JP2013133974A - Multi-type air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multi-type air conditioner for operating a plurality of indoor units by an inexpensive method without deteriorating amenity or convenience.SOLUTION: A multi-type air conditioner includes: connecting a commercial AC power supply 8 to an outdoor unit 1, and supplying power to an indoor unit A9 and an indoor unit B10 via an indoor-outdoor connecting line A11 and an indoor-outdoor connecting line B12; performing signal transmission between a communication means C4 of the outdoor unit 1 and a communication means A23 of the indoor unit A9 via an indoor-outdoor connecting line C13 and an indoor-outdoor connecting line D14; performing signal transmission between a communication means D5 of the outdoor unit 1 and a communication means B33 of the indoor unit B10 via the indoor-outdoor connecting line C13 and the indoor-outdoor connecting line D14; and providing a simultaneous operation setting means 7 in the outdoor unit 1 so that the start of operations of the indoor unit A9 and indoor unit B10 set as a group by the simultaneous operation setting means 7 can be simultaneously performed.

Description

  The present invention relates to a multi-type air conditioner in which a plurality of indoor units are connected to a single outdoor unit.

  FIG. 6 is a configuration diagram of an air conditioner in the prior art. As shown in FIG. 6, the conventional air conditioner is connected to a commercial power supply 116 and has an outdoor unit 101 including a control unit 104, a communication unit 107, and a power supply unit 110, a control unit 111, a communication unit 108, and a power supply unit. 105, an indoor unit 102 including a remote controller 114, and an indoor unit 103 including a control unit 112, a communication unit 109, a power supply unit 106, and a remote controller 115, and the outdoor unit 101, the indoor unit 102, and the indoor unit 103 are connected indoors and outdoors. It is a multi-type air conditioner connected by a connection line 113. Moreover, the indoor unit 102 and the indoor unit 103 are connected to a centralized control remote controller 117. In such a configuration, in order to operate the indoor unit 102 and the indoor unit 103 in the same mode, the remote controller 114 transmits an operation start signal to the indoor unit 102 and causes the indoor unit 103 to operate. An operation start signal is transmitted to drive the vehicle. Alternatively, the central control remote controller 117 connected to the indoor unit 102 and the indoor unit 103 sets the indoor unit 102 and the indoor unit 103 as a group, and transmits an operation start signal from the central control remote controller 117 to operate. (For example, refer to Patent Document 1).

JP 2009-186144 A

  However, in the conventional configuration, when operating a plurality of connected indoor units in the same operation mode, it is necessary to transmit an operation start signal to each indoor unit. Also, when starting operation of indoor units connected to multiple units using a centralized control remote controller, set the address to the connected indoor units and set the indoor units to be operated in a group, and send an operation start signal from the centralized control remote controller. There was a need to send. For this reason, labor and time are required for transmitting operation start signals to indoor units connected to multiple units, and expensive centralized remote controllers are connected, requiring complicated wiring and address settings. It was.

  The present invention solves the above-described conventional problems. When a plurality of connected indoor units are started to operate in the same operation mode, a plurality of indoor units are transmitted by transmitting an operation start signal from a remote controller to one indoor unit. The multi-type air conditioner can be operated in the same operation mode, and multiple indoor units can be operated in an inexpensive manner without impairing the comfort and convenience of the multi-type air conditioner. The purpose is to do.

In order to solve the above-described conventional problems, a multi-type air conditioner of the present invention includes an indoor unit A including a power supply unit A, a control unit A, and a communication unit A, a power unit B, a control unit B, and a communication unit B. An indoor unit B including a power source unit C, a control unit C, a communication unit C, and an outdoor unit including a communication unit D. A commercial AC power source is connected to the outdoor unit, and indoor and outdoor connection lines A and B are connected to each other. Power is supplied to the indoor unit A and the indoor unit B through the signal transmission between the communication unit C of the outdoor unit and the communication unit A of the indoor unit A. The signal transmission between the communication means D of the outdoor unit and the communication means B of the indoor unit B is performed through the indoor / outdoor connection lines C and D, and is performed simultaneously with the outdoor unit. An operation setting means is provided, and the indoor unit A group-set by the simultaneous operation setting means It is obtained to perform the start operation of the serial indoor unit B at the same time.

  Thus, when the operation start signal is transmitted to the indoor unit A, the indoor unit B set as the simultaneous operation setting unit of the outdoor unit can be automatically started in the same operation mode as the indoor unit A. It is.

