KR101919800B1 - Multi-airconditioner - Google Patents

Abstract

The present invention provides a multi-type air conditioner including at least one outdoor unit and a plurality of indoor units each having a power supply module and a communication module, wherein the communication module includes: a communication connection terminal formed to connect a communication line; A communication IC connected to the communication connection terminal and configured to transmit and receive a communication signal through the communication connection terminal; A voltage sensing unit for sensing a voltage supplied through the communication connection terminal; And a controller for selectively disconnecting the connection between the communication connection terminal and the communication IC based on the voltage sensed by the voltage sensing unit.

Description

Multi-airconditioner

The present invention relates to a multi-type air conditioner, and more particularly, to a multi-type air conditioner capable of detecting a misconnection of a communication line and a power line provided between an outdoor unit and an indoor unit to protect a communication circuit.

Generally, a multi-type air conditioner employs a system in which a plurality of indoor units are connected to one or more outdoor units, and a power line and a communication line are connected between the outdoor unit and the plurality of indoor units, and communication is performed according to a predetermined communication protocol through the communication line .

In addition, the outdoor unit may include an outdoor heat exchanger and at least one compressor, and the indoor unit may include an indoor heat exchanger and an indoor expansion valve.

A refrigerant pipe is provided between the outdoor unit and the plurality of indoor units, and the refrigerant can be circulated through the refrigerant pipe according to the refrigerant cycle.

In such a multi-type air conditioner, when the installer connects the communication line, the power supply line and the refrigerant pipe between the outdoor unit and the plurality of indoor units at the time of initial installation of the system, the utmost care must be taken to prevent miswiring. However, since there is a very complicated wiring characteristic between the outdoor unit and the indoor unit, miswiring may occur.

For example, a conventional multi-air conditioner (Korean Patent Laid-Open Publication No. 1996-0008198) discloses an apparatus for protecting a communication circuit when a power line and a communication line are erroneously connected.

In the conventional multi-type air conditioner, the protection device for protecting the communication circuit in the case of erroneous connection between the communication line and the power line is supplied to the communication circuit through the communication relay provided in the communication circuit even if the power line and the communication line are erroneously connected and the AC high voltage is supplied to the communication circuit The AC high voltage is cut off to protect the communication circuit.

However, in the protection apparatus disclosed in the conventional multi-air conditioner, if the power supply line and the communication line are erroneously connected to each other, the communication relay is not operated and the communication circuit is prevented from being broken by the AC power supply. However, When the AC power line is connected to the communication connection terminal, an excessive current flows through the noise protection device due to the operation of the communication relay, so that the communication circuit is destroyed and the communication line between the communication connection terminal and the noise protection device is also damaged have.

The present invention provides a multi-type air conditioner capable of protecting a communication circuit by shutting off an AC power supplied to a communication connection terminal even if a power line is simultaneously connected to a power connection terminal and a communication connection terminal .

Another object of the present invention is to provide a multi-type air conditioner capable of detecting AC power supplied to two communication lines to more reliably block the AC power input to the communication connection terminal.

The present invention provides a multi-type air conditioner including at least one outdoor unit and a plurality of indoor units each having a power supply module and a communication module, Connection terminal; A communication IC connected to the communication connection terminal and configured to transmit and receive a communication signal through the communication connection terminal; A voltage sensing unit for sensing a voltage supplied through the communication connection terminal; And a controller for selectively disconnecting the connection between the communication connection terminal and the communication IC based on the voltage sensed by the voltage sensing unit.

The communication module includes: a communication connection line connecting the communication connection terminal and the communication IC; And a relay provided on the communication connection line. At this time, the voltage sensing unit may be configured to sense a voltage applied to the communication connection line.

The relay includes a first contact provided on the communication connection terminal side at a short-circuit portion of the communication connection line; A second contact provided on the communication IC side in a short-circuit part of the communication connection line; A third contact spaced apart from the first contact and the second contact and connected to the voltage sensing unit; And a switch unit pivotably connected to one of the second contact and the third contact with respect to the first contact.

