JP4201414B2 - Air conditioner - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner in which an indoor unit is connected to an outdoor unit in a number exceeding the capacity of the outdoor unit, and the number of simultaneously operating indoor units is limited.
[0002]
[Prior art]
In some air conditioners, an indoor unit is connected to an outdoor unit beyond the capacity of the outdoor unit, and the number of indoor units that can be operated simultaneously is limited.
[0003]
In general, the indoor unit operation permission method in such an air conditioner is a first-priority priority indoor unit operation permission method that operates in preference to an indoor unit that has been requested to operate first, or an indoor unit that is requested to operate later. The boosting priority indoor unit operation permission system that operates with priority is adopted.
[0004]
[Problems to be solved by the invention]
When the first-push priority indoor unit operation permission method is adopted, even when an operation request is made to the indoor unit, the operation of the indoor unit is rejected if the capacity of the outdoor unit is already exceeded. In order to operate the indoor unit, the indoor unit that is already in operation must be stopped. However, when the indoor unit to be stopped is installed at a remote location, a large amount of power is required for stopping.
[0005]
In addition, when the boost priority indoor unit operation permission method is adopted, when an indoor unit is requested to exceed the capacity of the outdoor unit, the indoor unit is permitted to operate, but the indoor unit that is already in operation is permitted. The machine must be stopped. In this case, there is a contention for driving permission as to which indoor unit is to be stopped, that is, which indoor unit is to continue operating.
[0006]
Furthermore, the operation mode of the outdoor unit is generally the operation mode of the indoor unit in which the operation request is first made to enter the operation state. Therefore, when the operation mode of the indoor unit for which the operation request is made later is different from the operation mode of the indoor unit that is already in operation, the operation mode is different and the operation of the indoor unit for which the operation request is made later is made. Rejected.
[0007]
The object of the present invention is to provide an air conditioner that can achieve comfortable air conditioning by efficiently operating a plurality of indoor units.
[0008]
[Means for Solving the Problems]
  The invention according to claim 1 is an air conditioner in which the number of indoor units connected to an outdoor unit exceeds the capacity of the outdoor unit, and the simultaneous operation number of the indoor units is limited. , A first-priority priority indoor unit operation permission method that preferentially operates the indoor unit requested to operate first, a boost priority indoor unit operation permission method that prioritizes the indoor unit requested later operation, and an indoor unit Any one of the indoor unit operation permission methods including the indoor unit operation permission method based on the priority order of the indoor units that operate the indoor units based on the set priority order can be set.In the indoor unit operation permission system based on the priority order of the indoor units, the selection of which of the plurality of indoor units having the same priority order to be operated is the indoor unit that has been requested to operate first, and the operation that has been requested later It is determined based on either the indoor unit or the temperature difference between the set temperature set for the indoor unit and the temperature of the room to which the indoor unit belongs.It is characterized by this.
[0009]
According to a second aspect of the present invention, in the first aspect of the invention, the setting of the indoor unit operation permission method is performed by an operation switch of the control device in the outdoor unit or by a non-volatile memory of the control device. It is characterized by.
[0010]
According to a third aspect of the present invention, in the first or second aspect of the invention, the priority order of the indoor units is determined by an operation switch of the control device in the indoor unit or by a non-volatile memory of the control device. It is characterized by being made.
[0011]
According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, the selection of which of the plurality of indoor units in the operating state is to be stopped is a priority set for the indoor unit. The temperature is determined based on either the temperature difference between the set temperature set for the indoor unit and the temperature of the room to which the indoor unit belongs, or the operation time of the indoor unit.
[0013]
  Claim5The invention described in claim 1 to claim 14In the invention according to any one of the above, the indoor unit in which the operation request is made but the operation is prohibited, or the indoor unit that is in the operation state but is stopped is set in the temporary operation state, and the indoor unit to which the indoor unit in the operation state belongs The indoor unit is operated in the temporary operation state after the indoor unit is stopped in accordance with the set temperature set for the indoor unit.
[0014]
  Claim6The invention described in claim 1 to claim 15In any one of the inventions, the selection of the operation mode of the outdoor unit is configured to match the operation mode of the indoor unit that is operated most preferentially.
