KR20090004942U - Multi-air conditioner having breaking capacity setting unit - Google Patents

Abstract

The present invention relates to a multi air conditioner including a breaking capacity setting unit, and in particular, it is possible to set the optimum breaking capacity according to the number of indoor units, and to set the maximum breaking capacity during the trial run of the multi air conditioner to prevent fire and The present invention relates to a multi air conditioner having a breaking capacity setting unit that can prevent wiring and ground faults in advance.

The present invention, one outdoor unit; A plurality of indoor units connected to the outdoor unit; A microcomputer that sets a blocking capacity corresponding to the amount of trial run current of the plurality of indoor units; A plurality of overcurrent blocking units having different blocking capacities; And a breaking capacity setting unit for connecting an overcurrent blocking unit having the breaking capacity selected by the microcomputer to the indoor unit and the outdoor unit to supply external power to the indoor unit and the outdoor unit.

Description

Multi-air conditioner having breaking capacity setting unit

The present invention relates to a multi-air conditioner having a breaking capacity setting unit. In particular, the multi-air conditioner has a breaking capacity setting unit that can install a breaker having an appropriate breaking capacity because the limit current changes according to the number of the plurality of indoor units. It relates to a multi air conditioner provided.

Recently, the use of air conditioners has been greatly increased, and air conditioners have been installed in each room of a home or in each space of a building.

An air conditioner can be classified into a single type air conditioner suitable for air conditioning in a small room, and a multi air conditioner installed in a large building and capable of joint management.

First, a conventional air conditioner is installed and operated independently in each space, such as a small building, which does not require common management. An indoor unit is installed in each space, and an outdoor unit is connected to the indoor unit outside the space to circulate the refrigerant.

On the other hand, the multi-air conditioner is installed in a plurality of spaces separated into a place such as a school or a building, where a plurality of indoor units are installed in each space, and a few outdoor units connected to a plurality of indoor units are installed outdoors.

Here, a few outdoor units monitor state information of a plurality of indoor units connected to each outdoor unit, and control distribution and circulation of refrigerant circulated through the plurality of indoor units.

Since a plurality of multi air conditioners installed in each space are installed in the same building, operation power is supplied through one power line.

The multi-air conditioner is considerably larger than other electric devices due to the characteristics of the air conditioner circulating the refrigerant to perform the air conditioning.

Therefore, when the use of multi-air conditioners with high power consumption increases, the maximum allowable power value of the building is exceeded, and the amount of current increases as the number of multi-air conditioners and the number of indoor units increase.

When the increased amount of current exceeds the overcurrent, overcurrent flows to the motor installed inside the air conditioner, causing the motor to fail.

Accordingly, breakers are installed outside the multi air conditioners or fuses are installed inside the multi air conditioners to block the overcurrent flowing to the motor.

However, the multi-air conditioner with high power consumption is supplied with operating power through one power line, so if the amount of current increases as the number of indoor units of the multi-air conditioner increases, the breaker when the increased current exceeds the breaking capacity of the breaker already installed The problem of breaking is caused.

Conventionally, when a breaker having a predetermined capacity or more is installed outside the multi air conditioner, there is a problem in that overcurrent protection for the motor of the multi air conditioner cannot be performed unless a breaker having an appropriate specification is installed in a local construction.

In addition, when a fuse of a certain capacity is installed in the multi-air conditioner, the fuse is blown when a current exceeding a certain capacity is input, and there is a problem in that the blown fuse needs to be replaced to restart the multi-air conditioner.

In addition, when installing a breaker of a certain capacity or when installing a fuse, the installation capacity is selected by the installer yourself, or because a fuse of one breaking capacity is installed, it is installed regardless of the number of indoor units, so efficiency is low. There is this.

The purpose of the present invention is to detect the maximum amount of current during commissioning of the multi-air conditioner, and then set the breaking capacity corresponding to the detected current amount to set the optimum breaking capacity according to the number of indoor units in operation. The present invention provides a multi-air conditioner having an interruption capacity setting unit capable of setting an excitation over-current blocking unit and preventing a motor from being damaged due to over-current flowing to the motor of the multi-air conditioner.

