KR20190076350A - Air conditioner and control method of air conditioner - Google Patents

Abstract

The present invention relates to an air conditioner and a control method of the air conditioner, which are able to reflect all of a fixed load in accordance with a place where the air conditioner is installed and a load measured for an indoor temperature or humidity, to control the air conditioner, and to supply the optimal air volume needed for each indoor space. To this end, the control method of the air conditioner comprises: a) a step of setting one or more first loads for each of a plurality of indoor spaces; b) a step of measuring one or more second loads in each of the plurality of indoor spaces; c) a step of calculating an individual load based on the first loads and second loads of each of the plurality of indoor spaces and a total load that adds all the individual loads of the plurality of indoor spaces; and d) a step of operating a first air blower by a first rev count which is set in accordance with the calculated total load to distribute the air supplied from the first air blower in accordance with the ratio of the individual load to the total load to the plurality of indoor spaces.

Description

Technical Field [0001] The present invention relates to an air conditioner and an air conditioner,

The present invention relates to an air conditioner and a control method of the air conditioner, and more particularly, to an air conditioner and an air conditioner control method capable of controlling various load conditions of a plurality of indoor spaces.

Generally, an air conditioner is a device that adjusts room temperature and humidity according to a user's request, or keeps the room pleasant by ventilating the room air. In recent years, various technologies such as dehumidification, humidification, cooling, heating, air purification, ventilation and the like have been added to the air conditioner to develop a technique for keeping indoor air pleasantly according to seasonal changes according to the user's selection.

Korean Unexamined Patent Publication No. 10-1997-0066370 (published on October 13, 1997) is disclosed as such a conventional air conditioner.

The conventional air conditioner has a technique of determining the number of revolutions of each of a plurality of blowers based on the temperature of the indoor heat exchanger, the suction temperature of the indoor unit, the set room temperature, and the data stored in the single blower rotation speed storage means.

In this conventional air conditioner, the number of rotations of the blower is determined based only on the temperature data. Therefore, the amount of air supplied by each of the plurality of blowers depends on the capacity (size) of the indoor space to which the air is supplied, There is a problem that a difference in the amount of air actually required occurs.

The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide an air conditioner and a method for controlling the operation of the air conditioner by reflecting the fixed load according to a place where the air conditioner is installed, And it is an object of the present invention to provide an air conditioner and a control method of the air conditioner that can supply the optimum amount of air necessary for the indoor space.

According to an aspect of the present invention, there is provided a control method for an air conditioner, including: a) setting at least one first load for each of a plurality of indoor spaces; b) measuring at least one second load in each of the plurality of indoor spaces; c) calculating a total load based on the first load and the second load of each of the plurality of indoor spaces and the individual loads of the plurality of indoor spaces; d) operating the first blower at a first rotation speed set in accordance with the calculated total load, and distributing the air supplied from the first blower to the plurality of indoor spaces according to the ratio of the individual loads to the total load .

The first load may include at least one of a capacity load for each capacity of the plurality of indoor spaces and a duct load by a duct connected from the first blower to the plurality of indoor spaces.

The duct load may be set to an amount of air supplied to the plurality of indoor spaces by operating the first blower.

The duct load may be proportional to the length of a duct connected from the first blower to the plurality of indoor spaces.

The second load may include at least one of a temperature load for the temperature of the plurality of indoor spaces and a humidity load for the humidity of the plurality of indoor spaces.

The temperature load is the difference between the current temperature and the set temperature, and the humidity load may be the difference between the current humidity and the set humidity.

A second blower provided for each of the plurality of indoor spaces is driven by a second rotation speed to supply the air supplied from the first blower to the plurality of indoor spaces, And can be set according to the ratio of the individual loads.

The air supplied from the first blower is distributed to the plurality of indoor spaces in the distributor, and the distributor controls the opening amount of the damper so that the air is distributed according to the ratio of the individual loads calculated in the step d) can do.

An air conditioner of the present invention includes: a first blower for supplying air to a plurality of indoor spaces; A first load setting unit for setting at least one first load for each of the plurality of indoor spaces; A load side portion for measuring a second load of each of the plurality of indoor spaces; Wherein said control unit calculates a total load of said plurality of indoor spaces based on said first load and said second load and a total load of said individual loads together, and operates said first blower by a first rotation speed set in accordance with said calculated total load And distributes the air supplied from the first blower to the plurality of indoor spaces according to the ratio of the individual loads to the total load.

