KR100531082B1 - A power control apparatus and method of multi-air conditioner - Google Patents

Abstract

The present invention relates to a power control apparatus and a power control method of a multi-air conditioner system, and an object of the present invention is to ensure a cooling and heating function of the multi-air conditioner system, a power control apparatus and power of the multi-air conditioner system that can adjust the power consumption of the entire customer To provide a control method.

To this end, the present invention is a power control device of a multi-air conditioning system having a plurality of indoor units, the power consumption measuring device for measuring the power consumption of the total load of the customer, the average power consumption of the total load to be consumed during the reference time reference power consumption It is expected to exceed, and the first control unit for generating a power management command to the multi-air conditioning system if the multi-air conditioning system is the power consumption management order, the consumption of some indoor units of the plurality of indoor units by the power consumption management command And a second controller for controlling the power to be low.

Description

A power control apparatus and method of multi-air conditioner

The present invention relates to a power control device and a power control method of a multi-air conditioner system, and more particularly, to a power control device and a power control method of a multi-air conditioner system to control the operation rate of the multi-air conditioner system to reduce the power consumption of the entire customer. It is about.

In general, consumers who consume large amounts of electricity receive contract power from KEPCO, an electricity supplier, to operate various facilities. At this time, KEPCO remotely reads the main meter to determine the power consumption of each customer.In the season when electricity usage increases rapidly (for example, from June to August), the 15-minute average power consumption may exceed the management power specified in the contract. If you are charged a surcharge.

In order to prevent such cases, the faucet installed in the consumer adjusts the average power consumption for 15 minutes to be less than or equal to the management power. The faucet is a power consumption measuring device for detecting instantaneous power consumed by the consumer, and the consumer for a predetermined time. And an alarm controller having a plurality of relays connected to or disconnected by a demand signal of the demand controller and controlling the average power consumption of the power consumption to not exceed the amount of management power.

When power is supplied to a customer installed with the power receiving facility, the power consumption measuring device detects the instantaneous power consumption and transmits the detected power consumption data to the demand controller. The demand controller analyzes power consumption data transmitted from the input / output device and analyzes whether the 15 minute average power consumption exceeds the management power amount. In the above analysis, if the average power consumption of 15 minutes is expected to exceed the management power, the demand controller lowers the power consumption of the entire customer by cutting off the relay connected to the specific load among the plurality of relays of the alarm relay. This management power is prevented from exceeding.

In addition, if a relay connected to a general air conditioner (air conditioner consisting of one outdoor unit and one indoor unit) among the plurality of relays is cut off, the magnet contactor connecting the compressor and the power supply line of the general air conditioner is disconnected to cut off the power supplied to the compressor. It was.

However, by applying the conventional method to a multi-air conditioner system (at least one air conditioner system consisting of one outdoor unit and a plurality of indoor units), when the magnet contactor is disconnected to reduce power consumption, it is necessary to always perform heating and cooling operation. There was a problem of turning off the outdoor unit excluded from the subject.

That is, some indoor units of the plurality of indoor units have a problem in that they are turned off for the reduction of power consumption even though they are not the object of controlling the power consumption in order to lower the power consumption of the entire customer.

The present invention is to solve the above problems, an object of the present invention to provide a power control device and a power control method of a multi-air conditioning system that can adjust the power consumption of the entire customer while ensuring the cooling and heating function of the multi-air conditioning system. .

The present invention for achieving the above object is a power control device of a multi-air conditioning system having a plurality of indoor unit, the power consumption measuring device for measuring the power consumption of the total load of the customer, the average consumption of the total load to be consumed during the reference time A first controller configured to generate a power consumption management command to the multi-air conditioning system when the amount of power is expected to exceed a reference power consumption and the multi-air conditioning system is in order of power consumption management; and the plurality of indoor units by the power consumption management instruction Some of the indoor unit is characterized in that it comprises a second control unit for controlling to lower the power consumption.

In addition, the second control unit stores the power consumption management rank of the plurality of indoor units, and when the power consumption management command is generated to control the power consumption of the indoor unit having a power consumption management rank corresponding to the power consumption management command is lowered It is characterized by.

In addition, the power control apparatus of the multi-air conditioner system includes an alarm relay having a plurality of relays connected or disconnected by the power consumption management command, and monitors the alarm relay and sends an alarm signal corresponding to the relay contact state of the alarm relay. It further comprises an interface module for transmitting to the second control unit.

The alarm signal may have a different alarm level according to the relay contact state of the plurality of relays, and the power consumption management order corresponding to the power consumption management command may be selected according to the alarm level.