Another object of the present invention is to provide a multi-air conditioner having a breaking capacity setting unit that can prevent fire, incorrect wiring, and ground fault due to the trial run by setting the maximum breaking capacity during the trial run of the multi-air conditioner.

Technical means of the present invention for achieving the above object is one outdoor unit; A plurality of indoor units connected to the outdoor unit; A microcomputer that sets a blocking capacity corresponding to the amount of trial run current of the plurality of indoor units; A plurality of overcurrent blocking units having different blocking capacities; And a breaking capacity setting unit for connecting an overcurrent blocking unit having the breaking capacity selected by the microcomputer to the indoor unit and the outdoor unit to supply external power to the indoor unit and the outdoor unit.

In addition, the cut-off capacity setting unit may be electrically connected to the microcomputer of the outdoor unit or the microcomputer of the indoor unit of any one of the plurality of indoor units.

In addition, the cut-off capacity setting unit includes a current sensing unit for sensing the amount of trial run current of the plurality of indoor units and transmitting the sensed current amount to the microcomputer; And a switch unit connected to each of the plurality of overcurrent blocking units and selectively connecting the overcurrent blocking unit corresponding to the breaking capacity set by the microcomputer to any one indoor unit or outdoor unit.

In addition, the breaking capacity setting unit is characterized in that a plurality of over-current cut-off portion having a different breaking capacity is connected in parallel between the current sensing unit and the external power supply, the switch portion is connected in series to each of the plurality of over-current cut-off portion.

In addition, the microcomputer on-controls the switch unit connected to the overcurrent blocking unit having the maximum breaking capacity during the trial run of the plurality of indoor units, and controls the trial run so that the maximum current flows to the plurality of indoor units, and then corresponds to the amount of current transmitted from the current sensing unit. It is characterized in that for setting the breaking capacity to control the switch unit connected to the over-current blocking unit having the breaking capacity.

In addition, when the number of the plurality of indoor units is changed, after switching on the switch unit connected to the overcurrent blocking unit having the maximum breaking capacity, the microcomputer senses the maximum operating current amount of the plurality of indoor units, sets the breaking capacity corresponding to the detected current amount, and sets the cutoff. On-control of the switch unit connected to the overcurrent blocking unit having a capacity.

According to the present invention, after the multi air conditioner is installed, it is controlled to receive power through an overcurrent cut-off unit having a maximum breaking capacity, and the initial trial run is set so that the maximum current flows, and then the current amount is measured during trial run to cut off the corresponding current amount. By setting the capacity and controlling the power supply to be supplied through the overcurrent cutoff unit corresponding to the breaking capacity, it is possible to set the optimum breaking capacity according to the number of indoor units installed.

 In addition, it is possible to prevent the fire, incorrect wiring, ground fault caused by the trial run when installing the multi air conditioner.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a block diagram showing a breaking capacity setting system according to a first embodiment of the present invention, the breaking capacity setting system is composed of the breaking capacity setting unit 10 and the load 20, more specifically the blocking The capacity setting unit 10 includes power supply terminals L and N, overcurrent blocking portions F1, F2, and Fn, switch portions S1, S2, Sn, and a current sensing portion 12, and a load 20 ) Is composed of a microcomputer 21 and a memory 22.

The breaking capacity setting unit 10 controls the switch unit according to the control signal of the microcomputer 21 of the load 20 to supply external power to the load 20 through an overcurrent blocking unit having a breaking capacity set in the microcomputer 21. . This will be described in more detail as follows.

The power supply terminals L and N are configured of a power line L and a neutral line N supplied with power from an external power source, and are connected to the load 20 to supply operating power to the load 20.

The overcurrent blocking units F1, F2, and Fn block the supply of current exceeding the set capacity to the load. The overcurrent blocking units F1, F2, and Fn are composed of a plurality of overcurrent blocking units F1. , F2, Fn) have different capacities.

