ES2238118B2 - AIR CONDITIONER AND CONTROL METHOD FOR THE SAME. - Google Patents

Abstract

Air conditioner and control method for it. An air conditioner includes: an indoor unit; an outdoor unit, which has a first compressor with a variable compression rate, and a second compressor with a constant compression rate; and a control unit to operate the first compressor if the load of the indoor unit is below or equal to 50- {%} of a maximum load of the indoor unit, to operate the second compressor if the load of the indoor unit is in the range of 50- {al}% to 50+ {al}% of the maximum load of the indoor unit, and to operate the first and second compressors if the indoor unit load is per above 50+ {al}% of the maximum load of the indoor unit, assuming that the {al} is greater than 0 but less than 50.

Description

Air conditioner and control method for the same.

Fundamentals of the invention 1. Field of the invention

The present invention relates to a air conditioner and, more particularly, to a conditioner of air and a control method for it.

2. Description of the conditioner gender

In general, an air conditioner is placed in a room, a living room or an office, or in a business warehouse to maintain a comfortable indoor environment by controlling the temperature, humidity, and cleanliness of the air in the room.
tion.

According to its construction, the conditioner  air is classified as an integrated type air conditioner, in which the parts that form a refrigeration cycle are accommodate in a single box, and type air conditioner separately, in which said pieces are arranged separately in a indoor unit, arranged in a room, and a unit of exterior arranged outside the room.

The separate type air conditioner includes a multi type air conditioner rooms, which has a plurality of indoor units for refrigerate or heat a plurality of interior spaces.

Figure 1 is a schematic diagram, which shows the construction of a conventional air conditioner multiple type, and Figure 2 is a graph of a method of operation for a compressor, according to the load of a multiple type air conditioner.

As shown in Figure 1, a conventional multi-type air conditioner includes a plurality of indoor units 10, arranged in the respective rooms, having respectively 11a-11c indoor heat exchangers, which perform a cooling operation or an operation of heating, and an outdoor unit 20 arranged outside the rooms.

The outdoor unit 20 includes a housing (no shown) with a receiver space inside; a compressor 21 inverter with a variable compression speed; and a compressor 23 of the constant speed type with a compression speed constant, which have been arranged inside the housing; a outdoor heat exchanger 27 to dissipate heat from a compressed refrigerant; and a fan 29 arranged at the side of the outdoor heat exchanger 27 to cool the outdoor heat exchanger to accelerate the dissipation of coolant heat.

According to a refrigerant flow direction in the refrigeration, an electronic main expansion valve 12 is connected to the outdoor heat exchanger 27, and electronic expansion valves 13a-13c are connected to the main electronic expansion valve 12 for decompress and expand the refrigerant before the refrigerant is introduced into the respective indoor heat exchangers 11a-11c. Temperature sensors 15a-15c, respectively, are provided at one outlet of each outdoor heat exchanger 11a-11c to accelerate heat dissipation of the
refrigerant.

The constant speed type 23 compressor and the inverter compressor 21 respectively have capacities of compression corresponding to half (50%) of the sum S_ {L} of all the maximum loads L_ {m} of the indoor units 10. The respective discharge sides of the speed compressor 23 constant and inverter compressor 21 join together before of the outdoor exchanger, and a sensor 25 of temperature in the common part to detect the temperature of the refrigerant discharged after being compressed in the respective compressors 21 and 23.

With such construction, if the load L of the indoor units 10 in operation is less than or equal to the half (50%) of the sum S_ {L} of the maximum loads L_ {m}, is that is, L / S_ {L} <0.5, a control unit (not shown) drives the inverter compressor 21 to provide the refrigerant to the respective indoor units 10, in terms of concordance with the load L.

If the load L of the indoor units 10 in operation exceeds half (50%) of S_ {L}, that is, L / S_ {L}> 0.5, the compressor 23 of the constant speed type it is driven and the inverter compressor 21 is also driven in correspondence with the excess load to provide the refrigerant to the respective indoor units 10.

In relation to figure 2, the conditioner of 'conventional multi-type air, however, has the next problem.

That is, since the inverter compressor 21 is operated if the load of indoor units 10 in operation is half of the sum S_ {L} of all charges maximum of indoor units 10 while the compressor 23 constant speed type and inverter compressor 23 are operated together if the load of the indoor units 10 in operation exceeds half of the sum of all charges maximum of 10 indoor units complete, lengthens relatively the operating time of the compressor 21 inverter, and due to the abrasion and damage resulting from it, the life span of the inverter compressor 21, relatively priced raised, it is shortened compared to compressor 23 of the type of constant velocity.

