JP3598357B2 - Multi type air conditioner - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a multi-type air conditioner including a plurality of outdoor units and a plurality of indoor units, and more particularly to a multi-type air conditioner suitable for equalizing the operation time of a fixed capacity compressor installed in each outdoor unit. The present invention relates to an air conditioner.
[0002]
[Prior art]
Conventionally, in a multi-type air conditioner in which a plurality of outdoor units are connected in parallel to the same refrigerant system, a control method for equalizing the operation integration time of each outdoor unit and equalizing the operation integration time of each compressor is as follows. As disclosed in Japanese Patent Application Laid-Open No. 6-249529, a method of performing rotation control in units of outdoor units is known. Also, a method of performing rotation control on a compressor basis only during the minimum capacity operation disclosed in Japanese Patent Application Laid-Open No. 10-281577 is known.
[0003]
[Problems to be solved by the invention]
In the above prior art, the operation integration time of each outdoor unit can be made uniform, but the deviation of the operation integration time of each compressor mounted on each outdoor unit cannot be prevented. There is inadequacy as a means to extend. Further, in the above prior art, since the application conditions are limited to the minimum capacity operation, if the operation / stop other than the minimum capacity operation is repeated, the rotation control is not applied, and the means for extending the life of the compressor is inadequate. There is.
[0004]
The present invention solves the above-mentioned deficiencies, and in a multi-type air conditioner including a plurality of outdoor units, the operation of the fixed capacity compressor installed in each outdoor unit is rotated, so that the fixed capacity compressor is rotated. It is an object of the present invention to provide a multi-type air conditioner capable of making the life of the air conditioner uniform.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, in the multi-type air conditioner of the present invention, a group in which a plurality of outdoor units are connected in parallel and a group in which a plurality of indoor units are connected in parallel are connected via one refrigerant piping system. One of the plurality of outdoor units is equipped with a variable capacity compressor and a fixed capacity compressor, and each of the other outdoor units is equipped with a plurality of fixed capacity compressors. In the multi-type air conditioner, which controls the number of operating constant capacity compressors to increase or decrease according to the time, the operation time of at least one constant capacity compressor in the outdoor unit is taken as the outdoor unit operating time, and each outdoor unit is operated. The outdoor unit operating time integrating means for integrating the respective operating times, and the operating order of the outdoor units in ascending order of the operating time integrated by the outdoor unit operating time integrating means, After the operation of the air conditioner, the outdoor unit rotation means for rearrangement, the compressor operating time integrating means for integrating the operating time of the fixed capacity compressor for each outdoor unit, and the compressor operating time integrating means for each outdoor unit After the operation of the air conditioner is completed, the operation order of the fixed capacity compressors is determined in ascending order of the operation time. When the outdoor unit rotation means increases, the outdoor unit rotation means cyclically commands the operation of the outdoor unit in the operation order rearranged by the outdoor unit rotation means, and the compressor rotation means relating to the specified outdoor unit rotates the compressor rotation. Operate one of the fixed capacity compressors in the order of operation rearranged by means It is characterized in.
[0006]
In the above multi-type air conditioner, it is preferable that the compressor rotation means be configured to stop the constant-capacity type compressors in operation in the order of starting operation. Preferably, the outdoor unit operation time integrating means and the outdoor unit rotation means are provided in an outdoor unit equipped with a variable capacity compressor and a fixed capacity compressor. Further, it is preferable that the compressor operating time integrating means and the compressor rotation means are installed in each outdoor unit.
[0007]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration diagram of a multi-type air conditioner according to an embodiment of the present invention. In FIG. 1, four outdoor units are shown as an example, but the number is not limited to this.
This multi-type air conditioner has a group of indoor units in which four outdoor units 1A, 1B, 1C and 1D are installed in parallel by a communication line 30 and a refrigerant pipe 4 as a group of outdoor units installed in parallel. It is connected to a number of indoor units 5... 5 as a unit. The outdoor unit 1A is equipped with a variable capacity compressor 10A and a fixed capacity compressor 11A. On the other hand, two fixed capacity compressors 11B-1 and 11B-2 are installed in the outdoor unit 1B, and two fixed capacity compressors 11C-1 and 11C-2 are installed in the outdoor unit 1C. 1D is also equipped with two constant capacity compressors 11D-1 and 11D-2.