[0015]
The invention described in claim 1 has the following action.
[0016]
  The outdoor unit includes any one of the indoor unit operation permission methods including the first priority priority indoor unit operation permission method, the boost priority indoor unit operation permission method, and the indoor unit operation permission method based on the priority order of the indoor units. Therefore, comfortable air conditioning can be realized by selecting an indoor unit operation permission method that is optimal for the installation location of the air conditioning apparatus.In addition, in the indoor unit operation permission system based on the priority order of the indoor units, the selection of which of the plurality of indoor units with the same priority order to be operated is the indoor unit requested to be operated first, and the operation requested later It is determined based on either the indoor unit or the temperature difference between the set temperature set for the indoor unit and the temperature of the room to which the indoor unit belongs. Comfortable air conditioning can be realized.
[0017]
The invention according to claim 2 has the following effects.
[0018]
When there is a possibility of changing the indoor unit operation permission method later, the above indoor unit operation permission method may be set mainly by the operation switch of the control device in the outdoor unit, and the indoor unit operation permission method may be changed later. When there is no, the indoor unit operation permission method is set mainly by the nonvolatile memory of the control device in the outdoor unit.
[0019]
The invention according to claim 3 has the following effects.
[0020]
When there is a possibility that the priority order of the indoor unit will be changed later, the priority order is set mainly by the operation switch of the control device in the indoor unit, and there is no possibility that the priority order of the indoor unit will be changed later. The priority order is set mainly by the nonvolatile memory of the control device in the indoor unit.
[0021]
The invention according to claim 4 has the following effects.
[0022]
Selection of which of the plurality of indoor units in the operating state is to be stopped is based on the priority order set for the indoor unit, the temperature difference between the set temperature set for the indoor unit and the temperature of the room to which the indoor unit belongs, Alternatively, since it is determined on the basis of either the operation time of the indoor unit, it is possible to stop as much as possible the indoor unit having a low degree of operation requirement, and to prevent the air conditioning property of the room to which the indoor unit to be stopped belongs from being lost as much as possible.
[0023]
The invention according to claim 5 has the following effects.
[0026]
An indoor unit that has been requested to operate but is not allowed to operate, or an indoor unit that is in an operating state but is stopped is placed in a temporary operating state, and the indoor temperature to which the indoor unit in the operating state belongs is set in the indoor unit. After the indoor unit is stopped in accordance with the set temperature, the indoor unit in the temporary operation state is operated. It is possible to quickly start the indoor unit in which the operation is stopped without requiring the operation again.
[0027]
  Claim6The invention described in (1) has the following effects.
[0028]
The selection of the operation mode of the outdoor unit is configured to match the operation mode of the indoor unit that is operated with the highest priority, so that the room to which the indoor unit that is operated with the highest priority belongs is comfortably air-conditioned. Can do.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0030]
FIG. 1 is a configuration diagram showing a configuration of an air conditioner according to the present invention.
[0031]
In the air conditioner 10 shown in FIG. 1, three or more indoor units 12 are connected to one outdoor unit 11 through a refrigerant pipe (not shown) and connected via a communication line 13. Each indoor unit 12 is configured to be able to communicate with each remote controller 14 using infrared rays or the like. The outdoor unit 11 has a capability of operating a plurality of, for example, two indoor units 12 at the same time. Therefore, the indoor unit 12 is connected to the outdoor unit 11 in a number exceeding the capacity of the indoor unit 12, and the number of the indoor units 12 operated simultaneously is limited to two.
[0032]
For this reason, in the air conditioning apparatus 10 as described above, the indoor unit operation permission method for operating the indoor unit 12 when an operation request is made to the indoor unit 12 exceeding the capacity of the outdoor unit 11. Is set in the outdoor unit 11.
[0033]
The indoor unit operation permission method includes a first-priority priority indoor unit operation permission method, a boost-priority priority indoor unit operation permission method, and an indoor unit operation permission method based on the priority order of the indoor units. The control device 15 of the outdoor unit 11 controls the operation of the indoor unit 12 based on any one of the indoor unit operation permission methods described above.