Summary of the invention

It is, therefore, an object of the present invention. facilitate an air conditioner, and its control method for he, who is able to extend the life of a compressor inverter, reducing the operating period of the compressor inverter with a variable compression speed.

To achieve these and other advantages, and in accordance with the purpose of the present invention, as it is realized and described extensively therein, an air conditioner is provided which includes: an indoor unit; an outdoor unit, which has a first compressor with a variable compression rate, and a control unit to operate the first compressor if the load of the indoor unit is below or equal to 50-?% of a load maximum of the indoor unit, operating the second compressor if the load of the indoor unit is in the range of 50-?% to 50+?% of the maximum load of the indoor unit, and operating the compressors first and second if the load of the indoor unit is above 50+?% of the maximum load of the indoor unit, assuming it is greater than "0"
but less than 50.

To get the objects above, you have also provided a method of controlling a conditioner of air in which, assuming that it is greater than 0 and less than 50, only a first compressor with a compression speed works constant when the load of an indoor unit is below or is equal to 50-?% of a maximum load of the indoor unit, only a second compressor with one constant compression speed if the unit load of inside is in the range of 50-?% a 50+?% Of the maximum load of the indoor unit; Y the first and second compressors work together if the Indoor unit load is above 50+?% of the maximum load of the indoor unit.

The preceding objects and others, the characteristics, aspects and advantages of the present invention more patents will appear from the following description detailed of the present invention, considered in conjunction with the attached drawings.

Brief description of the drawings

The attached drawings, which are included for facilitate a further understanding of the invention and that are incorporated and constitute part of this specification, illustrate embodiments of the invention and serve, together with the description, to explain the principles of the invention.

In the drawings:

Figure 1 is a schematic diagram, showing the construction of a conventional air conditioner, of type multiple;

Figure 2 is a graph, showing a method of operation of a compressor according to the load of the conventional multi-type air conditioner of the figure one;

Figure 3 is a schematic block diagram of an air conditioner according to the present invention;

Figure 4 is a graph, showing a method of operation of a compressor according to the load of a multi-type air conditioner of figure 3; Y

Figure 5 is a flow chart of a method of control of an air conditioner according to the present invention.

Detailed description of preferred embodiments

Next, detailed reference will be made to Preferred embodiments of the present invention, whose examples are Illustrated in the attached drawings.

The same numerical references will be given to same elements as those of the conventional air conditioner, of which detailed descriptions are omitted.

Figure 3 is a schematic block diagram  of an air conditioner according to the present invention; figure 4 It is a graph, which shows an operating method according to the charging a multi-type air conditioner of figure 3; and Figure 5 is a flow chart of a control method of the air conditioner according to the present invention.

An air conditioner of the present invention includes: an indoor unit 10; an outdoor unit 20, which It has an inverter compressor 21 with a compression speed variable and a compressor 23 of the constant speed type with a constant compression speed and a control unit 33 for operate the inverter compressor 21, if the load L of the unit 10 of inside is below or equal to 50-?% of the load S_ {L} of the indoor unit 10, to operate the compressor 23 of the constant speed type, if the load of the indoor unit 10 is in the range of 50-?% At 50+?% Of the maximum load of the  indoor unit 10, and to operate the inverter compressor 21 and the compressor 23 of the constant speed type, if the load of the indoor unit 10 is above 50+?% of the load maximum of indoor unit 10.

The indoor unit can have one or more indoor subunits (not shown), in the corresponding rooms, respectively, in which case the unit load L 10 indoor is the sum of the charges of all subunits of inside and the S_ {L} is the sum of the maximum loads L_ {m} of the respective indoor subunits.

As shown in Figure 3, the air conditioner of the present invention further includes a unit 31 for calculating the amount of charge to calculate a charging of indoor unit 10 in operation, and unit 33 of control controls the compressor 23 of the constant speed type and the inverter compressor 21 based on the load calculated by the unit 31 calculation of the amount of cargo.

The inverter compressor 21 has a capacity of compression corresponding to a value obtained by subtracting α% of half (50%) of a maximum load of the indoor unit 10, (50_?)%, And the compressor 23 of the constant speed type has a compression capacity corresponding to a value obtained by adding α% to half (50%) of the sum of the charge maximum of indoor unit 10, (50+?)%.