  The outdoor unit is provided with simultaneous stop / individual stop setting means, and the indoor unit A and the indoor unit B set in the group by the simultaneous stop / individual stop setting means are stopped simultaneously or individually. It is a thing.

  As a result, when the operation stop signal is transmitted to the indoor unit A, when the indoor unit B is set to the simultaneous stop setting by the simultaneous stop / individual stop setting means, the indoor unit B also stops the operation at the same time. When the individual stop setting is selected for the machine B, only the indoor unit A can be stopped.

  The multi-type air conditioner of the present invention transmits an operation start signal by a remote controller to one indoor unit among a plurality of indoor units connected to the outdoor unit by group setting by the simultaneous operation setting means provided in the outdoor unit. Then, it becomes possible to automatically start all indoor units set as a group in the same operation mode.

  In addition, by group setting by the simultaneous stop / individual stop setting means provided in the outdoor unit, when simultaneous stop is set, an operation stop signal is transmitted from the remote controller to one of the indoor units connected to the outdoor unit. Then, all the indoor units set in the group are stopped at the same time, and when the individual stop setting is selected, the operation is stopped by sending an operation stop signal to one of the indoor units connected to the outdoor unit. Only the indoor unit to which the signal is transmitted can be stopped.

  In this way, it is possible to start and stop an indoor unit connected to a plurality of outdoor units with a single remote control operation, and it is troublesome to transmit an operation start signal and an operation stop signal for each indoor unit. This eliminates the need for expensive centralized remote control connections and complicated address setting and wiring, and allows group setting by an inexpensive method.

The block diagram of the air conditioner in Embodiment 1 of this invention (A) Timing chart of operation start when indoor unit group setting of the air conditioner is set (b) Timing chart of operation start when indoor unit group setting of the air conditioner is not set (A) Timing chart of setting change when setting indoor unit group of same air conditioner (b) Timing chart of setting change when indoor unit group setting of same air conditioner is not set The block diagram of the air conditioner in Embodiment 2 of this invention (A) Timing chart of operation stop when setting indoor unit group of the air conditioner (b) Timing chart of operation stop when no indoor unit group setting of the air conditioner Configuration diagram of air conditioner in the prior art

1st invention is the indoor unit A provided with the power supply part A, the control part A, and the communication means A, the indoor unit B provided with the power supply part B, the control part B, and the communication means B, the power supply part C, and the control part C, an outdoor unit provided with communication means C and communication means D, a commercial AC power source is connected to the outdoor unit, and electric power is supplied to the indoor unit A and the indoor unit B via the indoor / outdoor connection lines A and B, respectively. And the signal transmission between the communication means C of the outdoor unit and the communication means A of the indoor unit A via the indoor / outdoor connection lines C and D, and the communication means of the outdoor unit B and the communication means B of the indoor unit B are transmitted through the indoor / outdoor connection lines C and D, and a simultaneous operation setting unit is provided in the outdoor unit. The start of the operation of the set indoor unit A and the indoor unit B is performed simultaneously. By using a multi-type air conditioner, multiple indoor units set as a group can operate all indoor units in the same operation mode by operating a remote control on any indoor unit. It is possible to start and stop the operation of multiple indoor units connected to the outdoor unit with a single remote control operation. This eliminates the need for expensive centralized remote control connections and complicated address setting and wiring, and enables group setting by an inexpensive method.

  According to a second aspect of the present invention, in the multi-type air conditioner of the first aspect, the operation settings of the indoor unit A and the indoor unit B set by the simultaneous operation setting unit are simultaneously changed. A plurality of indoor units set as a group can change the operation settings of all the indoor units at the same time by performing remote control operation on any indoor unit.

  According to a third aspect of the present invention, in the multi-type air conditioner of the first or second aspect, the outdoor unit is provided with simultaneous stop / individual stop setting means, and the simultaneous stop / individual stop setting means is group-set. The operation of the indoor unit A and the indoor unit B is stopped simultaneously or individually. By simultaneous setting of the simultaneous stop / individual stop setting means provided in the outdoor unit, multiple units are connected to the outdoor unit at the time of simultaneous stop setting. When an operation stop signal is sent to one of the indoor units using the remote control, all indoor units set in the group are stopped simultaneously, and multiple units are connected to the outdoor unit when individual stop setting is selected. When an operation stop signal is transmitted to one of the indoor units, only the indoor unit that has received the operation stop signal can be stopped.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a diagram showing a configuration of a multi-type air conditioner according to a first embodiment of the present invention, FIG. 2 (a) is a timing chart of operation start when an indoor unit group of the air conditioner is set, and FIG. 2 (b) is a timing chart of operation start when there is no indoor unit group setting of the air conditioner, FIG. 3 (a) is a timing chart of setting change when setting the indoor unit group of the air conditioner, FIG. (B) is a timing chart of a setting change when there is no indoor unit group setting of the air conditioner.