The communication connection terminal may include a first terminal and a second terminal to which a communication line is connected. Here, the communication line may include a first communication line connecting the first terminal to the communication IC, and a second communication line connecting the second terminal to the communication IC.

The relay may include a first relay provided in the first communication connection line and a second relay provided in the second communication connection line.

The voltage sensing unit may be connected to the first relay and the second relay, respectively.

The voltage sensing unit may be connected to a third contact provided in each of the first relay and the second relay.

Preferably, the first relay and the second relay are initially kept off.

When the first relay and the second relay are in the OFF state, the switch unit provided respectively to the first relay and the second relay can be pivoted toward the third contact. That is, when the first relay and the second relay are in the OFF state, the switch unit may be pivoted such that the free end of the switch unit contacts the third contact with respect to the first contact.

The controller may maintain the first relay or the second relay in the off state when the predetermined AC voltage is sensed by the voltage sensing unit.

The controller may maintain both the first relay and the second relay in an off state when the predetermined AC voltage is sensed in the voltage sensing unit.

The multi-type air conditioner according to an embodiment of the present invention may further include a display unit that is controlled by the control unit to display error information when the voltage sensed by the voltage sensing unit is a predetermined AC voltage. At this time, the display unit may be provided in the communication module. Alternatively, the display unit may be exposed to the outside from the outdoor unit and the indoor unit.

According to the present invention, it is possible to provide a multi-type air conditioner that can protect the communication circuit by shutting off the AC power supplied to the communication connection terminal even if the power line is simultaneously connected to the power connection terminal and the communication connection terminal.

1 is a view showing a multi-type air conditioner according to an embodiment of the present invention.
Fig. 2 is a view for explaining a state in which a misconnection between a communication line and a power supply line occurs in the multi-type air conditioner of Fig. 1. Fig.
3 is a view showing a communication module provided in each of the outdoor unit and the indoor unit.

Hereinafter, a multi-type air conditioner according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

In addition, the same or corresponding components are denoted by the same reference numerals regardless of the reference numerals, and the sizes and shapes of the components shown in the drawings may be exaggerated or reduced for convenience of explanation.

1 is a view showing a multi-type air conditioner according to an embodiment of the present invention.

Referring to FIG. 1, a multi-type air conditioner 10 according to an embodiment of the present invention may include at least one outdoor unit 20 and a plurality of indoor units 30. In the illustrated embodiment, the plurality of indoor units 30 may include first to fourth indoor units 30a to 30d.

The outdoor unit 20 and the plurality of indoor units 30 include a power supply unit 100 for receiving power from the outside and a communication module 200 for communication between the outdoor unit 20 and the plurality of indoor units 30 .

That is, the outdoor unit 20 is provided with the power supply unit 100 and the communication module 200, and the power supply unit 100 and the communication module 200 may be provided in each of the plurality of indoor units 30.

The power supply unit 100 may be configured to convert the AC power input from the power connection terminal 150 to a DC power source (for example, 12 V and / or 5 V) necessary for controlling the multi-type air conditioner.

The power connection terminal 150 and the power supply unit 100 may be electrically connected to each other through a power line 170. That is, the AC power supplied through the power connection terminal 150 may be supplied to the power supply unit 100 through the power line 170.

The communication module 200 may be connected to each other via a communication line 180. That is, the communication module 200 provided in each of the outdoor unit 20 and the plurality of indoor units 300 may be electrically connected to each other through the communication line 180.

The voltage applied through the power connection terminal 150 and the power supply unit 100 may be a preset AC voltage (for example, 220 V). Alternatively, the communication module 200 needs to be applied with a communication voltage (for example, 5 V and / or 12 V) lower than the AC voltage.

When an AC voltage is applied to the communication module 200 due to miswiring of the power line 170 and the communication line 180 described above, a communication circuit board (hereinafter referred to as " Communication IC ") may be damaged.