The second control unit may further include: an alarm level detector for detecting an alarm level of the alarm signal; a management priority storage unit for storing power consumption management ranks of the plurality of indoor units; and an operating state for detecting an operation state of the multi-air conditioner system. And a driving controller for controlling the operation of the multi-air conditioner system.

In addition, in the power control apparatus of a multi-air conditioner system having a plurality of indoor units, an alarm level detection unit for detecting an alarm signal for reducing power consumption of a total load of a customer, and a management priority storing for storing power consumption management ranks of the plurality of indoor units And an operation state detection unit detecting an operation state of the plurality of indoor units, and an operation control unit configured to reduce the power consumption of the indoor unit having a power consumption management ranking corresponding to the alarm signal.

In addition, in the power control method of a multi-air conditioner system having a plurality of indoor units, if the average power consumption of the total load to be consumed during the reference time is measured and the average power consumption of the total load to be consumed during the reference time is exceeded, the multi-air conditioner. It is determined whether the system is a power consumption management order, if the multi-air conditioning system is a power consumption management order, a power consumption management command for reducing power consumption of the multi-air conditioning system is generated, and the consumption selected in connection with the power consumption management command. The multi-air conditioner system may be operated to reduce power consumption of an indoor unit having a power management ranking.

The power consumption management priority may be set in advance and stored in a controller for controlling the multi-air conditioner system.

In addition, the plurality of indoor units are divided into at least two groups, characterized in that the power consumption management rank is set for each group.

In addition, the indoor unit of the plurality of indoor units that need to always maintain the operating state is characterized in that not included in the power consumption management target for reducing power consumption.

In addition, the power consumption is characterized by lowering the indoor unit to be managed or switched off to a low power operation mode.

In addition, the low power operation mode is characterized in that it comprises reducing the number of revolutions per minute of the indoor fan blowing fan to be managed or changing the set temperature.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. Power control device of a multi-air conditioning system according to an embodiment of the present invention is a power consumption measuring device 10 for detecting the instantaneous power consumption consumed by the customer, and the average amount of power consumed for a predetermined time in the entire customer electricity supplier A demand controller 11 managing to be smaller than a reference power consumption, which is a contract power with the alarm controller, an alarm relay 12 including a plurality of relays connected or disconnected by a control signal of the demand controller 11, and an alarm relay 12 Interface module 13 for generating an alarm signal corresponding to the contact state of the) and the air conditioning control unit 20 for controlling the operation of the multi-air conditioning system in connection with the alarm signal of the interface module (13).

The customer consists of a plurality of outdoor units 15, a plurality of indoor units 16 connected to the plurality of outdoor units 15, and other loads 14.

The demand controller 11 receives the instantaneous power consumption value measured by the power consumption measuring apparatus 10 and estimates whether the 15 minute average power consumption exceeds the reference power consumption. For example, if the standard power consumption for 15 minutes is 300kVA, and the average power consumption by the consumer for 10 minutes out of 15 minutes is measured as 270kVA, the 15-minute average power consumption may exceed 300kVA based on the consumer's consumption pattern. I expect this to be quite large.

In this way, when it is determined that the average 15 minutes of power consumption of the customer exceeds the standard power consumption, the demand controller 11 changes the operation state of the loads in order of power consumption management in order to lower the power consumption of the customer. Change to The power consumption management target order is set for each load, and this order is stored in the demand controller 11. Therefore, the demand controller 11 changes the operation state from the load with the quickest power consumption management target to the power consumption management target in order to lower the power consumption of the customer, and the multi-air conditioner system becomes the power consumption management target order. Control to reduce power consumption.

The demand controller 11 uses the alarm relay 12 to change the operation state of the loads in order of power consumption management to the low power operation mode or the operation stop mode. Each relay of the alarm relay 12 is connected to the load of the customer. It is connected. Therefore, when each relay of the alarm relay 12 is connected or disconnected by the control command of the demand controller 11, the operation state of the load connected to each relay is also changed. In this way, the demand controller 11 adjusts the power consumption of the entire customer.

The interface module 13 is connected to the alarm relay 12 to monitor the alarm relay 12, and transmits an alarm signal corresponding to the contact state of the alarm relay 12 to the air conditioning control unit 20. The alarm signal corresponding to the contact state is a signal indicating how many relays are disconnected and how many relays are connected among relays provided to manage power of the multi-air conditioner system.