[0008]
Controllers 20A, 20B, 20C, and 20D are mounted on the outdoor units 1A, 1B, 1C, and 1D, respectively. In particular, the controller 20A of the outdoor unit 1A calculates the optimum operation capacity based on the operation request, load, and the like from the indoor units 5... 5 and sends an operation signal and the like to the controllers 20B, 20C, and 20D of the other outdoor units 1B, 1C, and 1D. It plays a general role in controlling the multi-type air conditioner that emits air. Many of these controllers 20A to 20D are in the form of a printed circuit board.
[0009]
Further, by providing the outdoor units 1A, 1B, 1C, 1D with communication means 25A, 25B having the same communication protocol as the indoor unit and the outdoor unit, connection can be realized by one communication line 30.
[0010]
FIG. 2 is a functional block diagram of the controller 20A of the outdoor unit 1A. The controller 20A includes, as main components, an outdoor unit operating time integrating means 21A for integrating the operating time of each of the outdoor units 1A to 1D, and an outdoor unit for rotating each of the outdoor units 1A to 1D with a smaller operating integrated time. The rotation means 22A, the compressor operation time integration means 23A for integrating the operation times of the variable capacity compressor 10A and the fixed capacity compressor 11A mounted on the outdoor unit 1A, and the compressor operation time integration time Compressor rotation means 24A for rotating so as to operate from a smaller number, controllers 20B, 20C and 20D of each indoor unit 5... 5 and outdoor units 1B, 1C and 1D, and mainly various temperature, pressure sensor detection values and operation commands. Communication means 25A for communicating data such as Consists of However, in the outdoor unit operation time integrating means 21A of the outdoor unit 1A, it is assumed that only the operation time of the fixed capacity type compressor 11A is related to the rotation of the outdoor unit, and does not include the operation of the fixed capacity type compressor 10A. . Also, since the compressor rotation means 24A rotates only the fixed capacity compressor, the same one is always selected when there is one fixed capacity compressor. The operation integration time of each of the outdoor units 1B, 1C, 1D is obtained by integrating the time during which at least one of the two fixed capacity compressors is operating.
[0011]
FIG. 3 is a functional block diagram of the controller 20B of the outdoor unit 1B. The controller 20B includes, as main components, a compressor operation time integration means 23B for integrating the operation times of the fixed capacity compressors 11B-1 and 11B-2 mounted on the outdoor unit 1B itself, Compressor rotation means 24B which starts operation of the fixed type compressors 11B-1 and 11B-2 from the one with the shortest integrated operation time, and rotates the fixed capacity type compressor during operation so as to stop in order of operation start; It comprises a controller 20A of the outdoor unit 1A that controls the control of the air conditioner, and a communication unit 25B that mainly communicates data such as various temperatures, pressure sensor detection values, and operation commands. Similarly to the controller B, the controller 20C (20D) of the other outdoor unit 1C (or 1D) also has compressor operating time integrating means 23C (23D), compressor rotation means 24C (24D), and communication means 25C (25D). Consists of
[0012]
Next, the operation of the outdoor unit rotation means 22A of the outdoor unit 1A will be described. The outdoor unit rotation means 22A performs rotation so that the operation of each of the outdoor units 1A to 1D is started with priority over the one with the shorter integrated operation time as described above. When the load on the indoor unit side is increased, the outdoor unit rotation means 22A operates one of the constant capacity compressors in the outdoor unit having a higher operation order, and the constant capacity compressor in the outdoor unit of the next order. An operation command is issued to the outdoor unit cyclically, such as operating one machine. Then, as the load decreases, a command is issued to stop the operating constant capacity compressors in the order of starting operation.
