JPH01260252A - Control device for air conditioner - Google Patents

Abstract

PURPOSE:To make it possible to switch between room cooling and room heating for any unit in room in a heat pump type air conditioner to which a plurality of indoor units for one outdoor unit are connected by providing each unit in room with a change-over switch for room cooling and room heating. CONSTITUTION:Indoor units 2A, 2B,.... send an operation mode signal, temperature difference signal for the difference of room temperature and standard temperature in room-cooling or room-heating, etc. to an operation mode selection device 10 through transmission means 9. For indoor units which are set for a mode other than air-blow mode, a judgement is made on whether or not the number of units set for room cooling and the number of units set for room heating are the same. If they are the same, it is judged whether or not set mode is for room cooling or room heating, the set mode being the mode for which the sum of temperature differences between the room temperature and standard temperature for either one of room cooling or room heating is larger than the sum of those for the other. When it is judged that the above numbers are not the same, it is judged which of room cooling and room heating has more operation modes that are set. If it is judged that it is the room heating, the in-room units that are set to a mode other than room cooling mode are operated by the air-blow mode, and if it is judged that it is for room cooling, the indoor units that are set to room heating mode are operated in the room heating mode only by an auxiliary heater 2HA.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a control device for a so-called multi-air conditioner, which is an air conditioner in which a plurality of indoor units are connected to one outdoor unit.

Conventional Technology In recent years, the mainstream air conditioners have been heat pump types that can cool and heat the air. In building air conditioners, outdoor units are often installed on rooftops, and in order to save space in outdoor units, so-called multi-air conditioners, in which multiple indoor units are connected to one outdoor unit, are becoming more common.

An example of the conventional multi air conditioner mentioned above will be described below with reference to the drawings.

FIG. 4 shows the configuration of a conventional multi-air conditioner.

In Fig. 4, 1 is an outdoor unit, 2A and 2B are indoor units, and 3A and 3B are indoor units 2A and 2.
The remote control unit B, 3SA, and 33B are cooling/heating changeover switches. Cooling/heating switching of the multi-air conditioner having such a configuration is performed by a cooling/heating changeover switch 3SA provided in each remote control unit 3A, 3B.

Performed by sSB. At this time, the cooling/heating switching does not necessarily match. A situation may occur where one side is heating and the other is cooling, which can cause malfunctions.

Therefore, in terms of numbers, one indoor unit (for example, 2A) is the master unit, and the other indoor unit (2B) is the slave unit, and the remote control unit 3B of the slave unit is not provided with the cooling/heating switch 38B, and the cooling/heating switch of the master unit 2A is set as the slave unit. A method is adopted in which the slave unit 2B is also operated in the setting mode by the switch 3SA.

Problems to be Solved by the Invention However, with the above-described configuration, there are problems in that the slave unit cannot be operated by itself, and that the operation mode cannot be set on the slave unit.

In view of the above-mentioned problems, the present invention provides a multi-air conditioner in which the remote control unit of each indoor unit is provided with a cooling/heating switch, regardless of whether the indoor unit is a master unit or a slave unit, so that any indoor unit can be switched between cooling and heating. It is.

Means for Solving the Problems In order to solve the above problems, the air conditioner control device of the present invention includes an operation mode selection means for selecting an operation mode of cooling, heating, or ventilation for each indoor unit, and a room temperature detection means. , a cooling reference temperature setting means, a heating reference temperature setting means, a control means having each of the above-mentioned means as input, an auxiliary heater controlled by the control means as an auxiliary for heat pump heating during heating, and an auxiliary heater controlled by the control means as an auxiliary for heat pump heating during heating; The temperature difference between the room temperature detected by the detection means and the reference temperature (appropriate temperature considering power saving) in either cooling or heating operation mode is calculated, and a signal indicating this temperature difference and operation mode is sent to the outdoor unit. In response to the signals sent from each indoor unit, the outdoor unit transmits the total temperature difference between the room temperature and the cooling or heating reference temperature when the same number of indoor units are set to cooling or heating. The larger operation mode will be selected with priority, and if the number of indoor units with cooling or heating settings is not the same, the larger selection mode will be selected, and if the selected operation mode is heating, a mode other than heating will be selected. The set indoor unit is set to blower mode, and when the selected operation mode is cooling, the indoor unit set to blower mode is set to blower mode.
The indoor unit set to heating is equipped with an operation mode selection control means that controls the compressor, four-way valve, and solenoid valve so that the heating operation is performed using only the auxiliary heater.