Wherein the load side portion comprises at least one of a temperature measurement portion for measuring a current temperature of the plurality of indoor spaces and a humidity measurement portion for measuring a current humidity of the plurality of indoor spaces; The second load may be a difference between a current temperature and a preset temperature measured by the temperature measuring unit or a difference between a current humidity measured by the humidity measuring unit and a set humidity.

The first load setting unit may be configured by a switch or an input unit for setting at least one of a capacity load for a capacity of each of the plurality of indoor spaces and a duct load by a duct connected from the first blower to the plurality of indoor spaces Lt; / RTI >

And a second blower running at a second rotation speed calculated according to the ratio of the individual loads to the first rotation speed may be provided for each of the plurality of indoor spaces.

And a divider in which the opening amount of the damper is controlled so that the air calculated according to the ratio of the individual loads to the total load is distributed to the plurality of indoor spaces.

According to the present invention, by controlling the operation of the air conditioner by reflecting both the fixed load according to the place where the air conditioner is installed and the measured load of the room temperature or humidity, it is possible to supply the optimum air amount necessary for each indoor space have.

Further, when the duct load is set, all loads acting on the duct can be reflected by using the amount of air supplied to a plurality of indoor spaces by operating the first blower, and more accurate duct load can be calculated.

1 is a view showing a configuration of an air conditioner according to a first embodiment of the present invention;
2 is a view showing a configuration of an air conditioner according to a second embodiment of the present invention;
3 is a flowchart showing a control method of the air conditioner of the present invention

Hereinafter, a control method of an air conditioner and an air conditioner according to the present invention will be described in detail with reference to the accompanying drawings.

The configuration of the air conditioner according to the first embodiment will be described with reference to Fig.

The air conditioner 1 according to the first embodiment of the present invention includes a first blower 11 for supplying air to a plurality of indoor spaces 61, 62 and 63, a plurality of indoor spaces 61, 62, A duct 20 connecting between the first blower 11 and the second blowers 31 and 41 and 51 and a second blower 31 connected to the first blower 11 And a control unit (not shown) for controlling the operation of the second blowers 31, 41, and 51.

The first blower 11 may be installed inside the outdoor unit 10 installed in the outdoor unit room. The first blower 11 supplies outdoor air to the indoor spaces 61, 62 and 63 in the ventilation mode or sucks indoor air in the cooling / heating / As shown in FIG.

The second blowers 31, 41 and 51 are provided in the indoor units 30, 40 and 50 provided for the plurality of indoor spaces 61, 62 and 63, respectively. The air supplied by the first blower 11 To the respective indoor spaces (61, 62, 63).

The plurality of indoor spaces (61, 62, 63) are provided with load side portions for measuring a second load in the respective indoor spaces (61, 62, 63).

The second load is a load determined by a value measured at the load side governor, and the value of the load can be varied when the air conditioner 1 is operated.

The load side section can measure a condition for calculating the amount of air to be supplied to each of the indoor spaces (61, 62, 63). For example, in order to determine how much heated or cooled air should be supplied to each indoor space 61, 62, 63 in the heating mode or the cooling mode, the temperature of the indoor space 61, 62, Or humidity can be measured.

To this end, the load side portion includes temperature measurement portions 110a, 110b, and 110c for measuring the temperatures of the respective indoor spaces 61, 62, and 63, And humidity measurement units 120a, 120b, and 120c for measuring humidity.

In this case, either one of the temperature measuring units 110a, 110b, and 110c and the humidity measuring units 120a, 120b, and 120c may be provided or both of them may be provided.

The temperature and the humidity vary as the air conditioner 1 is operated, and the measured values of the varying temperature and humidity are received by the control unit.

The indoor environment setting units 130a, 130b, and 130c are provided for setting the user's desired set temperature or humidity to adjust the temperature or humidity of the plurality of indoor spaces 61, 62, and 63. The indoor environment setting units 130a, 130b, and 130c may be a remote controller or a room controller installed on a wall.