The α can be properly fixed in a interval greater than 0 and less than 50, that is, 0 <\ alpha <50 considering a load according to a mode of operation and a User sample of indoor unit 10. Habitually, α is set between 5% and 10% of the maximum load of unit 10 indoor. For example, if α = 10, the inverter compressor 21 and the compressor 23 of the constant speed type have, respectively, a compression capacity corresponding to 40% and 60% of the maximum load of the indoor unit 10.

With this construction, as shown in 1 Figure 4, the control unit 33 controls the calculation unit 31 of load quantity to check the indoor unit 10 in operation or to be operated (step S10) and calculate a t-value percentage according to the mode of operation of unit 10 of inside to be operated at the maximum load of unit 10 of inside, that is, t = L / S_ {L} x100% (step S20).

In relation to Figure 5, if the calculated t is less than or equal to a 50-? value, t <50- \ alpha (step S30), the control unit controls the single inverter compressor 21 a. be operated (step S40).

If t is greater than 50-? (step S30) but less than or equal to 50+?%, that is, 50-?% <T \ leq50 +?% (Step S50), the control unit controls the compressor 23 of the speed type single constant to be operated (step S60).

While, if t exceeds 50+? (Step S50), the control unit 33 controls the compressor 23 of the type of constant speed and inverter compressor 21 to be driven together to correspond to the load (step S70).

In the embodiment of the present invention described above, the compressor control method has been described taking the case where the inverter compressor is built to have a compression capacity corresponding to the value of (50-?)% Of the maximum load of the unit inside, and the constant speed type compressor is built to have the compression capacity corresponding to value of (50+?)% of the maximum load of the unit inside. But, the compressor control method of a air conditioner of the present invention can be adapted also to a case where the inverter compressor and the compressor of the constant speed type are respectively constructed to have a compression capacity corresponding to half (50%) of the maximum load of the indoor unit, where? is arbitrarily selected without paying attention to the respective  compressor compression capabilities.

As described so far, the air conditioner, and its control method, of the present invention has the advantage that the period of rise of the inverter compressor, of relatively high price, shortening the operating time of the inverter compressor.

As the present invention can be performed in various forms without separating from spirit or characteristics essential, it must also be understood that embodiments described above are not limited by any of the details of the preceding description, unless to be specified otherwise, but to be interpreted more well extensively within your spirit and scope, as it defined in the appended claims, and, therefore, all changes and modifications that go into the objectives and the limitations of the claims, or the equivalences of said objectives and limitations, it is intended, therefore, that they be included in the appended claims.

Claims (8)

1. Air conditioner comprising: a indoor unit; an outdoor unit, which has a first compressor with a variable compression speed and a second compressor with a constant compression speed; and a unit control to operate the first compressor if a load of the indoor unit is below or equal to 50-?% Of a maximum unit load of inside, to operate the second compressor if the unit load indoor is in the range of 50-?% a 50+?% Of the maximum load of the indoor unit, and for operate the first and second compressors if the unit load of inside is above 50+?% of the load, maximum of the indoor unit, assuming that an α value of reference is greater than "0" but less than 50. 2. The air conditioner of the claim 1, wherein the first compressor has a capacity Compression from 0 to 50-? of the maximum load of the indoor unit, and the second compressor has a compression capacity of 0 to 50-?% of the maximum load of the indoor unit. 3. The air conditioner of the claim 1 or 2, wherein the indoor unit comprises a or more subunits. 4. The air conditioner of the claim 1, wherein the load of the indoor unit is measured by a unit of calculation of the amount of load. 5. Control method of a conditioner air, in which, assuming that α is greater than 0 and less than 50, only a first compressor with a speed of variable compression when a load of an indoor unit is below or equal to 50-?% of a load indoor unit maximum, only a second compressor is operated with a constant compression speed if the unit load indoor is in the range of 50-?% a 50+?% Of the maximum load of the indoor unit; and the first and second compressors operate simultaneously if the Indoor unit load is above 50+?% of the maximum load of the indoor unit. 6. The air conditioner of the claim 5, wherein the first compressor has a capacity Compression from 0 to 50-?% of the maximum load of the indoor unit, and the second compressor has a compression capacity of 0 to 50+?% of the maximum load of the indoor unit 7. The air conditioner of the claim 5 or 6, wherein the indoor unit comprises a or more subunits. 8. The air conditioner of the claim 5, wherein the load of the indoor unit is measured by a unit of calculation of the amount of load.