Effects According to the present invention, with the above-described configuration, each indoor unit has an operation mode selection means, so that there is no distinction between parent and child, and the operation can be performed independently, and the operation mode can be set for any indoor unit. Also, when the operating mode settings for each indoor unit are different for cooling and heating, all indoor units do not operate in one mode or the other.
When the number of indoor units with cooling or heating settings is the same, select the operation mode that has the larger sum of the differences between the reference temperature for cooling or heating and the room temperature, that is, the one that is more necessary based on all indoor units. Also, if the number of indoor units with cooling or heating settings is not the same, the operation mode with the most settings will be given priority, and if the selected operation mode is heating, set to a mode other than heating mode. In addition, when the selected operation mode is cooling, the indoor unit set to the ventilation mode is set to the ventilation operation, and the indoor unit set to the heating mode is set to the heating operation using only the auxiliary heater. This will prevent you from going into the exact opposite operating mode, such as heating instead of heating when you want it to, or cooling instead of heating.

Embodiment Hereinafter, a control device for an air conditioner according to an embodiment of the present invention will be described with reference to the drawings. Note that components that are the same as those of the prior art will be described using the same reference numerals.

FIG. 3 shows a schematic diagram of a refrigeration cycle of an air conditioner in an embodiment of the present invention. 1 in the figure is an outdoor unit, which includes a compressor C1, an outdoor fan 1F, a solenoid valve VA for controlling the refrigerant flow rate,
VB, ......, VA, VB, ......, the four-way valve 1v that determines the flow direction of the refrigerant, whether it is the [C00L] side during cooling or the [HOT'] side during heating, and the outdoor heat exchanger. Vessel 1
Consists of C. 2A, 2B... are indoor units, and indoor heat exchangers 2EA, 2EB..., respectively.
Indoor fan 2FA, 2FB..., auxiliary heater 2
It consists of HA, 2HB... Here compressor C
On/off and solenoid valves VA, VB,...
- Opening and closing of vA'VB... air-conditions the space in which each indoor unit 2A, 2B...... is provided. Also, the four-way valve 1v switches between cooling operation and heating operation.

FIG. 1 shows a control block diagram of an embodiment of the present invention. 1
2A, 2B, . . . are indoor units, 38A, 33B, .
4B... is room temperature detection means, sA, sB...
. . . and eA, eB . 7A, 7B... are controls for inputting the above-mentioned means to control the load, and performing signal processing to transmit the operation mode signal and the signal of the difference between the room temperature and the reference temperature to the outdoor unit 1. Means, aA, sB・
. . . is a transmission means for transmitting signals processed by the control means 7A, 7B . . . to the outdoor unit 1, and conversely receiving signals from the outdoor unit.

2HA, 2HB, . . . are auxiliary heaters used as an auxiliary for heat pump heating during heating.

Next, as the control configuration of outdoor unit 1, 9
10 is a transmission means for transmitting signals with the indoor units 2A, 2B, . When the number of indoor units set to cooling or heating is the same, excluding indoor units set to blower mode, the total temperature difference between the room temperature and the reference temperature in cooling or heating mode is calculated. The larger operation mode will be given priority and selected, and if the number of indoor units with cooling or heating settings is not the same, the operation mode with the larger setting will be given priority and selected, and the selected operation mode will be set to heating. When the indoor unit is set to a mode other than heating, the indoor unit set to a mode other than heating is set to blower mode, and when the selected operation mode is cooling, the indoor unit set to blower mode is set to blower mode, and the indoor unit set to heating mode is set to only the auxiliary heater. The compressor C, the west valve 1v, and the solenoid valves VA, VB, etc. are controlled so that the heating operation is performed according to the heating operation.

The operation of the air conditioner control device configured as described above will be described below with reference to FIGS. 1 and 2.