Here, the plurality of overcurrent blocking units F1, F2, and Fn having different capacities are connected in parallel between the power supply terminal L and the load 20, and the overcurrent blocking unit may be a fuse, for example. .

The switch units S1, S2, and Sn are connected in series to the plurality of overcurrent blocking units F1, F2, and Fn, respectively, and are turned on / off in accordance with a control signal of the microcomputer 21. At this time, the switch unit (S1, S2, Sn) is turned on the switch connected to the over-current blocking unit (F1, F2, Fn) having the breaking capacity set in the microcomputer 21 and to supply the operating power to the load 20 through the on switch unit. Supply.

The current detector 12 detects the driving current of the load 20 according to the control signal of the microcomputer 21 and transmits the detected current to the microcomputer 21.

That is, the current sensing unit 12 detects the amount of current flowing in the load 21 during initial commissioning of the load after the load 20 is installed, and transmits the current to the microcomputer. When the load 20 changes, the variable load ( During the commissioning of 20), detect the current flowing through the load and send it to the microcomputer.

At this time, the test load 20 is set so that the maximum current flows, and the current sensed through the current sensing unit 12 becomes the maximum current flowing during the operation of the load.

The microcomputer 21 controls the overall operation of the load, sets the maximum breaking capacity at the initial commissioning of the load after the load is installed, and the switch unit connected to the overcurrent breaking unit so that power is supplied through the overcurrent blocking unit having the set maximum breaking capacity. Send a control signal to control on.

In addition, the microcomputer 21 controls the operation of the load so that the maximum current flows during the initial commissioning of the load, and at this time, receives the current amount of the load sensed through the current detector 12 and sets the breaking capacity corresponding to the transmitted current amount. The control signal is transmitted to the switch unit connected to the overcurrent blocking unit so that power is supplied through the overcurrent blocking unit corresponding to the set breaking capacity.

In addition, when the load fluctuates, the microcomputer 21 sets a maximum breaking capacity when commissioning the variable load, and transmits an on-control signal to the switch unit connected to the overcurrent blocking unit so that power is supplied through the overcurrent blocking unit having the set maximum breaking capacity. do.

At this time, the microcomputer 21 controls the operation of the load so that the maximum current flows during the trial operation of the variable load, receives the current amount detected through the current detector 12, sets the breaking capacity corresponding to the detected current amount, and sets the cutoff. The on-control signal is transmitted to the switch connected to the overcurrent cutout so that power is supplied through the overcurrent cutoff corresponding to the capacity.

Here, the microcomputer 21 stores the breaking capacity corresponding to the amount of current, the switch unit to be controlled according to each breaking capacity, the information on the switch unit connected to the overcurrent blocking unit having the maximum breaking capacity, and the like. Stores the set breaking capacity during initial commissioning and load changes.

The data storage of the microcomputer 21 may be stored in the memory using a separate memory 22, and then the microcomputer 21 may retrieve the corresponding data from the memory to perform control.

2 is a block diagram of an outdoor power supply type multi air conditioner having a cut-off capacity setting unit according to a second embodiment of the present invention, the outdoor unit 30 having a cut-off capacity setting unit 10 and a plurality of indoor units ( 40, 50, n), the outdoor unit includes a microcomputer 31 and a memory (32).

The cut-off capacity setting unit 10 is provided in the outdoor unit 30 when an outdoor power type multi air conditioner is installed, and controls the switch unit according to the control signal of the microcomputer 31 of the outdoor unit 30 to be set in the microcomputer 31. It is supplied to the operating power of the outdoor unit and the multiple indoor units through the overcurrent blocking unit having the breaking capacity. This will be described in more detail as follows.

The cut-off capacity setting unit 10 controls the switch unit connected to the overcurrent cut-off unit having the maximum breaking capacity according to the control signal transmitted from the microcomputer 31 of the outdoor unit when the multi-air conditioner of the outdoor power system is installed, and the multi-air conditioning When the device is commissioned, the driving current of the plurality of indoor units 40, 50, n is sensed through the current sensing unit during the test operation, and then transmitted to the microcomputer 31 of the outdoor unit.