[0013]
As shown in FIG. 4, the integrated operation time of the outdoor units 1A, 1B, 1C, and 1D is 12h, 14h, 10h, and 16h, and the fixed capacity compressor of the outdoor units 1A, 1B, 1C, and 1D is mounted. Assuming that the number of units is one, two, two, or two, the outdoor unit rotation means 22A rotates the operation of each outdoor unit and each fixed capacity compressor according to the table shown in FIG. Perform
[0014]
The outdoor unit rotation means 22A has a table shown in FIG. 5, that is, an operation waiting table and a stop waiting table. The operation waiting table indicates which outdoor unit starts operation when the multi-type air conditioner starts operation (operation number 1 to 4), and the stop waiting table indicates which outdoor unit during operation. This indicates the stop from the unit or the stop order (No. 1 to No. 4). Patterns 1 to 7 shown in the vertical direction of the table represent states that change from the state of the end of the previous operation of the multi-type air conditioner in accordance with the increase or decrease of the load on the indoor unit in the next operation. Here, the number of the alphabets indicates the number of mounted fixed capacity compressors, where A is one fixed capacity compressor (11A) of the indoor unit 1A, and BB is two capacity of the indoor unit 1B. The fixed compressors (11B-1 and 11B-2), the CC has two units of the fixed capacity compressors (11C-1 and 11C-2) of the indoor unit 1B, and the DD has two units of the indoor unit 1B. Of these compressors (11D-1, 11D-2).
[0015]
Pattern 1 is the contents of the “operation waiting table” at the time of the previous operation of the multi-type air conditioner, and the order of starting the operation of the outdoor units 1A to 1D is 1A, 1B, 1C, 1D. After the end of the previous operation, the outdoor unit rotation means 22A sets the operation order of the outdoor units to 1C (CC), 1A (A), 1B in the order of the operation integrated time as shown in FIG. (BB), rearranged to 1D (DD).
[0016]
Thereafter, when an operation command is input and three compressors of the constant capacity type are required depending on the load state, first, the outdoor unit 1C having the first operation order in pattern 2 is operated, and two of the outdoor units 1C are operated at a constant capacity. One of the type compressors (CC) (C) is operated. At this time, the operation waiting table is rotated, as shown in pattern 3, the outdoor unit 1C is placed at the lowest position, and the operation order of the other outdoor units 1A, 1B, and 1D is raised by one, and the fixed capacity compressor that has been operated is operated. (C) is moved to the first stop order in the stop wait table.
[0017]
Subsequently, the second unit operates the outdoor unit 1A having the first operation order according to the pattern 3, and operates one of the fixed capacity compressors (A). At this time, the operation waiting table is rotated, the priority of 1B, 1D, and 1C is moved up by one as shown in pattern 4, and the operated fixed capacity compressor (A) is stopped in the stop order of the stop waiting table. Move to turn. Here, since the outdoor unit 1A has only one constant capacity compressor, the operation order of the operation waiting table is apparently lost, but this operation order is returned to the constant capacity compressor (A). When you come back,
[0018]
The third unit operates the outdoor unit 1B having the highest operation order in pattern 4 and operates one (B) of the two fixed capacity compressors (BB). At this time, the operation waiting table is rotated, as shown in pattern 5, the outdoor unit 1B is placed at the lowest position, the operation order of the other outdoor units 1D and 1C is raised by one, and the operated fixed capacity compressor (B ) Is moved to the third stop order in the stop wait table. At this time, there are four fixed-capacity compressors on standby in the operation waiting table and three fixed-capacity compressors on standby in the stop waiting table.
[0019]
In the case where one constant-capacity compressor is added from the state of pattern 5 due to a further increase in load, the compressor is added in the same manner as the operation of the third unit, and the operation wait table and the stop wait table change as in pattern 6. . Thereafter, if necessary, the operation of the fixed capacity compressor is added in the order of the outdoor units 1C, 1B, and 1D, and up to seven units are operated. At this time, the order in each of the operation waiting table and the stop waiting table is expanded to number 7, and the number of patterns is also expanded.
[0020]
Pattern 7 shows a state in which one of the three fixed-capacity compressors is in operation in the stop waiting table and is stopped due to a decrease in load. At this time, the fixed capacity compressor (C) having the first stop order in the stop waiting table returns to the position of the outdoor unit 1C in the operation waiting table. In a single operation of the multi-type air conditioner (from the start to the end of operation), the priority of the outdoor units 1C, 1A, 1B, and 1D changes cyclically in this operation waiting table according to the increase and decrease of the load. However, it does not switch back and forth.
[0021]
By performing the rotation of the outdoor unit as described above, a multi-type air conditioner that can make the operation time of the outdoor unit uniform can be realized. However, the operation of the variable capacity compressor in the outdoor unit 1A is not considered.