  In FIG. 1, the outdoor unit 1 includes a control unit C2, a power supply unit C3, a communication unit C4, a communication unit D5, a microcomputer C6 provided in the control unit C2, and a simultaneous operation setting unit 7.

  The indoor unit A9 provided in the A room includes a control unit A15, a microcomputer A16 provided in the control unit A15, a power supply unit A18, a diode bridge A19 provided in the power supply unit A18, a transformer A20, and an electrolytic capacitor. A21, constant voltage power supply A22, and communication means A23 are provided. The indoor unit A9 is operated by the remote controller A24.

  The indoor unit B10 provided in the room B includes a control unit B26, a microcomputer B27 provided in the control unit B26, a power supply unit B28, a diode bridge B29 provided in the power supply unit B28, a transformer B30, an electrolytic capacitor B31, a constant capacitor. A voltage power source B32 and a communication means B33 are provided. The indoor unit B10 is operated by the remote controller B25.

  The power supply unit C3 of the outdoor unit 1 is connected to the commercial AC power supply 8, and the power supply unit A18 and the indoor unit B10 of the indoor unit A9 are connected to the commercial AC power supply 8 through the indoor / outdoor connection line A11 and the indoor / outdoor connection line B12. Is connected to the power supply unit B28.

  The communication means C4 of the outdoor unit 1 is connected to the communication means A23 via the indoor / outdoor connection line C13, and the communication means D5 of the outdoor unit 1 is connected to the communication means B33 via the indoor / outdoor connection line D14. Has been.

  About the multi-type air conditioner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

  The outdoor unit 1 connected to the commercial AC power supply 8 supplies power to the power supply unit A18 of the indoor unit A9 and the power supply unit B28 of the indoor unit B10 through the indoor / outdoor connection line A11 and the indoor / outdoor connection line B12. The power supply unit A18 of the indoor unit A9 and the power supply unit B28 of the indoor unit B10 output NR voltages obtained by converting AC power into DC power by the diode bridge A19 and the transformer A20, and the diode bridge B29 and the transformer B30, respectively. The NR voltage is input to the constant voltage power supply A22 and the constant voltage power supply B32, and outputs 5V voltage for operation of the microcomputer A16, the communication means A23, the microcomputer B27, and the communication means B33, and the control section A15, the communication means A23, the control section. B26 and communication means B33 are operated.

  The control unit C2 of the outdoor unit 1 includes the control unit A15 of the indoor unit A9 via the communication unit C4 and the communication unit D5, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, the communication unit A23, and the communication unit B33. Signals such as operation information are transmitted to the control unit B26 of the indoor unit B10.

  Here, in the simultaneous operation setting means 7 connected to the control unit C2 of the outdoor unit 1, a switch (not shown) for performing group setting so that the indoor unit A9 and the indoor unit B10 are grouped is turned on.

  First, the operation at the start of operation will be described with reference to FIG.

  When an operation start signal is transmitted to the indoor unit A9 by the remote controller A24, the outdoor unit 1 passes through the communication means A23 of the indoor unit A9, the indoor / outdoor connection line B12 and the indoor / outdoor connection line C13, and the communication means C4 of the outdoor unit 1. The control unit C2 of the outdoor unit 1 transmits a signal to the communication unit D5 of the outdoor unit 1, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, and the communication unit B33 of the indoor unit B10. The operation start signal is transmitted to the control unit B26 of the indoor unit B10. Thereby, indoor unit B10 starts an operation | movement automatically in the same operation mode as indoor unit A9.

  When an operation start signal is transmitted to the indoor unit B10 by the remote controller B25, the outdoor unit passes through the communication unit B33 of the indoor unit B10, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, and the communication unit D5 of the outdoor unit 1. Signals are transmitted to the control unit C2 of the unit 1, and the communication unit C4 of the outdoor unit 1, the indoor / outdoor connection line B12 and the indoor / outdoor connection line C13, and the communication unit of the indoor unit A9 are transmitted from the control unit C2 of the outdoor unit 1 An operation start signal is transmitted to the control unit A15 of the indoor unit A9 through A23. Thereby, indoor unit A9 starts an operation automatically in the same operation mode as indoor unit B10.