The control unit sets a first load for the plurality of indoor spaces (61, 62, 63). The first load may be defined as a fixed value instead of varying according to indoor environmental conditions.

Wherein the first load is a capacity load for each of the plurality of indoor spaces (61, 62, 63) and a capacity load for each of the plurality of indoor spaces (61, 62, 63) in the first blower (11) And a duct load by a duct 20 connected to the duct 20.

The capacity load can be set to be proportional to the size of the plurality of indoor spaces (61, 62, 63). That is, a large room can be set to have a large capacity load, and a small room can be set to have a small capacity load. The capacity load can be set using a dip switch provided in each of the indoor units (30, 40, 50) when the air conditioner (1) is installed. That is, a switch for a plurality of capacitances according to the room size can be provided, and the capacitive load can be set by operating the switches corresponding to the sizes of the indoor spaces 61, 62, and 63.

The duct load may be set to be proportional to the length of the duct 20 connected from the first blower 11 to the plurality of indoor spaces 61, 62 and 63. In this case, if the duct load is set based only on the length of the duct 20, the load acting on the bent portion of the duct 20 when the air passes through the duct 20 is not reflected, resulting in a difference from the actual duct load.

In this case, the duct load can be set by measuring the amount of air supplied to the plurality of indoor spaces (61, 62, 63) while the first blower (11) is operated when the air conditioner (1) is installed. The air volume of the air reaching the respective indoor spaces 61, 62 and 63 is inversely proportional to the length of the duct 20 from the first blower 11 to the respective indoor spaces 61, 62 and 63. Also, as the number of the bent portions of the duct 20 increases, the air amount of the air reaching each of the indoor spaces 61, 62, and 63 decreases. Accordingly, if the duct load is set to the amount of air supplied to the plurality of indoor spaces (61, 62, 63) by operating the first blower 11, all loads acting on the duct 20 can be reflected, The duct load can be calculated. The duct load may be input through an input unit (not shown) provided in the air conditioner 1, or may be set using a dip switch as well as the capacity load.

Thus, the first load can be set to a fixed value through the first load setting unit (not shown) such as the DIP switch and the input unit when the air conditioner 1 is installed.

The control unit sets a second load for each of the plurality of indoor spaces (61, 62, 63). The second load may be defined as a value for a temperature load or a humidity load which varies in the plurality of indoor spaces (61, 62, 63) as the air conditioner (1) is operated.

The temperature load may be defined as a difference between a current temperature measured by the temperature measuring units 110a, 110b, and 110c and a set temperature set by the user using the indoor configuration units 130a, 130b, and 130c. Therefore, the temperature load is proportional to the temperature difference, and the temperature load gradually changes as the air conditioner 1 is operated in the cooling or heating mode.

The humidity load may be defined as the difference between the current humidity measured by the humidity measuring units 120a, 120b, and 120c and the set humidity set by the user using the indoor environment setting units 130a, 130b, and 130c. Therefore, the humidity load is proportional to the humidity difference, and such humidity load gradually changes as the air conditioner 1 is operated in the dehumidification or humidification mode.

The control unit calculates an individual load for each of the plurality of indoor spaces (61, 62, 63) based on the second load, and calculates the total load by adding the individual loads.

When the total load and the individual load are calculated as described above, the control unit sets the number of revolutions of the first blower 10, sets the number of revolutions of the second blower 31, 41, and 51, .

The configuration of the air conditioner according to the second embodiment will be described with reference to Fig.

The air conditioner 2 according to the second embodiment includes the outdoor unit 10, the first blower 11, the duct 20, the temperature measuring units 110a, 110b and 110c, the humidity measuring units 120a, 120b and 120c The air conditioner 2 is the same as the air conditioner 2 of the first embodiment in that the indoor environment setting units 130a, 130b and 130c are provided and the distributor 70 is provided, 62, 63 are provided with only the diffusers 81, 82, 83 without the second blower.

The distributor 70 may be provided with a plurality of dampers 71, 72, and 73 that are opened and closed to supply air to the plurality of indoor spaces 61, 62, and 63. In this case, the control unit adjusts the amount of opening of the dampers 71, 72, 73 in proportion to the individual loads of the plurality of indoor spaces 61, 62, 63.