[0034]
In the first-priority priority indoor unit operation permission method, the operation is permitted from the indoor unit 12 for which the operation request has been previously made, and when the number of simultaneous operation permitted for the outdoor units 11 is exceeded, the operation request is made thereafter. This is an operation permission method for prohibiting the operation of the indoor unit 12.
[0035]
Further, in the boost priority indoor unit operation permission method, the operation is permitted from the indoor unit 12 for which the operation request has been made first, and when the number of simultaneous operation permitted for the outdoor units 11 is exceeded, the operation request is made thereafter. This is an operation permission method that permits the operation of the indoor unit 12 and stops the indoor unit 12 that is already in an operating state according to a predetermined condition (described later).
[0036]
Furthermore, in the indoor unit operation permission system based on the priority order of the indoor units, the operation is permitted from the indoor unit 12 for which the operation request has been previously made, and when the number of simultaneous operation permitted for the outdoor units 11 is exceeded, thereafter. This is an operation permission method for operating the indoor unit 12 having a higher priority among the indoor units 12 that have been requested to operate and the indoor units 12 that are already in operation.
[0037]
The control device 15 of the outdoor unit 11 is provided with a dip switch as an operation switch and a nonvolatile memory in order to set the above-described indoor unit operation permission method.
[0038]
In this nonvolatile memory, as shown in FIG. 2 (A), an “operation permission setting method” for determining whether the setting of the indoor unit operation permission method by the dip switch is valid or invalid is stored. If the “operation permission setting method” item is selected as “0”, the setting of the indoor unit operation permission method by the dip switch is valid, and the above-mentioned indoor unit operation permission method is manually operated by the operator of the dip switch. Either one is set by the operation. If the “operation permission setting method” item is selected as “1”, the setting of the indoor unit operation permission method by the DIP switch is invalid, and the indoor unit operation permission method is stored in the nonvolatile memory as described later. It is set to one of the stored items of “indoor unit operation permission method”.
[0039]
In the above operation permission setting method, if there is a possibility of changing the indoor unit operation permission method later, “0” is mainly selected, and the setting by the DIP switch of the control device 15 is validated, and the indoor unit operation permission is also permitted. If there is no possibility of changing the method later, “1” is mainly selected, and the setting by the DIP switch of the control device 15 is invalidated. Even if the operation permission setting method is selected as “1”, the indoor unit operation permission method can naturally be changed later.
[0040]
The non-volatile memory stores the indoor unit operation permission method as described above. When the item “indoor unit operation permission method” shown in FIG. 2A is selected as “0”, the indoor unit operation permission method is set to the first-priority priority indoor unit operation permission method. Further, when the item “indoor unit operation permission method” is selected as “1”, the indoor unit operation permission method is set to the boost priority indoor unit operation permission method. Furthermore, when the item “indoor unit operation permission method” is selected as “2”, the indoor unit operation permission method is set to the indoor unit operation permission method based on the priority order of the indoor units.
[0041]
In the non-volatile memory of the control device 15 in the outdoor unit 11, the selection of “0” and “1” in the “operation permission setting method” item, and “0” and “1” in the “indoor unit operation permission method” item. The selection of “2” is performed by an operator using the maintenance personal computer 17 shown in FIG. 1 when the air conditioner 10 is installed.
[0042]
Hereinafter, operation control based on each of the indoor unit operation permission methods will be described.
[0043]
[A] Indoor unit operation permission system based on indoor unit priority
(1) As shown in FIG. 3, first, a priority order is set for each of the indoor units 12 (S1). Prior to setting priorities for each indoor unit 12, the operator uses the maintenance personal computer 17 in FIG. 1 to store it in a non-volatile memory (not shown) of the control device 16 in each indoor unit 12. Then, “0” or “1” is selected for the item of “priority setting method” shown in FIG.
[0044]
When there is a possibility that the priority order of the indoor units 12 will be changed later, “0” is mainly selected in the “priority order setting method” item, and the setting by the panel switch of the control device 16 in each indoor unit 12 is performed. Is valid. At this time, the priority order of the indoor units 12 is set by manually setting the panel switch of the control device 16 in each indoor unit 12 by the operator.
