determination control unit 64 to recognize the driving state of the variable to either the strong or weak operation stage and outputs a signal to the indoor fan control unit 80 according to the signal of the driving state determination control unit 64 It consists of a signal output section 65.

Here, the operation state determination control unit 64 stores and recognizes the previous operation state or the current operation state of the compressor or the outdoor fan, and the capacity according to its control algorithm according to the operation state already stored or recognized at the next operation. It is configured to determine and control the operation stage of the variable outdoor unit (60).

That is, the driving state determination control unit 64 is an example of variable control. When the compressor is operated for about a predetermined time in the weak operation state, the driving state determination control unit 64 changes to the strong driving state or, if the previous operation is the strong driving state, the one-stage thermostat ( Irrespective of the signal of 50), the start operation is controlled to the strong operation state.

Of course, the compressor provided in the variable-capacity outdoor unit 60 is an inverter type of variable-capacity type, or is composed of a plurality of constant speed compressors with constant capacity, and the like. It is preferable that it is comprised so that operation by a stage is possible.

The indoor unit 70 may also be configured to be operated as well as two-stage as well as one-stage. For the convenience of the following description, the indoor unit 70 is limited to the one-stage indoor unit 70 and the one-stage indoor unit 70. Denotes synchronously with reference numerals of the indoor unit (70).

 The indoor fan provided in the one-stage indoor unit 70 may be configured to be driven by two or more stages such as strong, weak wind, or strong, heavy, weak wind by the indoor fan motor 74. According to the strong and weak driving stage of the variable outdoor unit 60, it is limited to being composed of two stages driven only by strong and weak wind.

The indoor fan is set in advance to the rated air flow rate of each stage of the indoor fan so that the indoor temperature, humidity and the like can be harmonized optimally according to the strong and weak operation stage of the variable capacity outdoor unit 60. For example, the indoor fan has a rated wind amount of 400 Cfm per 1RT when the wind is weak, and a rated wind amount of 600 Cfm per 1RT during the strong wind.

The one-stage indoor unit 70 as described above is provided with an indoor unit control unit 72.

The indoor unit control unit 72 receives a signal from the one-stage thermostat 50, outputs a control signal to the indoor fan motor 74, and transmits a signal to the outdoor unit control unit 62.

The indoor fan control unit 80 is a two-speed kit (2-speed kit) is provided with a relay switch to adjust the strength, weak air of the indoor fan by controlling the strength, weakness of the indoor fan motor 74 It can be configured as.

In this case, the relay switch selectively serves to switch between a strong driving circuit or a weak driving circuit among the driving circuits of the indoor fan motor 74.

This indoor fan control unit 80 is configured separately from the indoor unit control unit 72, the indoor stage when the one-stage indoor unit 70 is used in conjunction with other products, such as the variable capacity outdoor unit 60, the indoor It is preferably made to be connected to the drive circuit of the fan motor 74 to be used.

In the indoor fan control unit 80 as described above, after the indoor fan is driven at a predetermined rated air volume preset according to the operation stage of the outdoor unit 60, the indoor fan control unit 80 performs energy under the condition that the operation stage of the outdoor unit 60 is not changed. In order to improve efficiency, the air volume of the indoor fan is increased.

At this time, the indoor fan control unit 80 increases the air volume of the indoor fan according to the indoor temperature, humidity, desired temperature, continuous driving time of the indoor fan, etc. under a condition that the operation stage of the outdoor unit 60 is constant. If the indoor fan is continuously driven at a rated air flow of a predetermined stage for a predetermined time (for example, about 30 minutes), the air flow of the indoor fan is limited to increase.

In addition, the indoor fan control unit 80 is driven by only two stages of the rated air volume of the indoor fan strong, weak wind, when the rated air volume of the indoor fan under the constant conditions of the outdoor unit 60 is weak wind After the indoor fan is driven by the mild wind, it is preferable to drive the strong wind which is the rated air volume of the upper stage.

In addition, the indoor fan control unit 80, the rated air flow of the indoor fan is driven only by two stages of strong and weak wind, the rated air flow of the indoor fan under the condition that the operating stage of the outdoor unit 60 is the indoor fan In the strong wind, which is the highest wind volume of, it is preferable to maintain the rated wind volume of the indoor fan as the strong wind even if the indoor fan is continuously driven for a predetermined time.

On the other hand, the indoor fan control unit 80 is driven regardless of the air flow rate of the indoor fan, if the operating stage of the outdoor unit 60 is changed, the indoor fan is driven at the rated air flow rate corresponding to the changed operation stage of the outdoor unit 60 Do it again.