In this case, the DIP switch, which is the first load setting part for setting the capacity load, may be provided in the distributor 70. [

Although the second blower 31, 32, 33 is provided or the distributor 70 is provided in the above description, the second blower 31, 32, 33 and the distributor 70 may be provided together have.

A control method of the air conditioner of the present invention will be described with reference to FIG.

Step S101 is a step of setting the capacity load and the duct load, which are the first loads, for the plurality of indoor spaces (61, 62, 63).

The first load setting unit provided in the indoor units (30, 40, 50) or the distributor (70) is operated to set a capacity load corresponding to the size of each of the indoor spaces (61, 62, 63) Is received by the control unit.

Further, the duct load is calculated by measuring the amount of air supplied to each of the indoor spaces (61, 62, 63) by operating the first blower (10) after installing the air conditioners (1,2) Is input to the control unit through the first load setting unit.

In step S102, the user uses the indoor environment setting units 130a, 130b, and 130c to set the set humidity, which is the desired indoor temperature, and the desired indoor humidity, for the operation of the air conditioners 1,2.

In step S103, the temperature measuring units 110a, 110b and 110c measure the current temperatures of the plurality of indoor spaces 61, 62 and 63, and the humidity measuring units 120a, 120b and 120c measure a plurality of indoor spaces 61, 62, 63). The measured current temperature and the current humidity are received by the control unit, and the difference between the received current temperature and the set temperature set by the user becomes the second load as the temperature load, and the received current humidity and the user- Is a second load as a humidity load.

Step S104 is a step of calculating the individual load for each of the plurality of indoor spaces 61, 62, and 63 and the total load for all of the plurality of indoor spaces 61, 62,

The total load may be a sum of individual loads which are the loads of the indoor spaces (61, 62, 63), and the individual loads may be the first load (capacity load and duct load) Load or humidity load) are all reflected.

(1) When the indoor temperature is controlled

Individual load of each indoor space = (capacity load of each indoor space) × (difference between current temperature and set temperature of each indoor space) × (duct load of each indoor space)

(2) When controlling the humidity of the room

Individual load of each indoor space = (capacity load of each indoor space) × (difference between the current humidity and the set humidity of each indoor space) × (duct load of each indoor space)

When the individual loads for the respective indoor spaces 61, 62 and 63 are obtained as described above, the individual loads are summed to calculate the total load.

Step S105 is a step for setting the number of rotations of the first blower 11 and the second blowers 31, 41 and 51 or setting the amount of opening of the dampers 71, 72 and 73.

The first rotational speed of the first blower 10 corresponding to the calculated total load is set. The second rotation speed of the second blower 31, 41 or 51 is set or the opening amount of the damper 71, 72 or 73 is set according to the ratio of the individual load to the total load.

That is, when the total load is set to 100, the ratio of the individual loads is determined to determine how much is to be distributed to the respective indoor spaces 61, 62, and 63, The second rotation speed of the blowers 31, 41, 51 is set or the opening amount of the dampers 71, 72, 73 is set.

Then, the first blower 10 is operated in accordance with the first rotational speed, and the second blowers 31, 41 and 51 are operated in accordance with the second rotational speed to generate a plurality of indoor spaces 61, 62, Air is distributed and supplied to the plurality of indoor spaces 61, 62, 63 according to the amount of opening of the dampers 71, 72,

In step S106, the current temperature is measured by the temperature measuring units 110a, 110b, and 110c, and the current humidity is measured by the humidity measuring units 120a, 120b, and 120c. When the air conditioners 1 and 2 are operated in accordance with the set number of revolutions or opening amounts in step S105, the current temperature or the current humidity of the respective indoor spaces 61, 62 and 63 is variable.

Step S107 is a step of determining whether there is a load variation. If the current temperature or the current humidity is changed as a result of the measurement by the temperature measuring units 110a, 110b, and 110c or the humidity measuring units 120a, 120b, and 120c, it is determined that the load has changed and the process proceeds to step S104. The process proceeds to step S109.