[0045]
When there is no possibility of changing the priority order of the indoor units 12 later, “1” is mainly selected in the “priority setting method” item, and the panel switch of the control device 16 in each indoor unit 12 is selected. The setting by is invalidated. At this time, the priority order of the indoor units 12 is “0”, “1” in the “priority order” items similarly stored in the nonvolatile memory of the control device 16 in each indoor unit 12 shown in FIG. “,” “2” are set by the operator using the maintenance personal computer 17. The priority of the indoor unit 12 becomes “low” when the above “0” is selected, becomes “medium” when the above “1” is selected, and “high” when the above “2” is selected. "
[0046]
Even when “1” in the “priority setting method” item is selected, it is naturally possible to change the priority of the indoor unit 12 later.
[0047]
(2) As shown in FIG. 3, by operating the remote controller 14, an operation request for the indoor unit 12 is transmitted from the control device 16 of the indoor unit 12 to the control device 15 of the outdoor unit 11 (S2). At this time, the controller 15 of the outdoor unit 11 determines whether or not the current number of operating indoor units 12 is equal to or less than the number of permitted simultaneous operation of the indoor units 12 by the outdoor unit 11 (S3). In this case, the operation of the indoor unit 12 for which the operation request is made in step S2 is permitted (S4).
[0048]
(3) If the controller 15 of the outdoor unit 11 determines that the current number of operating indoor units 12 exceeds the number of permitted simultaneous operation of the indoor units 12 by the outdoor unit 11, the current operating state continues. It is determined whether or not the priority order of the indoor unit 12 is higher than the priority order of the indoor unit 12 requested to operate in step S2 (S5). If the priority of the indoor unit 12 currently in the operating state is higher than the priority of the indoor unit 12 requested to operate in step S2, the operation of the indoor unit 12 requested to operate is prohibited (S6). ).
[0049]
(4) When the priority order of the indoor unit 12 currently in the operating state is not higher than the priority order of the indoor unit 12 requested to operate in step S2, the control device 15 of the outdoor unit 11 As shown in FIG. 7, it is determined whether the priority order of the indoor unit 12 currently in the operating state is equal to the priority order of the indoor unit 12 requested to operate in step S2 (S7). The control device 15 of the outdoor unit 11 operates when the priority is the same when the priority of the indoor unit 12 in the current operation state is equal to the priority of the indoor unit 12 requested to operate in step S2. The selection process of the indoor unit 12 to be performed is performed (S8, S9).
[0050]
This selection process is performed in advance when the operator selects “0” in the “operation permission setting method” item shown in FIG. 2A in the nonvolatile memory in the control device 15 of the outdoor unit 11. The indoor unit 12 selected by the first pressing priority set by manual operation of the DIP switch, the indoor unit 12 determined by the pressing priority, or the indoor unit 12 having a large differential temperature is selected. .
[0051]
When “1” is selected in the “operation permission setting method” item shown in FIG. 2A, the selection process in steps S8 and S9 is non-volatile in the control device 15 of the outdoor unit 11. In the item of “selection processing of driving indoor units when priority is the same” stored in the memory (FIG. 2A), “0”, “ The indoor unit 12 is determined based on the values “1” and “2”. This indoor unit 12 becomes the indoor unit 12 determined by the first-press priority when the above-mentioned “0” is selected, and becomes the indoor unit 12 determined by the first-press priority when the “1” is selected. When “2” is selected, the indoor unit 12 has a large temperature difference.
[0052]
Here, the indoor unit 12 determined by the first pressing priority is the indoor unit 12 determined by operating the indoor unit 12 in the order in which the operation request is made first among the indoor units 12 having the same priority. . Therefore, in this case, the control device 15 of the outdoor unit 11 prohibits the operation of the indoor unit 12 for which the operation request is made in Step 2.