FIG. 2 is an operational flowchart of the outdoor unit 10 control device according to an embodiment of the present invention. After processing, each indoor unit 2A, 2B...
The operation mode selection control means 10 receives the signals sent from ..., that is, the operation mode signal, the temperature difference signal between the room temperature and the reference temperature in cooling or heating, etc.
In the indoor unit set to a mode other than the ventilation mode in step 2, it is determined whether the cooling setting and the heating setting are the same, and if they are the same, the operation mode set to room temperature in step 5TEP, 3, that is, cooling or heating mode. It is determined whether the set mode with the larger sum of the temperature differences from the reference temperature at the time is cooling or heating. If it is determined at 5TEP, 2 that the numbers are not the same, it is determined at 5TEP, 4 whether the set operating mode is cooling or heating. 5TEP, 3
and 5TEP, if it is determined in 4 whether it is cooling or heating, if it is heating, it is 5TEP, the indoor unit set to heating mode in s will be in heating mode, and the indoor unit set to a mode other than heating mode will be in blower mode. If the indoor unit is operated in 5TEP and 6 for cooling, the compressor C1 is set so that the indoor unit set to cooling mode is operated in cooling mode, and the indoor unit set to heating mode is operated in heating mode using only the auxiliary heater. Four-way valve 1V, solenoid valve VA, VB
---, auxiliary heaters 12HA, 2HB, etc. are controlled. After that, 5TEP returns to 1 and transmits the selected operation mode to each indoor unit 2A, 2B, and
It is to be sent to...

As described above, according to this embodiment, each indoor unit 2A,
2B... is an operation mode selection means 3SA.

3sB...and cooling or heating reference temperature setting means s
A.

6B...and eA, eB... and room temperature detection means 4A.

4B... and a control means 7 which receives the above-mentioned means as inputs.
A.

7B... and auxiliary heaters 2HA, 2HB, which are controlled by the control means 7A, 7B, as auxiliary heat pump heating during heating, and the outdoor unit 1, and signal signals. Transmission means sA, sB,
..., and the outdoor unit 1 has a transmission means 9 for exchanging signals with the indoor units 2A, 2B... When the number of units is the same, priority is given to selecting the operation mode with the larger sum of the temperature differences between the room temperature and the reference temperature for cooling or heating, that is, the operation mode with the highest degree of necessity based on judgment from all indoor units. , when the number of indoor units set to cooling or heating is not the same, the operation mode with the larger number is selected, and when the selected operation mode is heating, indoor units set to modes other than heating are set to fan operation, and the selected operation mode is set to fan mode. When the operation mode is cooling, the compressor C2 four-way valve 1v is set so that the indoor unit set to blowing mode is set to blowing air, and the indoor unit set to heating mode is set to heating operation using only the auxiliary heater.
By providing an operation mode selection control means for controlling the solenoid valves VA, VB, etc., each indoor unit has an operation mode selection means, so there is no distinction between parent and child, and the system can be operated independently. , the operation mode can be set for any indoor unit. In addition, when the operation mode settings for each indoor unit are different between cooling and heating, all indoor units do not operate in one mode or the other, but when the same number of indoor units are set to cooling or heating, cooling is performed. Or, in order to select the operation mode with the larger total of the temperature difference between the heating standard temperature and the room temperature, the operation mode is operated in the mode with the highest degree of necessity, and when the number of indoor units with cooling or heating settings is not the same, , the operation mode with the most settings will be selected with priority, and when the selected mode is heating, the indoor unit set to a mode other than heating will be set to ventilation operation, and when the selected mode is cooling, it will be set to ventilation operation. By setting the indoor unit set to air blower operation and setting the indoor unit set to heating to heating operation using only the auxiliary heater, it is possible to prevent systems that turn on heating when you want to use cooling, or systems that turn on cooling when you want to use heating. This also solves the problem of