If the communication IC is damaged, the entire communication module 200 needs to be replaced, so that the maintenance cost can be increased.

Particularly, in the multi-type air conditioner 10, a considerable number of the power lines 170 and the communication lines 180 must be connected, so that the power lines 170 and the communication lines 180 may be frequently misconnected .

For example, FIG. 2 shows a state where a misconnection between a communication line and a power supply line occurs in the multi-type air conditioner of FIG.

Referring to FIG. 2, a communication line 180 is connected between the second indoor unit 30b and the third indoor unit 30c. That is, there is no problem if the communication line 180 from the second indoor unit 30b and the communication line 180 from the third indoor unit 30c are connected to each other.

However, it can be assumed that the communication line 180 from the second indoor unit 30b is connected to the power line 170 as shown in FIG.

In this case, an AC voltage may be applied to the communication module 200 provided in the second indoor unit 30b, and the communication module 200 may be damaged. That is, if an AC voltage higher than the communication voltage is applied to the communication module 200, a communication IC to be described later of the communication module 200 may be damaged.

Therefore, in order to prevent damage to the communication module 200 when the power line 170 and the communication line 180 are miswired, a structure capable of preventing an AC voltage from being applied to the communication module 200 is required .

Hereinafter, the structure of the communication module 200 capable of preventing an AC voltage from being applied to the communication IC provided in the communication module 200 will be described with reference to other drawings.

3 is a view showing a communication module provided in each of the outdoor unit and the indoor unit.

As described above, the communication module 200 may be provided in the outdoor unit 20 and the indoor unit 30, and all the communication modules 200 may be connected through the communication line 180. For example, the communication line 180 may be provided between the adjacent outdoor units 20 and the indoor units 30, and between the neighboring two indoor units 30.

3, the communication module 200 includes a communication connection terminal 210 to which a communication line 180 is connected, a communication IC 220 to transmit and receive a communication signal through the communication connection terminal 210, A voltage sensing unit 230 that senses a voltage supplied through the communication terminal 210 and a voltage sensing unit 230 that selectively outputs a voltage between the communication connection terminal 210 and the communication IC 220 based on a voltage sensed by the voltage sensing unit 230. [ And a control unit (C) for connection.

The communication connection terminal 210 may be formed to connect the communication line 180 to the communication module 200. The communication connection terminal 210 may connect two communication lines 180 to the communication module 200.

For example, the communication connection terminal 210 may include a first terminal 211 and a second terminal 212 to which the communication line 180 is connected. The communication line 180 may be connected to the first terminal 211 and the second terminal 212, respectively.

The communication IC 220 may be configured to transmit and receive a communication signal through the communication connection terminal 210 and the communication line 180.

The voltage sensing unit 230 may be configured to sense a voltage input through the communication connection terminal 210. For example, when the communication line 180 is connected to the communication connection terminal 210, the voltage sensing unit 230 may sense the communication voltage. Alternatively, when the power supply line 170 is connected to the communication connection terminal 210, the voltage sensing unit 230 may sense the AC voltage.

The control unit C may selectively connect the communication connection terminal 210 and the communication IC 220 based on the voltage sensed by the voltage sensing unit 230.

For example, when the AC voltage is sensed by the voltage sensing unit 230, the controller C may cut off the electrical connection between the communication connection terminal 210 and the communication IC 220. Alternatively, when the communication voltage is sensed by the voltage sensing unit 230, the controller C may electrically connect the communication connection terminal 210 and the communication IC 220 to each other.

Therefore, even if a misconnection between the communication line 180 and the power line 170 occurs, the electrical connection between the communication connection terminal 210 and the communication IC 220 is cut off, and the AC voltage is applied to the communication IC 220 The damage of the communication IC 220 can be prevented.

Specifically, the communication module 200 includes communication lines 241 and 242 connecting the communication connection terminal 210 and the communication IC 220, and a relay 250 provided in the communication connection lines 241 and 242, As shown in FIG.