In addition, the cut-off capacity setting unit 10 controls the switch unit connected to the over-current cut-off unit having a cut-off capacity corresponding to the amount of operating current of the plurality of indoor units according to the control signal of the microcomputer 31.

Here, the breaking capacity setting unit 10 is composed of an overcurrent blocking unit, a switch unit and a current detecting unit, and the overcurrent blocking unit blocks the current exceeding the set capacity from being supplied to the multi air conditioner, and the overcurrent blocking unit is configured in plural. The plurality of overcurrent blocking units have different capacities. Here, the plurality of overcurrent blocking units having different capacities are connected in parallel between the power supply terminal and the current sensing unit.

The switch unit is connected in series to each of the plurality of overcurrent blocking units, and is turned on / off according to a control signal of the outdoor unit microcomputer 31. At this time, the switch unit turns on the switch unit connected to the overcurrent blocking unit having the breaking capacity set in the microcomputer 31 and supplies operating power to the multi-air conditioner through the switched on unit.

The current detecting unit detects the maximum operating current of the plurality of indoor units 40, 50, n according to the control signal of the outdoor unit microcomputer 31, and then transmits the detected current amount to the microcomputer 31 of the outdoor unit.

That is, the current detecting unit detects the amount of current flowing through the plurality of indoor units 40, 50, n during initial commissioning of the plurality of indoor units 40, 50, n, and transmits the current amount to the microcomputer 31, and the plurality of indoor units 40, 50, n. When a change occurs in the number of) and detects the maximum current amount during the trial run of the plurality of indoor units (40, 50, n) is transmitted to the outdoor unit microcomputer (31).

The microcomputer 31 of the outdoor unit controls the overall operation of the outdoor unit and the plurality of indoor units, sets the maximum breaking capacity during initial commissioning after the outdoor power multi-air conditioner is installed, and supplies power through the overcurrent blocking unit having the set maximum breaking capacity. The control signal is transmitted to control on the switch connected to the overcurrent cut-off part to be supplied.

In addition, the microcomputer 21 controls the operation of the plurality of indoor units 40, 50, n so that a maximum current flows to the plurality of indoor units 40, 50, n during initial commissioning of the plurality of indoor units 40, 50, n, and Receives the current amount of the plurality of indoor units 40, 50, n detected through the current detector 12, sets the breaking capacity corresponding to the transmitted current amount, and the overcurrent so that power is supplied through the overcurrent blocking unit corresponding to the set breaking capacity. Transmits the on control signal to the switch connected to the breaker.

In addition, when the number of the plurality of indoor units 40, 50, n is changed, the microcomputer 21 sets the maximum breaking capacity during trial run according to the variation of the plurality of indoor units 40, 50, n, and the overcurrent having the set maximum breaking capacity. The on-control signal is transmitted to the switch unit connected to the overcurrent cutoff unit so that power is supplied through the cutoff unit.

At this time, when the number of the plurality of indoor units 40, 50, n changes, the microcomputer 21 controls the operation of the plurality of indoor units 40, 50, n so that the maximum current flows during the trial operation, and is detected by the current detector 12. It receives the current amount and sets the breaking capacity corresponding to the sensed current amount, and transmits the on-control signal to the switch unit connected to the overcurrent blocking unit so that power is supplied through the overcurrent blocking unit corresponding to the set breaking capacity.

Here, the microcomputer 21 stores a breaking capacity corresponding to the amount of current of the plurality of indoor units 40, 50, n, a switch unit to be controlled according to each breaking capacity, and is connected to an overcurrent blocking unit having a maximum breaking capacity. Information on the switch unit is stored and stores the set breaking capacity at the time of initial commissioning and the change of the number of indoor units 40, 50, n.

Data storage of the outdoor unit microcomputer 31 may be stored in a memory using a separate memory 32, and then the microcomputer 31 may perform control by retrieving the corresponding data from the memory.