  On the other hand, the operation when the group setting switch is turned off so that the indoor unit A9 and the indoor unit B10 are grouped together will be described with reference to FIG.

When the operation start signal is transmitted to the indoor unit A9 by the remote controller A24, only the indoor unit A9 starts operation, and the indoor unit B10 does not start operation. When an operation start signal is transmitted to the indoor unit 10B from the remote controller B25, only the indoor unit 10B starts operation, and the indoor unit A9 does not start operation.

  Next, the operation | movement in a driving | operation setting change is demonstrated using Fig.3 (a).

  When the operation setting change signal is transmitted to the indoor unit A9 by the remote controller A24, the outdoor unit passes through the communication means A23 of the indoor unit A9, the indoor / outdoor connection line B12 and the indoor / outdoor connection line C13, and the communication means C4 of the outdoor unit 1. 1 is transmitted to the control unit C2, and the communication unit D5 of the outdoor unit 1, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, and the communication unit B33 of the indoor unit B10 are transmitted from the control unit C2 of the outdoor unit 1. Then, an operation setting change signal is transmitted to the control unit B26 of the indoor unit B10. Thereby, indoor unit B10 is automatically changed to the same operation mode as indoor unit A9.

  When the operation setting change signal is transmitted to the indoor unit B10 by the remote controller B25, the communication unit B33 of the indoor unit B10, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, and the communication unit D5 of the outdoor unit 1 are used. Signals are transmitted to the control unit C2 of the outdoor unit 1, and the communication unit C4 of the outdoor unit 1, the internal / external connection line B12 and the indoor / outdoor connection line C13, and the communication unit of the indoor unit A9 are transmitted from the control unit C2 of the outdoor unit 1. An operation setting change signal is transmitted to the control unit A15 of the indoor unit A9 through A23. Thereby, the indoor unit A9 is automatically changed to the same operation mode as the indoor unit B10.

  On the other hand, the operation when the group setting switch is turned off so that the indoor unit A9 and the indoor unit B10 are grouped together will be described with reference to FIG.

  When the operation setting change signal is transmitted to the indoor unit A9 by the remote controller A24, the operation mode of only the indoor unit A9 is changed, and the operation mode of the indoor unit B10 is not changed. When the operation setting change signal is transmitted to the indoor unit 10B by the remote controller B25, only the indoor unit 10B has its operation mode changed, and the indoor unit A9 has no operation mode change.

  Here, the simultaneous operation setting means refers to a setting switch provided on a printed circuit board or the like. Note that the number of indoor units to be connected is not limited to two.

  The present invention is a multi-type air conditioner that connects a plurality of indoor units, and starts operation in the same operation mode for a plurality of indoor units that are group-set by a single remote control operation by simultaneous operation setting means provided in the outdoor unit. It is also possible to change the operation settings of multiple indoor units set as a group with a single remote control operation, so there is no need to perform remote control operations for each indoor unit, and an expensive centralized control remote control In addition, it is possible to perform group control by an inexpensive method without requiring complicated wiring and user convenience.

(Embodiment 2)
FIG. 4 is a diagram showing the configuration of the multi-type air conditioner according to the second embodiment of the present invention, FIG. 5A is a timing chart of operation stop when setting the indoor unit group of the air conditioner, and FIG. FIG. 5B is a timing chart of operation stop when there is no indoor unit group setting of the air conditioner.

  In FIG. 4, the outdoor unit 1 is provided with a simultaneous stop / individual stop setting means 17. The same components as those in the first embodiment are denoted by the same reference numerals and description thereof is omitted.

About the multi-type air conditioner comprised as mentioned above, the operation | movement and an effect | action are demonstrated below.

  A switch (not shown) for performing group setting so that the simultaneous stop / individual stop setting means 17 connected to the control unit C2 of the outdoor unit 1 makes a single group for simultaneously stopping the indoor unit A9 and the indoor unit B10. Turn on.

  The operation when the operation is stopped will be described with reference to FIG.

  When the operation stop signal is transmitted to the indoor unit A9 by the remote controller A24, the outdoor unit 1 passes through the communication means A23 of the indoor unit A9, the indoor / outdoor connection line B12 and the indoor / outdoor connection line C13, and the communication means C4 of the outdoor unit 1. The control unit C2 of the outdoor unit 1 transmits signals to the control unit C2, and the communication unit D5 of the outdoor unit 1, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, and the communication unit B33 of the indoor unit B10. Then, an operation stop signal is transmitted to the control unit B26 of the indoor unit B10. As a result, the indoor unit B10 stops operation.