[0053]
Moreover, the indoor unit 12 determined by boosting priority is the indoor unit 12 determined by operating the indoor unit 12 in the order in which the operation request was made later among the indoor units 12 having the same priority. Therefore, in this case, the control device 15 of the outdoor unit 11 permits the operation of the indoor unit 12 requested to be operated in step S2, and sets any of the currently operating indoor units 12 as a “stop indoor unit” described later. Stop based on “selection process”.
[0054]
Furthermore, the indoor unit 12 having a large temperature difference is an indoor unit 12 having the largest temperature difference between the set temperature set for the indoor unit 12 and the temperature of the room to which the indoor unit 12 belongs. In this case, the control device 15 of the outdoor unit 11 stops the operation of the indoor unit 12 having the minimum differential temperature among the indoor unit 12 requested to be operated in step S2 and the indoor unit 12 currently in the operating state. Let
[0055]
(5) In step S7, the priority of the indoor unit 12 in the current operating state is not equal to the priority of the indoor unit 12 requested to operate in step S2, that is, the indoor unit 12 in the current operating state. When the priority is lower than the priority of the indoor unit 12 requested to operate in step S2, the control device 15 of the outdoor unit 11 operates the indoor unit 12 requested to operate (S10). At the same time, “stop indoor unit selection process” is executed.
[0056]
In the stop indoor unit selection process, the control device 15 of the outdoor unit 11 first determines whether the indoor unit 12 having the lowest priority is present in the indoor unit 12 in the operating state (S11). If so, the indoor unit 12 is stopped (S12).
[0057]
Next, in step S11, the control device 15 of the outdoor unit 11 has no lowest priority among the indoor units 12 in the operating state, and when the priority of the indoor units 12 in the operating state is the same, Either the indoor unit 12 with the lowest differential temperature or the indoor unit 12 with the longest operating time is stopped (S13).
[0058]
The stopped indoor unit 12 in step S13 is selected when “0” is selected in the “operation permission setting method” item shown in FIG. 2A in the nonvolatile memory in the control device 15 of the outdoor unit 11. Is selected as one of the indoor unit 12 having the minimum temperature difference and the indoor unit 12 having the longest operation time set in advance by the manual operation of the dip switch by the operator.
[0059]
When “1” is selected in the “operation permission setting method” item shown in FIG. 2A, the stopped indoor unit 12 in step S13 is non-volatile in the control device 15 of the outdoor unit 11. In the item of “stop indoor unit selection processing method” stored in the memory (FIG. 2A), the values “0” and “1” previously selected by the operator using the maintenance personal computer 17 are used. It is determined. The stop indoor unit 12 becomes the indoor unit 12 with the lowest differential temperature when the “0” is selected, and becomes the indoor unit 12 with the longest operation time when the “1” is selected.
[0060]
[B] Boosting priority indoor unit operation permission method
By operating the remote controller 14 shown in FIG. 1, an operation request for the indoor unit 12 is transmitted from the control device 16 of the indoor unit 12 to the control device 15 of the outdoor unit 11. At this time, the control device 15 of the outdoor unit 11 determines whether or not the current number of operating indoor units 12 is equal to or less than the number of permitted simultaneous operation of the indoor units 12 by the outdoor unit 11. The operation of the indoor unit 12 for which the operation request has been made is permitted.
[0061]
When the control device 15 of the outdoor unit 11 determines that the current number of operating indoor units 12 exceeds the number of simultaneously permitted indoor units 12 operated by the outdoor unit 11, the indoor unit 12 having the smallest differential temperature, or Any one of the indoor units 12 having the longest operation time is stopped.
[0062]
When the stop indoor unit 12 is selected as “0” in the “operation permission setting method” item shown in FIG. 2A in the nonvolatile memory of the control device 15 of the outdoor unit 11, Either one of the indoor unit 12 having the minimum differential temperature set by the operator manually operating the dip switch or the indoor unit 12 having the longest operation time is selected.
[0063]
When “1” is selected in the “operation permission setting method” item shown in FIG. 2A, the stop indoor unit 12 is stored in the nonvolatile memory in the control device 15 of the outdoor unit 11. In addition, in the item of “stop indoor unit selection method in boosting priority indoor unit operation permission method” (FIG. 2A), “0” and “1” selected by the operator using the maintenance personal computer 17 in advance. Determined by the value of. The stop indoor unit 12 becomes the indoor unit 12 with the lowest differential temperature when the “0” is selected, and becomes the indoor unit 12 with the longest operation time when the “1” is selected.