3 is a block diagram of an indoor power supply type multi air conditioner having a cut-off capacity setting unit according to a third embodiment of the present invention, wherein any one indoor unit of the plurality of indoor units provided with the cut-off capacity setting unit 10 ( 60 and the indoor unit 60, which is composed of the remaining indoor units 40, 50, n, and provided with the blocking capacity setting unit 10, includes a microcomputer 61 and a memory 62.

The indoor power type multi air conditioner receives power through any one indoor unit of the plurality of indoor units, and a method of receiving power from an outdoor power type multi air conditioner receiving power from an outdoor unit is different.

For this reason, the indoor power supply type multi air conditioner is provided with a breaking capacity setting unit for setting the breaking capacity according to the amount of current of the plurality of indoor units of any one of the plurality of indoor units.

Therefore, the microcomputer 61 for controlling the interruption capacity setting unit also uses the microcomputer 61 provided in any one indoor unit 60 of a plurality of indoor units.

That is, the microcomputer 31 of the outdoor unit for controlling the characteristics of each component of the cut-off capacity setting unit 10 and the cut-off capacity setting unit 10 provided in the indoor air-powered multi-air conditioner and the outdoor power-type multi-air conditioner. The characteristics of the microcomputer 61 of the indoor unit are also the same. Therefore, description thereof will be omitted.

4 is a flow chart for setting the blocking capacity of the multi-air conditioner according to the second embodiment of the present invention will be described with reference to FIG. In addition, the overcurrent blocking unit of the breaking capacity unit will be described using a fuse.

A multi air conditioner capable of connecting one to N indoor units in one outdoor unit is installed, and power is supplied to the multi air conditioner (101).

At this time, the multi-air conditioner supplied from the outside performs a trial run. When one indoor unit is installed, the amount of current flowing is 0.5A, but when 48 units are installed, the current amount is changed according to the number of indoor units installed.

Therefore, according to the change in the amount of current according to the number of the plurality of indoor units, the fuse having the optimum breaking capacity is selected, and power is supplied to the multi air conditioner through the selected fuse. This will be described in detail as follows.

During the commissioning of the multi-air conditioner, the microcomputer 31 of the outdoor unit sets the maximum breaking capacity, and controls ON the switch unit connected to the fuse which is an overcurrent blocking unit having the set maximum breaking capacity.

For example, if five fuses are installed with 100%, 80%, 60%, 40%, and 20% of the fuse capacity, the microcomputer will switch 100% of the fuse with the maximum breaking capacity during commissioning by switching on the switch. After selection, the trial run is performed at the maximum operating conditions.

At this time, after the switch unit corresponding to the maximum breaking capacity is turned on according to the control signal of the microcomputer 31, the operation of the plurality of indoor units 40, 50, n is controlled 103 so that the maximum current flows, and the plurality of indoor units 40, 50, The control signal is transmitted to the current sensor so as to sense the operating current amount of n).

Then, the current detecting unit measures the amount of current flowing through the plurality of indoor units 40, 50, and n under test in accordance with the control signal of the microcomputer 31 and transmits the measured amount to the microcomputer 31.

When the current amount of the plurality of indoor units 40, 50, n is transmitted from the current sensing unit, the microcomputer 31 sets and stores an optimum breaking capacity corresponding to the transmitted current amount and is connected to a fuse corresponding to the breaking capacity. The on-control signal is transmitted to the switch so that the switch is on-controlled.

According to the instructions of the microcomputer 31, the switch unit is turned on and the fuse of the set breaking capacity is selected 106 to receive external power through the selected fuse, and then operate the plurality of indoor units according to the mode set by the user and the manager 107. do.

If the number of the plurality of indoor units is changed, the changed plurality of indoor units are subjected to the trial run, and during the trial run, the microcomputer 31 of the outdoor unit sets the maximum breaking capacity and controls the switch unit connected to the fuse having the set maximum breaking capacity. do.

After the switch corresponding to the maximum breaking capacity is turned on according to the control signal of the microcomputer 31, the microcomputer 31 controls 103 the operation of the plurality of indoor units 40, 50, n changed so that the maximum current flows, and the changed plurality of microcomputers 31. The control signal is transmitted to the current sensing unit so as to sense the driving current amounts of the indoor units 40, 50, n.