  When the operation stop signal is transmitted to the indoor unit B10 by the remote control B25, the outdoor unit passes through the communication unit B33 of the indoor unit B10, the indoor / outdoor connection line B12 and the indoor / outdoor connection line D14, and the communication unit D5 of the outdoor unit 1. Signals are transmitted to the control unit C2 of the unit 1, and the communication unit C4 of the outdoor unit 1, the indoor / outdoor connection line B12 and the indoor / outdoor connection line C13, and the communication between the indoor unit A9 are transmitted from the control unit C2 of the outdoor unit 1. An operation stop signal is transmitted to the control unit A15 of the indoor unit A9 through the means A23. Thereby, the indoor unit A9 stops operation.

  On the other hand, the simultaneous stop / individual stop setting means 17 connected to the control unit C2 of the outdoor unit 1 turns on a switch (not shown) for performing group setting so that the indoor unit A9 and the indoor unit B10 are individually stopped. The operation in this case will be described with reference to FIG.

  When the operation stop signal is transmitted to the indoor unit A9 by the remote controller A24, the indoor unit A9 stops operation, but the indoor unit B10 continues operation. When an operation stop signal is transmitted to the indoor unit B10 by the remote controller B25, the indoor unit B10 stops operating, but the indoor unit A9 continues to operate.

  Here, the simultaneous stop / individual stop setting means means a setting switch provided on a printed circuit board or the like. Note that the number of indoor units to be connected is not limited to two.

  In the multi-type air conditioner that connects a plurality of indoor units, the present invention provides a plurality of groups set by a single remote control operation when simultaneous stop / individual stop setting means 17 provided in the outdoor unit 1 is set for simultaneous stop. The operation of one indoor unit can be stopped, and when set to individual stop, only the indoor unit that sent the stop signal by the remote control can be stopped, and there is no need to operate the remote control for each indoor unit, It is also possible to handle personal use of users.

  As described above, the air conditioner according to the present invention can be applied to a device that operates a plurality of control devices other than the air conditioner because the operation by the remote controller can be simplified by group setting by an inexpensive method.

1 Outdoor unit 2 Control unit C
3 Power supply part C
4 Communication means C
5 Communication means D
6 Microcomputer C
7 Simultaneous operation setting means 8 Commercial AC power supply 9 Indoor unit A
10 Indoor unit B
11 Indoor / outdoor connection line A
12 Indoor / outdoor connection line B
13 Indoor / outdoor connection line C
14 Indoor / outdoor connection line D
15 Control part A
16 Microcomputer A
17 Simultaneous stop / individual stop setting means 18 Power supply A
19 Diode Bridge A
20 Transformer A
21 Electrolytic capacitor A
22 Constant voltage power supply A
23 Communication means A
24 Remote control A
25 Remote control B
26 Control part B
27 Microcomputer B
28 Power Supply B
29 Diode Bridge B
30 Transformer B
31 Electrolytic capacitor B
32 Constant voltage power supply B
33 Communication means B

Claims (3)

An indoor unit A including a power supply unit A, a control unit A, and a communication means A; an indoor unit B including a power supply unit B, a control unit B, and a communication unit B; a power supply unit C; a control unit C; An outdoor unit provided with a communication means D, a commercial AC power supply is connected to the outdoor unit, and electric power is supplied to the indoor unit A and the indoor unit B via indoor and outdoor connection lines A and B, respectively. Signal transmission between the communication means C of the outdoor unit and the communication means A of the indoor unit A is performed via indoor / outdoor connection lines C and D, and the communication means D of the outdoor unit and the indoor unit B The indoor unit is configured such that signal transmission to and from the communication unit B is performed through the indoor / outdoor connection lines C and D, a simultaneous operation setting unit is provided in the outdoor unit, and the group setting is performed by the simultaneous operation setting unit. Multi-type sky characterized in that the operation of A and the indoor unit B is started at the same time Conditioner. 2. The multi-type air conditioner according to claim 1, wherein operation settings of the indoor unit A and the indoor unit B set by the simultaneous operation setting unit are simultaneously changed. The outdoor unit is provided with simultaneous stop / individual stop setting means, and the operation of the indoor unit A and the indoor unit B set by the simultaneous stop / individual stop setting means is performed simultaneously or individually. The multi-type air conditioner according to claim 1 or 2.