[0064]
[C] Pre-priority indoor unit operation permission method
By operating the remote controller 14 shown in FIG. 1, an operation request for the indoor unit 12 is transmitted from the control device 16 of the indoor unit 12 to the control device 15 of the outdoor unit 11. At this time, the control device 15 of the outdoor unit 11 determines whether or not the current number of operating indoor units 12 is equal to or less than the number of permitted simultaneous operation of the indoor units 12 by the outdoor unit 11. The operation of the indoor unit 12 for which the operation request has been made is permitted.
[0065]
When the controller 15 of the outdoor unit 11 determines that the current number of operating indoor units 12 exceeds the permitted number of simultaneous operation of the indoor units 12 by the outdoor unit 11, the control unit 15 performs the operation of the indoor unit 12 requested to be operated. Ban.
[0066]
When it is desired to operate the indoor units 12 that exceed the number of indoor units 12 that can be operated simultaneously by such outdoor units 11, the dip switch of the indoor unit 12 in the outdoor unit 11 is operated to permit the first-priority priority indoor unit operation permission. Switch the method to the boosting priority indoor unit operation permission method or the indoor unit operation permission method based on the priority order of the indoor units (when the operation permission setting method in FIG. 2A is “validate setting by DIP switch”), Using the maintenance personal computer 17 (FIG. 1), the item of “indoor unit operation permission method” (FIG. 2A) stored in the non-volatile memory of the indoor unit 12 in the outdoor unit 11 is set to “first push priority indoor unit”. The “operation permission method” is selected from the “boost priority indoor unit operation permission method” or the indoor unit operation permission method based on the priority order of the indoor units.
[0067]
[D] Selection of outdoor unit operation mode
The operation mode of the outdoor unit 11 is the operation mode of the indoor unit 12 if there is one indoor unit 12 that is in an operation state when an operation request is made. When an operation request is made to two or more indoor units 12, and the indoor unit 12 to which the operation request is made later is different from the indoor unit 12 to which the operation request is made earlier, the operation of the outdoor unit 11 is performed. The mode is set in accordance with the operation mode of the indoor unit 12 that is operated with the highest priority.
[0068]
The operation mode of the indoor unit 12 that is operated with the highest priority is the operation mode of the indoor unit 12 that is requested to operate first when the first-press priority indoor unit operation permission method is set, When the boost priority indoor unit operation permission method is set, it is the operation mode of the indoor unit 12 for which the operation request was made last, and the indoor unit operation permission method based on the priority order of the indoor units is set Is the operation mode of the indoor unit 12 having the highest priority.
[0069]
FIG. 5 shows a method for selecting the operation mode of the outdoor unit 11 when the indoor unit operation permission method is set to the indoor unit operation permission method based on the priority order of the indoor units 12.
[0070]
For example, when the first unit of the indoor unit 12 is requested to operate in the cooling operation mode, the control device 15 of the outdoor unit 11 causes the outdoor unit 11 to operate in the cooling operation mode corresponding to the first unit of the indoor unit 12. (S20).
[0071]
Next, it is assumed that the second unit of the indoor unit 12 is requested to operate in the heating operation mode (S21). In this case, the control device 15 of the outdoor unit 11 determines whether or not the second unit of the indoor unit 12 has a higher priority than the first unit (S22), and if higher, the outdoor unit 11 is set in the heating operation mode. The operation of the second unit of the indoor unit 12 is prohibited for the reason of the operation mode mismatch (S23).
[0072]
In step S22, when the priority order of the second unit of the indoor unit 12 is lower than or equal to that of the first unit, the control device 15 of the outdoor unit 11 causes the outdoor unit 11 to operate in the cooling operation mode. The operation of Unit 2 is prohibited for the reason of the operation mode mismatch (S24).