When the load has changed, the rotation speeds of the first blower 10 and the second blowers 31, 41 and 51 are set again in accordance with steps S104 to S105, and the opening amounts of the dampers 71, 72, Set it again.

Step S109 is a stage in which the operation end signal of the air conditioners 1,2 is received and the operation of the air conditioners 1,2 is terminated.

According to the control method as described above, both the fixed first load according to the place where the air conditioner (1,2) is installed and the second load, which is the temperature or the humidity of the room, And thus can be supplied with the optimum air amount necessary for each of the indoor spaces 61, 62 and 63.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And this also belongs to the present invention.

1, 2: air conditioner 10: outdoor unit
11: First blower 20: Duct
30, 40, 50: indoor unit 31, 41, 51: second blower
61, 62, 63: indoor space 70: distributor
71, 72, 73: Dampers 81, 82, 83: Diffuser
110a, 110b and 110c: Temperature measuring units 120a, 120b and 120c:

Claims (13)

a) setting at least one first load for each of a plurality of indoor spaces;
b) measuring at least one second load in each of the plurality of indoor spaces;
c) calculating a total load based on the first load and the second load of each of the plurality of indoor spaces and the individual loads of the plurality of indoor spaces;
d) operating the first blower at a first rotation speed set in accordance with the calculated total load, and distributing the air supplied from the first blower to the plurality of indoor spaces according to the ratio of the individual loads to the total load ;
And a control method of the air conditioner The method according to claim 1,
Wherein the first load includes at least one of a capacity load for a capacity of each of the plurality of indoor spaces and a duct load by a duct connected from the first blower to the plurality of indoor spaces. Control method 3. The method of claim 2,
Wherein the duct load is set to an amount of air supplied to the plurality of indoor spaces by operating the first blower 3. The method of claim 2,
Wherein the duct load is proportional to a length of a duct connected from the first blower to the plurality of indoor spaces. The method according to claim 1,
Wherein the second load includes at least one of a temperature load on the temperature of the plurality of indoor spaces and a humidity load on the humidity of the plurality of indoor spaces 6. The method of claim 5,
Wherein the temperature load is a difference between a present temperature and a set temperature, and the humidity load is a difference between a current humidity and a set humidity. The method according to claim 1,
A second blower provided for each of the plurality of indoor spaces is driven by a second rotation speed to supply the air supplied from the first blower to the plurality of indoor spaces, Wherein the air conditioner is set according to the ratio of the individual loads The method according to claim 1,
The air supplied from the first blower is distributed to the plurality of indoor spaces in the distributor, and the distributor controls the opening amount of the damper so that the air is distributed according to the ratio of the individual loads calculated in the step d) A control method of an air conditioner A first blower for supplying air to a plurality of indoor spaces;
A first load setting unit for setting at least one first load for each of the plurality of indoor spaces;
A load side portion for measuring a second load of each of the plurality of indoor spaces;
Wherein said control unit calculates a total load of said plurality of indoor spaces based on said first load and said second load and a total load of said individual loads together, and operates said first blower by a first rotation speed set in accordance with said calculated total load And distributing the air supplied from the first blower to the plurality of indoor spaces according to the ratio of the individual loads to the total load;
An air conditioner 10. The method of claim 9,
Wherein the load side portion comprises at least one of a temperature measurement portion for measuring a current temperature of the plurality of indoor spaces and a humidity measurement portion for measuring a current humidity of the plurality of indoor spaces;
Wherein the second load comprises a difference between a current temperature and a preset temperature measured by the temperature measuring unit or a difference between a current humidity measured by the humidity measuring unit and a set humidity. 10. The method of claim 9,
The first load setting unit may be configured by a switch or an input unit for setting at least one of a capacity load for a capacity of each of the plurality of indoor spaces and a duct load by a duct connected from the first blower to the plurality of indoor spaces Wherein the air conditioner 10. The method of claim 9,
And a second blower is provided for each of the plurality of indoor spaces, the second blower being operated at a second rotational speed calculated according to the ratio of the individual load to the first rotational speed. 10. The method of claim 9,
Wherein the air conditioner comprises a distributor in which the opening amount of the damper is controlled so that the air calculated according to the ratio of the individual load to the total load is distributed to the plurality of indoor spaces.

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