Looking at the operation of the unitary air conditioner according to the present invention configured as described above are as follows.

When the driving signal is generated in the one-stage thermostat 50, the variable-capacity outdoor unit 60 and the one-stage indoor unit 70 are driven.

At this time, if the variable-capacity outdoor unit 60 is driven to the weak driving stage according to the judgment of the outdoor unit control unit 62, the indoor fan control unit 80 weakly drives the drive circuit of the indoor fan motor 74. By connecting the circuit to the indoor fan motor 74 is driven by a weak, the indoor fan is driven by the mild wind.

As described above, when the indoor fan is continuously driven to the weak driving stage for a predetermined time or more while the variable-capacity outdoor unit 60 is continuously operated at the weak driving stage, the indoor fan control unit 80 is the indoor fan motor 74. The indoor fan motor 74 is driven by the strong wind by connecting the driving circuit of the indoor fan motor 74 to the strong wind.

Then, under the condition that the operation stage of the variable capacity outdoor unit 60, that is, the operation capacity is constant, the evaporation temperature is increased by relatively increasing the air volume of the indoor fan, and the power consumption of the compressor of the variable capacity outdoor unit 60 is reduced. Energy efficiency is improved.

The following [Table 1] shows that when the operating stage of the variable capacity outdoor unit 60 of the heat pump unitary air conditioner is operated under the same conditions, and the indoor fan is driven at the rated air flow, LEV172 10CMM 'and' LEV174 13CMM 'of the sample specification in [Table 1] is compared when the indoor fan is driven with a larger air flow than the rated air flow.

Table 1

참고로 [표1]에서, 'Temp.ID'는 'Temperature Indoor'의 약자로서 실내 온도이고, 'Temp.OD'는 'Temperature Outdoor'의 약자로서 실외 온도이고, '전체 소전'는 '전체 소비 전력'의 약자이고, 'COP'는 'Coefficient Of Performance'의 약자로서 성적계수이고, 'Comp'는 'Compressor'의 약자로서 'Comp + 회로'는 압축기와 회로이고, 'IDU'는 'InDoor Unit'의 약자로서 실내기이고, 'ODU'는 'OutDoor Unit'의 약자로서 실외기이다.

For reference, in Table 1, 'Temp.ID' is an abbreviation of 'Temperature Indoor', the indoor temperature, 'Temp.OD' is an abbreviation of 'Temperature Outdoor', and outdoor temperature, 'COP' is an abbreviation of 'Coefficient Of Performance', 'Comp' is an abbreviation of 'Compressor', 'Comp + Circuit' is Compressor and Circuit, and 'IDU' is 'InDoor Unit' It is an indoor unit as an abbreviation of ', and' ODU 'is an outdoor unit as an abbreviation of' OutDoor Unit '.

As shown in [Table 1], due to the increase in the air volume of the indoor fan, the power consumption of the compressor is larger than that of the increase of the indoor fan, and as a result, the total power consumption is reduced and the COP is increased. .

On the other hand, when the variable-capacity outdoor unit 60 is driven from the weak driving stage to the strong driving stage according to the judgment of the outdoor unit control unit 62, the indoor fan control unit 80 changes the rated air volume of the indoor fan to strong wind. The indoor fan is driven by a strong wind.

At this time, when the rated air flow rate of the indoor fan is a strong wind, the indoor fan control unit 80 does not increase the air flow rate of the indoor fan even if the indoor fan is continuously driven for a predetermined time by a strong wind, and the air flow rate of the indoor fan is increased. It is maintained by the strong wind which is the rated wind volume.

Next, the unitary air conditioner according to the second embodiment of the present invention will be described in detail with reference to FIG. 5. Hereinafter, in describing the unitary air conditioner according to the second embodiment of the present invention, the same structure as that of the first embodiment of the present invention may be omitted in order to avoid redundant description, and thus, the first embodiment of the present invention may be omitted. Please note.

5 is a control circuit blow diagram of a unitary air conditioner according to a second embodiment of the present invention.

Uniter air conditioner according to the second embodiment of the present invention is a two-stage thermostat 100 for generating a strong, weak driving signal and a strong, weak driving signal of the two-stage thermostat 100 A weakly variable capacity outdoor unit 110, a one-stage indoor unit 120 in which an indoor fan is driven according to the strong and weak driving signal of the two-stage thermostat 100, and a room controlling the indoor fan It is configured to include a fan control unit 130.