[0073]
Therefore, according to the air conditioning apparatus 10 of the above embodiment, the following effects (1) to (6) are achieved.
[0074]
(1) The control unit 15 of the outdoor unit 11 includes an indoor unit operation permission method, a boost priority indoor unit operation permission method, and an indoor unit operation permission method based on the priority order of the indoor units. Since any one of the unit operation permission methods can be set by a dip switch or a non-volatile memory, it is possible to select a suitable indoor unit operation permission method for the installation location of the air conditioner 10 and thereby to provide a comfortable air Harmony can be realized.
[0075]
(2) If there is a possibility of changing the indoor unit operation permission method later, the indoor unit operation permission method is mainly set by manual operation of the DIP switch of the control device 15 in the outdoor unit 11 to improve usability. Can be made. When there is no possibility of changing the indoor unit operation permission method later, the indoor unit operation permission method is mainly set by the non-volatile memory of the control device 15 in the outdoor unit 11, and unnecessary dip switches are set. It is possible to prevent the indoor unit operation permission method from being changed by operation.
[0076]
(3) If there is a possibility that the priority order of the indoor unit 12 will be changed later, the priority order of the indoor unit is mainly set by manual operation of the panel switch of the control device 16 in the indoor unit 12 for ease of use. Can be improved. When there is no possibility of changing the priority order of the indoor unit 12 later, the priority order of the indoor unit is mainly set by the non-volatile memory of the control device 16 in the indoor unit 12, and an unnecessary panel switch is set. It is possible to prevent the priority order of the indoor units 12 from being changed by the operation.
[0077]
(4) The selection of which of the plurality of indoor units 12 in the operating state is to be stopped is based on the priority set for the indoor unit 12, the set temperature set for the indoor unit 12, and the room to which the indoor unit 12 belongs. Is determined based on either the temperature difference between the indoor unit 12 and the operation time of the indoor unit 12. Therefore, the indoor unit 12 having a low operation requirement level is stopped, and the indoor air conditioner to which the stopped indoor unit 12 belongs is determined. It can prevent damage as much as possible.
[0078]
(5) In the indoor unit operation permission system based on the priority order of indoor units, the selection of which of the plurality of indoor units 12 with the same priority order to be stopped can be made by selecting the indoor unit 12 for which the operation request has been made earlier, It is determined based on either the indoor unit 12 for which the operation request is made or the temperature difference between the set temperature set for the indoor unit 12 and the temperature of the room to which the indoor unit 12 belongs. By operating the machine 12, comfortable air conditioning can be realized.
[0079]
(6) The selection of the operation mode of the outdoor unit 11 is the operation mode of the indoor unit 12 that is operated with the highest priority (the operation mode of the indoor unit 12 having the highest priority in the indoor unit operation permission method based on the priority order of the indoor units) , The operation mode of the indoor unit 12 in which the operation request was last made in the boost priority indoor unit operation permission method, or the operation mode of the indoor unit 12 in which the operation request was made first in the first push priority indoor unit operation permission method) Therefore, the room to which the indoor unit 12 operated with the highest priority belongs can be comfortably air-conditioned.
[0080]
As mentioned above, although this invention was demonstrated based on the said embodiment, this invention is not limited to this.
[0081]
For example, in the indoor unit operation permission method based on the priority order of the indoor units, the indoor unit 12 having a low priority order (for example, the indoor unit 12 in step S6) in which the operation request is made but the operation is prohibited, or is in an operating state. Each of the indoor units 12 with low priority that is stopped (for example, the indoor unit 12 with the longest operating time in step S13) is put into a temporary operating state, and the temperature of the room to which the indoor unit 12 with high priority in the current operating state belongs is set. After the indoor unit 12 is stopped in accordance with the set temperature set for the indoor unit 12, the indoor unit 12 having a low priority in the temporary operation state may be operated.