At this time, the current detection unit measures the amount of current flowing through the plurality of indoor units 40, 50, n being commissioned in accordance with the control signal of the microcomputer 31, and transmits it to the microcomputer 31.

Next, when the current amount of the plurality of indoor units 40, 50, n changed from the current sensing unit is transferred, the microcomputer 31 resets and restores the optimal breaking capacity corresponding to the transmitted current amount 105 and corresponds to the breaking capacity. Retransmit the on control signal to the switch so that the switch connected to the fuse is on controlled.

Next, according to the instruction of the microcomputer 31, the multi-air conditioner is supplied with external power through the selected fuse by turning on the corresponding switch unit and reselecting the fuse of the set breaking capacity (106) according to the mode set by the user and the administrator. The indoor unit is driven (107).

In this way, after the breaking capacity setting unit is installed in the multi air conditioner, the plurality of indoor units are commissioned so that the maximum current flows, and at this time, by measuring the current amount of the plurality of indoor units and automatically setting the breaking capacity, The breaking capacity can be set.

1 is a block diagram showing a cut-off capacity setting system according to a first embodiment of the present invention.

2 is a block diagram of an outdoor power supply type multi air conditioner having a cut-off capacity setting unit according to a second embodiment of the present invention.

3 is a block diagram of an indoor power supply type multi air conditioner having a cut-off capacity setting unit according to a third embodiment of the present invention.

4 is a flow chart for setting the breaking capacity of the multi-air conditioner according to the second embodiment of the present invention.

* Description of symbols on the main parts of the drawings *

10: breaking capacity setting unit 12: current sensing unit

F1 to Fn: overcurrent cut-off part S1 to Sn: switch part

L, N: power supply 20: load

21, 31, 61: Micom 22, 32, 62: Memory

30: outdoor unit 40, 50, 60, n: indoor unit

Claims (6)

One outdoor unit; A plurality of indoor units connected to the outdoor unit; A microcomputer that sets a blocking capacity corresponding to the amount of trial run current of the plurality of indoor units; A plurality of overcurrent blocking units having different blocking capacities; And an interruption capacity setting unit for supplying external power to the indoor unit and the outdoor unit by connecting any one overcurrent blocking unit having the breaking capacity selected by the microcomputer to the indoor unit and the outdoor unit. The method of claim 1, wherein the blocking capacity setting unit Electrically connected to the microcomputer of the outdoor unit; A multi-air conditioner electrically connected to the microcomputer of any one of the plurality of indoor units. The method of claim 2, wherein the breaking capacity setting unit A current sensing unit which senses the amount of commissioning current of the plurality of indoor units and transmits the sensed current amount to the microcomputer; And a switch unit connected to each of the plurality of overcurrent blocking units and selectively connecting the overcurrent blocking unit corresponding to the breaking capacity set by the microcomputer to any one indoor unit or outdoor unit. The method of claim 3, wherein the blocking capacity setting unit And a plurality of overcurrent blocking units having different blocking capacities in parallel between the current sensing unit and the external power supply, and a switch unit connected in series to the plurality of overcurrent blocking units. The method of claim 3, wherein the microcomputer After the on-run control of the plurality of indoor units is controlled on the switch connected to the over-current blocking unit having the maximum breaking capacity, and controlling the trial run so that the maximum current flows to the plurality of indoor units, the breaking capacity corresponding to the amount of current transmitted from the current sensing unit A multi air conditioner for setting and controlling the switch unit connected to the over-current blocking unit having the breaking capacity. The method of claim 5, wherein the microcomputer When the number of the plurality of indoor units is changed, after switching on the switch unit connected to the overcurrent blocking unit having the maximum breaking capacity, the maximum operating current of the plurality of indoor units is sensed to set the breaking capacity corresponding to the detected current amount and set the breaking capacity. Multi air conditioner to control the switch unit connected to the overcurrent cut-off unit.

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