Effects of the Invention As described above, the present invention provides a heat pump type air conditioner in which a plurality of indoor units are connected to one outdoor unit, and the indoor unit has cooling, heating, and blowing operation modes. an operation mode selection means to select, a room temperature detection means, each reference temperature setting means for cooling and heating, a control means that receives each of the above means as input, and during heating, the control means is controlled by the control means as an auxiliary to the heat pump heating. The auxiliary heater and the control means calculate the temperature difference between the room temperature detected by the room temperature detection means and the reference temperature in either cooling or heating operation mode, and send this temperature difference and a signal indicating the operation mode to the outdoor unit. the outdoor unit is provided with a transmission means for receiving the signal sent from each of the indoor units, and when the number of indoor units set to cooling or heating is the same for the sent signal, The operation mode with the larger sum of the differences between the room temperature and the reference temperature for cooling or heating will be selected with priority, and if the number of indoor units with cooling or heating settings is not the same, the mode with the larger number will be selected. When the operation mode is selected and the selected operation mode is heating, the indoor unit set to a mode other than heating will be set to ventilation operation, and when the selected operation mode is cooling,
By providing an operation mode selection control means for controlling the indoor unit set to ventilation so that the indoor unit is set to the ventilation operation, and the indoor unit set to heating to the heating operation using only the auxiliary heater, the operation mode selection means is provided for each indoor unit. Therefore, there is no distinction between parent and child, and it can be operated independently, and the operation mode can be set for any indoor unit. Also, when the operating mode settings for each indoor unit are different for cooling and heating, all indoor units do not operate in one mode or the other, but as mentioned above, the same number of indoor units with cooling or heating settings operate. At that time, the operation mode is selected and operated, whichever has the larger sum of the temperature differences between the reference temperature for cooling or heating and the room temperature, that is, the one that is more necessary based on judgment from all indoor units, and also operates the operation mode for cooling or heating. If the number of indoor units set is not the same, the mode with the highest number of settings is selected, so the mode with the highest degree of necessity is selected, and when the selected operation mode is heating, a mode other than heating is set. If you set the indoor unit to blower mode and the selected operation mode is cooling, the indoor unit set to blower will be in blower mode, and the indoor unit set to heating will be in heating mode using only the auxiliary heater. This solves the problem of the heating being turned on when the air conditioner is on, or the air conditioning turning on when the heating is desired, and has a practical effect.

[Brief explanation of the drawing]

Fig. 1 is a control block diagram of a control device for an air conditioner in an embodiment of the present invention, Fig. 2 is an operation flowchart of Fig. 1, and Fig. 3 is a control block diagram of an air conditioner control device in an embodiment of the present invention. The refrigeration cycle diagram of the machine, FIG. 4, is a configuration diagram of a conventional multi-air conditioner. 1... Outdoor unit, 2A, 2B... River/indoor unit, 3SA, 3SB... Operating mode selection means, aA, aB... Room temperature detection means, sA, s
B... Cooling reference temperature setting means, eA, eB...
...Heating standard temperature setting means, 7A, 7B...
- Control means, 2HA. 2HB...Auxiliary heater, sA, sB...River...
Transmission means. 9...Transmission means, 1o...Operation mode selection control means. Name of agent: Patent attorney Toshio Nakao Haga 1 person No. 4
figure

Claims (1)

[Claims] A heat pump type air conditioner in which a plurality of indoor units are connected to one outdoor unit, and the indoor unit includes an operation mode selection means for selecting an operation mode of cooling, heating, and ventilation, and a room temperature detection means. a reference temperature setting means for each of cooling and heating; a control means which receives each of the above means as input; an auxiliary heater controlled by the control means as an auxiliary for heat pump heating during heating; and a room temperature detection means by the control means. Transmission means is provided for calculating the temperature difference between the room temperature detected by the means and a reference temperature in either cooling or heating operation mode, and transmitting signals such as this temperature difference and operation mode to the outdoor unit. The unit includes a transmission means for receiving the signals sent from each indoor unit, and when the number of indoor units set to cooling or heating is the same in response to the sent signal, the difference between the room temperature and the reference temperature for cooling or heating. The driving mode with the larger sum of each is given priority,
In addition, if the number of indoor units with cooling or heating settings is not the same, the operation mode with the most settings will be given priority, and if the selected operation mode is heating, the indoor unit set to a mode other than heating will be selected. Operation mode selection that controls the unit to operate as a blower, and when the selected operation mode is cooling, the indoor unit set to blower is in blower mode, and the indoor unit set to heating is in heating operation using only the auxiliary heater. A control device for an air conditioner including a control means.