That is, the alarm signal has different alarm level according to the relay contact status. For example, if a large number of relays are blocked among the relays that manage the multi-air conditioner system, the alarm signal has a high alarm level, and a small number of relays are blocked. Is the lower level alarm level.

As shown in FIG. 2, the air conditioning control unit 20 includes an alarm level detection unit 21 for detecting an alarm level of an alarm signal transmitted from the interface module 13, and a plurality of indoor units 16 belonging to a multi-air conditioner system. Controlling the operation of the multi-air conditioner system using the management rank storage unit 22, which stores the power consumption management rank, and the data stored in the alarm level and management rank storage unit 22 detected by the alarm level detection unit 21. An operation control unit 23 and an operation state detection unit 24 for detecting an operation state of the multi-air conditioner system.

In the management rank storage unit 22, power consumption management ranks of the plurality of indoor units 16 are set and stored. The management ranking is decided by the user considering the importance of air conditioning and heating of each indoor unit. 3 illustrates the power consumption management order of the indoor unit stored in the management rank storage unit 22. In Fig. 3, the indoor units 1 to 5 are excluded from the power consumption management to maintain the operating state at all times. The remaining indoor units are divided into n groups, and management ranks are assigned to groups. In addition, it is possible to set different driving methods to reduce the power consumption of the indoor unit according to each rank.

The operation control unit 23 determines the alarm level detected by the alarm level detecting unit 21 to switch to the low power operation mode to which indoor units of which rank is among the management positions stored in the management priority storage unit 22. Determine. The low power operation mode may be performed by various methods such as changing a preset set temperature or reducing the number of revolutions per minute of the blower fan.

That is, one of n alarm relays 12 in the multi-air conditioner system in which the alarm relays 12 are divided into n groups and the indoor unit 16 is divided into n groups as shown in FIG. When the relay is cut off, the alarm level is considered to be 1st stage, and the indoor units corresponding to the 1st priority are turned off 6 to 10 times, and when another relay is further cut off after breaking one relay, the alarm level is considered to be 2nd stage. Turn off the indoor unit of the ranking as well as the 11th to 15th indoor units. In this way, the operation mode is gradually changed to the indoor unit corresponding to the n rank.

However, since the indoor unit, which is the power consumption management target, may be already turned off, the operation control unit 23 controls the operation of each indoor unit by referring to each operation state of the multi-air conditioner system detected by the operation state detection unit 24.

An operation of the multi-air conditioner system shown in FIG. 1 will be described with reference to FIG. The power consumption measuring apparatus 10 measures the power consumption of the total customer load and transmits the measurement result to the demand controller 11 (30). The demand controller 11 determines whether the 15 minute average power consumption exceeds the reference power consumption using the transmitted power consumption measurement result (32).

If it is determined that the 15-minute average power consumption does not exceed the reference power consumption, the process returns to step 30, and in the opposite case, the multi-air conditioner system determines whether the power consumption management order has been reached (34). If a load other than the multi-air conditioner system becomes the power consumption management order, the operation mode of the load is switched to the low power operation mode or the operation of the load is stopped (44).

However, when the multi-air conditioner system is in power consumption management order, the demand controller 11 transmits a control signal for blocking one relay from the alarm relay 12 to the alarm relay 12 to block one relay (36). , 38).

The interface module 13 monitors the alarm relay 12 and sets an alarm level corresponding to the number of blocked relays when the relay associated with the multi-air conditioner system is shut off and transmits the alarm level to the alarm level detector 21 (40). Since one relay is blocked in the above, alarm relay is set to 1st step.

The operation control unit 23 grasps the alarm level detected by the alarm level detecting unit 21, and switches to the low power operation mode or turns off the low power operation mode when the indoor unit having the first power consumption management priority is on because the alarm level is one step ( 42).

During operation by lowering the operation rate of the indoor unit corresponding to the first order, the demand controller 11 again determines whether the average 15-minute power consumption exceeds the reference power consumption (46).

If it is still determined that the 15-minute average power consumption exceeds the standard power consumption, the demand controller 11 transmits a control signal to the alarm relay to block the two relays (48, 38). When the two relays are blocked, the interface module 13 transmits the two-stage alarm level to the alarm level detector 21 (40).

The driving controller 23 controls the operation rate of the indoor units corresponding to the second rank to be lowered after the first stage indoor units having already lowered the operation rate since the two levels of alarm levels have been input (42).

In this embodiment, the alarm level is increased until the 15-minute average power consumption of the entire customer is not expected to exceed the standard power consumption, thereby changing the operation mode of the indoor unit having a gradually higher power consumption management ranking. Therefore, it is possible to reduce the amount of power consumed in the multi-air conditioner system without stopping the compressor operation.