That is, the relay 250 may be provided between the communication connection terminal 210 and the communication IC 220. The communication connection terminal 210 and the communication IC 220 can be selectively connected based on the operation of the relay 250. [

The communication connection lines 241 and 242 are short-circuited (or separated) at a portion where the relay 250 is installed. The short-circuited portions of the communication connection lines 241 and 242 may be selectively connected through the relay 250. [

The voltage sensing unit 230 senses a voltage applied to the relay 250. That is, a voltage applied to the relay 250 through the communication connection terminal 210 may be sensed through the voltage sensing unit 230.

Therefore, even if the power supply line 170 is connected to the communication connection terminal 210, the AC voltage can be cut off by the relay 250 before being applied to the communication IC 220.

More specifically, the relay 250 includes a first contact 251 provided on the communication connection terminal 210 side, a second contact 252 provided on the communication IC 220 side, A third contact 253 separated from the second contact 252 and connected to the voltage sensing unit 230 and a second contact 253 connected to the second contact 252 and the second contact 254, And a switch unit 254 pivotally connected to one side of the third contact point 253.

The free end of the switch unit 254 may contact the third contact 253 when the relay 250 is off. That is, the switch unit 254 can be pivoted toward the third contact 253 with respect to the first contact 251 in the off state of the relay 250. [

For example, the relay 250 may be initially kept off. When the AC voltage is sensed by the voltage sensing unit 230, the controller C may keep the relay 250 in the off state.

Therefore, even if an AC voltage is applied to the communication connection terminal 210 due to miswiring, the AC voltage is not applied to the communication IC 220, so that the communication IC 220 can be prevented from being damaged.

Alternatively, when the voltage sensing unit 230 senses the communication voltage, the controller C may switch the relay 250 to the ON state. Here, the ON state may mean that the free end of the switch unit 254 is in contact with the second contact 252.

That is, the switch unit 254 can be pivoted toward the second contact 253 with respect to the first contact 251 in the ON state of the relay 250. [ The shorted parts of the communication connection lines 241 and 242 can be electrically connected by the relay 250 in the ON state.

The communication connection lines 241 and 242 include a first communication connection line 241 for connecting the first terminal 211 to the communication IC and a second communication connection line 241 for connecting the second terminal 212 to the communication IC 2 communication connection line 242. [

The relay 250 may include a first relay 250a provided in the first communication connection line 241 and a second relay 250b provided in the second communication connection line 242. [

That is, the first relay 250a may be disposed at a short-circuit portion of the first communication connection line 241, and the second relay 259b may be disposed at a short-circuit portion of the second communication connection line 242. The first relay 250a and the second relay 250b may include the first contact 251, the second contact 252, the third contact 253, and the switch unit 254, respectively .

The voltage sensing unit 230 may be connected to the first relay 250a and the second relay 250b, respectively. That is, the third contact 253 provided to each of the first relay 250a and the second relay 250b may be electrically connected to the voltage sensing unit 230.

Therefore, when the AC voltage is sensed by the voltage sensing unit 230, the first relay 250a and the second relay 250b may be kept off. That is, when the AC voltage is sensed by the voltage sensing unit 230, the controller C may maintain both the first relay 250a and the second relay 250b in an off state.

Alternatively, if the voltage sensing unit 230 senses a communication voltage, the first relay 250a and the second relay 250b may all be turned on. After the first relay 250a and the second relay 250b are all turned on, the switch unit 254 is disconnected from the third contact 253, No voltage may be applied.

Meanwhile, there is a prior art in which a known configuration such as a blocking capacitor is applied to one of the two communication connection lines 241 and 242. However, in this case, an AC voltage is applied to the communication IC at the initial stage of application of the AC voltage, There is a problem.

Alternatively, when the first relay 250a and the second relay 250b are respectively provided in the two communication connection lines 241 and 242 as in the present invention, even if an AC voltage is input to the communication connection terminal, It may not be applied to the communication IC 220 at all.