The rated air volume of the indoor fan applied to the one-stage indoor unit 120 is set to strong wind and weak wind.

 In the unitary air conditioner according to the second embodiment of the present invention, when the two-stage thermostat 100 generates a weak driving signal, the variable capacity outdoor unit 110 is weakly operated, and the indoor fan control unit The indoor fan is driven by the mild wind by the 130 controlling the rated air volume of the indoor fan with the mild wind.

Under the condition that the two-stage thermostat 100 continuously generates the weak driving signal or the variable-capacity outdoor unit 110 continues to operate in the weak driving, when the indoor fan is continuously driven for a predetermined time with the low wind, which is the rated air volume, The indoor fan is driven by the strong wind by controlling the indoor fan control unit 130 to the strong wind with the air volume of the indoor fan.

On the other hand, when the two-stage thermostat 100 generates a strong driving signal, the variable capacity outdoor unit 110 is driven strongly, the indoor fan control unit 130 controls the rated air flow of the indoor fan to a strong wind As a result, the indoor fan is driven by a strong wind. Of course, under the condition that the two-stage thermostat 100 continuously generates the strong driving signal or the variable-capacity outdoor unit 110 continues to operate in the strong driving, the indoor fan control unit 130 may be configured to control the indoor fan. The air flow is kept at a strong wind which is the rated air flow.

On the other hand, the unitary air conditioner according to the present invention is not limited to the first and second embodiments of the present invention described above, as well as a three-stage or more thermostat, of course, can be applied to a two-stage or more indoor unit.

On the other hand, Figure 6 is a block diagram of a unitary air conditioner according to a third embodiment of the present invention, the unitary air conditioner according to a third embodiment of the present invention, at least one or more in the outdoor unit 150 Even in the multi-type in which the indoor unit 160 is connected, the indoor fan control unit made of a 2-speed kit may be installed in each indoor unit 160. The thermostat 170 may be provided to correspond one-to-one with each indoor unit 160 so that each indoor unit 160 may be operated separately.

The unitary air conditioner according to the present invention configured as described above is configured to operate in conjunction with the variable-stage outdoor unit or the two-stage thermostat with the one-stage indoor unit in conjunction with the product of the other stage. At the same time, since the indoor fan control unit enables variable control of the indoor fan, there is an advantage of implementing a more efficient system.

In addition, since the indoor fan control unit is configured to enable variable control of the indoor fan, the indoor fan is driven at a rated air flow rate under constant conditions of the driving signal of the thermostat or the operating stage of the variable capacity outdoor unit. Afterwards, by driving the air flow rate larger than the rated air flow rate, the evaporation temperature is increased and the power consumption of the compressor is reduced, thereby achieving an energy-efficient ultra-low power operation.

Claims (9)

A thermostat for generating a driving signal; An outdoor unit driven according to a driving signal of the thermostat; An indoor unit in which an indoor fan is driven according to a driving signal of the thermostat; A unitary air conditioner including an indoor fan control unit configured to increase the amount of air after the indoor fan is driven at the rated air flow when the rated air flow of the indoor fan is less than the maximum air flow rate of the indoor fan . The method of claim 1, The thermostat is a unitary air conditioner, characterized in that for generating a single or multiple driving signals. The method of claim 1, The outdoor unit is a unitary air conditioner, characterized in that the variable capacity outdoor unit of the operation stage of the compressor and the outdoor fan is variable. The method of claim 1, And the indoor unit is operated in a single or a plurality of operation stages. The method according to any one of claims 1 to 4, And the indoor fan control unit is configured to increase the air volume of the indoor fan when the indoor fan is continuously driven for a time set to the rated air flow rate. The method according to any one of claims 1 to 4, The indoor fan is driven in two or more stages, And the indoor fan control unit is configured to increase the air volume of the indoor fan to the rated air flow of the upper stage after the indoor fan is driven at the rated air flow of a predetermined stage. The method according to any one of claims 1 to 4, And the indoor fan control unit is configured to maintain the air flow of the indoor fan at the rated air flow rate when the rated air flow of the indoor fan is the maximum air flow rate of the indoor fan. The method according to any one of claims 1 to 4, And the indoor fan control unit causes the indoor fan to be driven at a rated air flow amount set according to the changed operating state of the outdoor unit when the operating state of the outdoor unit is changed. The method according to any one of claims 1 to 4. The indoor fan control unit is a unitary air conditioner, characterized in that consisting of a relay switch.

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