As described in detail above, in the present invention, when a multi-air conditioner system becomes a power consumption management order, the power consumption is sequentially sequentially from the indoor unit of low management rank according to the power consumption management order of the indoor unit which is the power consumption management target without turning off the compressor of the outdoor unit. By managing this, the cooling efficiency can be guaranteed while preventing the power consumption of the entire customer from exceeding the standard power consumption.

1 is a block diagram showing a power control apparatus of a multi-air conditioner system according to an embodiment of the present invention.

FIG. 2 is a detailed block diagram illustrating the air conditioning control unit of FIG. 1.

3 is a table illustrating the power consumption management ranking of the plurality of indoor units shown in FIG.

FIG. 4 is a flowchart showing the operation of the multi-air conditioner system power control device shown in FIG.

* Description of the code for the main functions of the drawings

10: power consumption measuring device 11: demand controller

12: Alarm relay 13: Interface module

20: air conditioning control unit 21: alarm level detection unit

22: management priority storage unit 23: operation control unit

24: operation state detection unit

Claims (12)

In the power control apparatus of a multi-air conditioner system having a plurality of indoor units, Power consumption measuring device for measuring the power consumption of the total customer load, A first controller configured to generate a power consumption management command to the multi-air conditioner if the average power consumption of the total load to be consumed during the reference time is expected to exceed a reference power consumption, and the multi-air conditioner is a power consumption management order; And a second control unit configured to control the power consumption of some indoor units of the plurality of indoor units to be lowered by the power consumption management command. The method of claim 1, The second control unit stores power consumption management ranks of the plurality of indoor units, and when the power consumption management command is generated, controlling the power consumption of the indoor unit having the power consumption management order corresponding to the power consumption management command to be lowered. Power control device of multi-air conditioner system The method of claim 2, The power control apparatus of the multi-air conditioner system includes an alarm relay having a plurality of relays connected or disconnected by the power consumption management command, and an alarm signal for monitoring the alarm relay and corresponding to a relay contact state of the alarm relay. Power control device for a multi-air conditioner system further comprises an interface module for transmitting to the control unit The method of claim 3, The alarm signal has a different alarm level according to the relay contact state of the plurality of relays, and the power consumption management priority corresponding to the power consumption management command is selected according to the alarm level. Controller The method of claim 4, wherein The second control unit may include: an alarm level detector for detecting an alarm level of the alarm signal; a management priority storage unit for storing power consumption management ranks of the plurality of indoor units; and an operation state detector for detecting an operation state of the multi-air conditioner system; And an operation control unit for controlling operation of the multi-air conditioner system. In the power control apparatus of a multi-air conditioner system having a plurality of indoor units, An alarm level detection unit for detecting an alarm signal to reduce power consumption of the total load of the consumer; A management rank storage unit for storing power consumption management ranks of the plurality of indoor units; An operation state detection unit detecting an operation state of the plurality of indoor units; And an operation control unit for driving the power consumption of the indoor unit having the power consumption management order corresponding to the alarm signal to be reduced. In the power control method of a multi-air conditioner system having a plurality of indoor units, Measure the power consumption of the total customer load, If it is expected that the average power consumption of the total load to be consumed during the reference time exceeds the standard power consumption, it is determined whether the multi-air conditioner system is a power consumption management order, If the multi-air conditioning system is a power consumption management order, and generates a power consumption management command for reducing the power consumption of the multi-air conditioning system, The power control method of the multi-air conditioning system, characterized in that for operating the multi-air conditioning system so as to lower the power consumption of the indoor unit having the power consumption management ranking selected in connection with the power consumption management command. The method of claim 7, wherein The power consumption management order is set in advance and stored in the control unit for controlling the multi-air conditioner system power control method of the multi-air conditioner system. The method of claim 8, The plurality of indoor units are divided into at least two groups, the power control method of the multi-air conditioning system, characterized in that the power consumption management rank is set for each group The method of claim 7, wherein An indoor unit, which needs to always maintain an operating state among the plurality of indoor units, is not included in a power consumption management target for reducing power consumption. The method of claim 7, wherein The power consumption method of the multi-air conditioner system, characterized in that the power consumption is lowered by switching the indoor unit to the low power operation mode or off. The method of claim 11, The low power operation mode is a power control method of a multi-air conditioner system, characterized in that it comprises reducing the number of revolutions per minute of the indoor air blowing fan to be managed or changing the set temperature.