Meanwhile, when a plurality of indoor units 30 are connected to the outdoor unit 20, a communication error may occur due to various communication impedances due to various resistances provided on the communication signal path.

According to the present invention, since the internal voltage (not shown) of the voltage sensing unit does not affect the communication signal transmission in the ON state of the relay, the communication impedance may vary depending on the number of the indoor units 30 connected to the outdoor unit 20 There is no.

In order to prevent the AC voltage from being applied to the communication IC 220 at the time when the communication line 180 and the power line 170 are erroneously connected, the relay 250 is preferably initially kept in the off state . That is, the first relay 250a and the second relay 250b may be controlled by the controller C so that the first relay 250a and the second relay 250b are initially kept off.

Here, the initial state may be a state before the AC voltage and the communication voltage are applied to the communication connection terminal 210. [ That is, the initial state may be a state before the power line 170 and the communication line 180 are connected. In other words, the initial state may be a state before the voltage sensing unit 230 senses any voltage (i.e., no voltage is sensed).

The relay 250 can maintain the off state or switch to the on state based on a command from the control unit C in the initial off state.

More specifically, when the first relay 250a and the second relay 250b are in the off state, the switch unit 254 provided in the first relay 250a and the second relay 250b, respectively, And can be pivoted toward the third contact 253.

That is, when the first relay 250a and the second relay 250b are in the off state, the switch unit 254 provided in the first relay 250a is connected to the first relay 250a, 3 contact 253 and the switch unit 254 provided in the second relay 250b may be pivoted toward the third contact 253 of the second relay 250b.

Accordingly, when the first relay 250a and the second relay 250b are off, the third contact 253 provided to the first relay 250a and the second relay 250b, respectively, And may be electrically connected to the voltage sensing unit 230. At this time, the communication connection terminal 210 and the communication IC 220 can be electrically separated.

When the communication line 180 is connected to the communication connection terminal 210, the voltage sensing unit 230 may sense a predetermined communication voltage. Alternatively, when the power line 170 is connected to the communication connection terminal 210, the voltage sensing unit 230 may sense a predetermined AC voltage. That is, when the power line 170 is connected to the communication connection terminal 210 by miswiring, the predetermined voltage may be sensed by the voltage sensing unit 230.

When the AC voltage is detected by the voltage sensing unit 230, the first relay 250a or the second relay 250b may be kept off. That is, the voltage sensed by the voltage sensing unit 240 is transmitted to the control unit C, and when the AC sensing unit 240 senses the AC voltage, the control unit C controls the first relay 250a or the second relay 250a, The second relay 250b can be kept in the off state. In other words, when the AC voltage is sensed by the voltage sensing unit 240, the controller C may maintain at least one of the first relay 250a and the second relay 250b in an off state.

Therefore, even if an AC voltage is applied to the communication connection terminal 210 by miswiring, the communication connection terminal 210 and the communication IC 220 are electrically disconnected so that the AC voltage is not applied to the communication IC 220, Breakage of the communication IC 220 due to voltage can be prevented.

Meanwhile, when an AC voltage is applied to the communication connection terminal 210, if one of the first relay 250a and the second relay 250b malfunctions, an AC voltage is applied to the communication IC 220 There is a concern.

For example, it can be assumed that the first relay 250a malfunctions and is always kept in the on state. In this case, even if the AC voltage is applied to the communication connection terminal 210 and the control unit C transmits a control command in the off state to the first relay 250a, the first relay 250a is maintained in an on state by a malfunction .

The first relay 250a and the second relay 250b may be connected to each other in order to more reliably prevent the AC voltage from being applied to the communication IC 220 when the AC voltage is applied to the communication connection terminal 210. [ ) Are all kept in the off state.

That is, when the AC voltage is sensed by the voltage sensing unit 230, the controller C may keep both the first relay 250a and the second relay 250b off.