[0082]
Further, in the first-priority priority indoor unit operation permission method, the indoor unit 12 that is requested to be operated but exceeds the number of simultaneous operation permitted for the indoor units 12 by the outdoor unit 11 or the boost-priority indoor unit operation permission method. , The indoor unit 12 that has already been in operation and is stopped when an operation request is made exceeding the number of permitted simultaneous operation of the indoor unit 12 by the outdoor unit 11 is also in a temporary operation state and is in the current operation state. After the indoor unit 12 to which the indoor unit 12 belongs matches the set temperature set for the indoor unit 12 and the indoor unit 12 is stopped, the indoor unit 12 in the temporary operation state may be operated. .
[0083]
In such a case, it is possible to quickly start the indoor unit 12 that has been requested to operate but is prohibited from being operated, or the indoor unit 12 that has been in the operating state but is to be stopped without requesting the operation again. The operability of the air conditioner 10 can be improved.
[0084]
【The invention's effect】
As described above, according to the air conditioner according to the present invention, in the air conditioner in which the number of simultaneously operated indoor units is limited, the outdoor unit includes a first-priority priority indoor unit operation permission method and a boost-priority indoor unit. Since any one of the indoor unit operation permission methods including the operation permission method and the indoor unit operation permission method based on the priority order of indoor units can be set, multiple indoor units can be operated efficiently And comfortable air conditioning can be realized.
[Brief description of the drawings]
FIG. 1 is a configuration diagram showing a configuration of an air conditioner according to the present invention.
2A is a chart showing an indoor unit operation permission method and the like stored in a nonvolatile memory of a control device in the outdoor unit of FIG. 1, and FIG. 2B is a diagram showing the indoor unit of FIG. It is a chart which shows the priority etc. of the indoor unit stored in the non-volatile memory of the control apparatus in a unit.
FIG. 3 is a flowchart showing a part of the operation control in the indoor unit operation permission system based on the priority order of the indoor units.
4 is a flowchart showing the remaining part of the operation control of FIG. 3;
FIG. 5 is a flowchart illustrating operation control in an operation mode selection method in the outdoor unit of FIG.
[Explanation of symbols]
10 Air conditioner
11 Outdoor unit
12 Indoor units
15 Control device
16 Control device

Claims (6)

In the air conditioner in which the number of indoor units connected to the outdoor unit exceeds the capacity of the outdoor unit, and the number of simultaneous operation of the indoor units is limited,
For the outdoor unit, a first-priority priority indoor unit operation permission method that preferentially operates an indoor unit that has been requested to operate first, and a boost priority indoor unit operation permission method that performs operation that gives priority to the indoor unit that is requested later. And any one of the indoor unit operation permission methods including the indoor unit operation permission method based on the priority order of the indoor units that operate the indoor unit based on the priority order set for the indoor unit. It is,
In the indoor unit operation permission system based on the priority order of the indoor units, the selection of which of the plurality of indoor units having the same priority order to be operated is the indoor unit that has been requested to run first, the indoor unit that has been requested to run later. Or an air conditioner that is determined based on either a temperature difference between a set temperature set in the indoor unit or the indoor temperature to which the indoor unit belongs .   The air conditioner according to claim 1, wherein the setting of the indoor unit operation permission method is performed by an operation switch of a control device in an outdoor unit or by a nonvolatile memory of the control device.   The air conditioner according to claim 1 or 2, wherein the priority order of the indoor units is determined by an operation switch of a control device in the indoor unit or by a nonvolatile memory of the control device.   Selection of which of a plurality of indoor units in an operating state is to be stopped is based on the priority order set for the indoor unit, the temperature difference between the set temperature set for the indoor unit and the temperature of the room to which the indoor unit belongs, The air conditioner according to any one of claims 1 to 3, wherein the air conditioner is determined based on one of an operation time of the indoor unit. An indoor unit that has been requested to operate but is not allowed to operate, or an indoor unit that is in an operating state but is stopped is placed in a temporary operating state, and the indoor temperature to which the indoor unit in the operating state belongs is set in the indoor unit. The air conditioner according to any one of claims 1 to 4, wherein the indoor unit in the temporary operation state is operated after the indoor unit is stopped in accordance with the set temperature. The air conditioner according to any one of claims 1 to 5, wherein the selection of the operation mode of the outdoor unit is made to coincide with the operation mode of the indoor unit that is operated most preferentially.

Images