In the meantime, the multi-type air conditioner 10 according to the embodiment of the present invention may further include a display unit 260. The display unit 260 may be included in the communication module 200. That is, the display unit 260 may be provided in each communication module 200.

For example, the display unit 260 may be disposed outside the outdoor unit 20 and the indoor unit 30, respectively. Alternatively, the display unit 260 may be disposed on one side of the communication connection terminal 210 in the outdoor unit 20 and the indoor unit 30. [

The display unit 260 may be configured to display error information when the voltage sensed by the voltage sensing unit 230 is a predetermined AC voltage. That is, the controller C may control the display unit 260 to display the error information on the display unit 260 when the voltage sensed by the voltage sensing unit 230 is a predetermined AC voltage.

The error information displayed on the display unit 260 may include information on at least one of an outdoor unit and an indoor unit to be mis-connected and information of a voltage value sensed by the voltage sensing unit 230.

Accordingly, the user can easily determine whether the power line 170 and the communication line 180 are misconnected through the display unit 260. [

As described above, according to the present invention, it is possible to prevent the communication IC 220 from being damaged due to the application of the AC voltage even when a miswiring between the power line 170 and the communication line 180 occurs.

Also, according to the present invention, the user can easily recognize the occurrence position of the miswiring and the reason for the misconnection through the display unit 260. [

The foregoing description of the preferred embodiments of the present invention has been presented for purposes of illustration and various modifications, additions and substitutions are possible, without departing from the scope and spirit of the invention, And additions should be considered as falling within the scope of the following claims.

100 power supply 200 communication module
210 Communication connection terminal 220 Communication circuit board (communication IC)
230 voltage sensing part 250 relay

Claims (12)

A multi-type air conditioner comprising at least one outdoor unit and a plurality of indoor units each having a power supply unit and a communication module,
The communication module includes:
A communication connection terminal formed to connect a communication line;
A communication IC connected to the communication connection terminal and configured to transmit and receive a communication signal through the communication connection terminal;
A voltage sensing unit having an internal resistance and sensing a voltage supplied through the communication connection terminal;
A communication connection line connecting the communication connection terminal and the communication IC;
A relay provided in the communication connection line; And
And a control unit selectively disconnecting a connection between the communication connection terminal and the communication IC based on the voltage sensed by the voltage sensing unit,
The relay includes a first contact provided on the communication connection terminal side at a short-circuit portion of the communication connection line; A second contact provided on the communication IC side in a short-circuit part of the communication connection line; A third contact spaced apart from the first contact and the second contact and connected to the voltage sensing unit; And a switching unit pivotably connected to one of the second contact and the third contact with respect to the first contact. delete delete The method according to claim 1,
Wherein the communication connection terminal has a first terminal and a second terminal to which a communication line is connected,
Wherein the communication connection line includes a first communication connection line connecting the first terminal to the communication IC and a second communication connection line connecting the second terminal to the communication IC. 5. The method of claim 4,
Wherein the relay includes a first relay provided on the first communication connection line and a second relay provided on the second communication connection line. 6. The method of claim 5,
And the voltage sensing unit is connected to the first relay and the second relay, respectively. The method according to claim 6,
Wherein the voltage sensing unit is connected to a third contact provided in each of the first relay and the second relay. 6. The method of claim 5,
Wherein the first relay and the second relay are initially kept in an off state. 9. The method of claim 8,
Wherein when the first relay and the second relay are in the OFF state, the switch unit provided respectively in the first relay and the second relay is pivoted toward the third contact. 9. The method of claim 8,
Wherein the controller is configured to maintain the first relay or the second relay in an off state when a preset AC voltage is sensed by the voltage sensing unit. 9. The method of claim 8,
Wherein the control unit maintains both the first relay and the second relay in an off state when a predetermined AC voltage is sensed by the voltage sensing unit. The method according to claim 1,
Further comprising: a display unit, which is controlled by the controller to display error information when the voltage sensed by the voltage sensing unit is a preset AC voltage.

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