[0022]
Next, the operation of the compressor rotation means (24A, 24B, 24C, 24D) will be described by taking the compressor rotation means 24B in the control device 20B of the outdoor unit 1B as an example. Now, as shown in FIG. 6, it is assumed that the integrated operation time of the two fixed capacity compressors 11B-1 and 11B-2 mounted on the outdoor unit 1B is 6 hours and 8 hours.
[0023]
As shown in FIG. 7, the compressor rotation means 24B includes an operation waiting table indicating the operation order of the fixed capacity compressor to be operated and a stop waiting table indicating the stop order of the operating fixed capacity compressor. And The numbers 1 and 2 in these tables indicate the machine numbers assigned to the fixed capacity compressors. Patterns 1 to 5 shown in the vertical direction of the table represent states that change from the state of the end of the previous operation of the multi-type air conditioner in accordance with the increase or decrease of the load on the indoor unit in the next operation.
[0024]
Pattern 1 shows the contents of the operation waiting table at the time when the previous operation of the multi-type air conditioner was completed. At the end point, the accumulated operation time of each constant capacity compressor is 6 hours for the compressor 1 and 8 hours for the compressor 2 as shown in FIG. Here, the compressor rotation means 24B rearranges the operating order of the compressors as shown in pattern 2 in the order of 1 and 2 in which the operation integration time is small. Thereafter, when the operation of one compressor is instructed by the controller (20A), the compressor 1 having the higher priority is operated, the operation waiting table is rotated, and the compressor 2 is operated as shown in the pattern 3. The operating order is raised, and the operated compressor 1 is moved to the stop order No. 1 in the stop waiting table. Then, if there is an additional operation command of the constant capacity compressor to the outdoor unit 1B, the compressor 2 in the operation waiting table of the pattern 3 is operated, and the compressor 2 operated as shown in the pattern 4 is stopped. Move to the stop order number 2 in the waiting table.
[0025]
Conversely, if there is a command to decrease the load of the fixed capacity compressor to the outdoor unit 1B due to the decrease in load in the state of the pattern 3, the compressor rotation means 24B causes the compressor 1 with the first stop order in the stop wait table to stop. Is moved to the second operation order in the operation waiting table as in operation pattern 5.
[0026]
By rotating the fixed capacity compressor as described above, a multi-type air conditioner that can make the operation time of the fixed capacity compressor uniform can be realized. Thus, as desired by the user, it is possible to provide a multi-type air conditioner that realizes an operation that does not shorten the life of a specific outdoor unit and a compressor by offsetting the operation time of the fixed capacity compressor.
[0027]
In this embodiment, since the outdoor unit 1A has only one fixed capacity compressor, the compressor rotation means 24A always selects one fixed capacity compressor. When the outdoor unit 1A has a plurality of fixed capacity compressors, it operates in the same manner as the compressor rotation means 24B. Further, the number of fixed capacity compressors mounted on each outdoor unit may be appropriately increased.
[0028]
When the integration of the operation time of the indoor unit and the fixed capacity compressor is realized by a microcomputer or the like, as a method of managing the integration time, when the total operation integration time reaches a predetermined time, the minimum operation integration time is set to By subtracting from the integration time, the value of the operation integration time becomes smaller. This makes it possible to minimize the memory required for managing the accumulated operation time.
[0029]
【The invention's effect】
According to the present invention, in a multi-type air conditioner in which one outdoor unit is equipped with a variable capacity compressor and a fixed capacity compressor, and each of the other outdoor units is equipped with a plurality of fixed capacity compressors, The operating time of at least one constant capacity compressor is defined as the outdoor unit operating time, and when the load increases, one of the constant capacity compressors is operated in order from the outdoor unit having the shorter cumulative operation time to further increase the load. The remaining constant-capacity compressors were operated in the same outdoor unit order as described above in accordance with the increase, and the fixed-capacity compressors of each outdoor unit were rotated so as to start operation in ascending order of operation integration time. There is an effect that the operation time of the outdoor unit and the operation time of each fixed capacity compressor can be made uniform.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a multi-type air conditioner according to an embodiment of the present invention.
FIG. 2 is a functional block diagram of a main controller in the multi-type air conditioner of the embodiment.
FIG. 3 is a functional block diagram of another controller in the multi-type air conditioner of the embodiment.
FIG. 4 is a diagram showing an example of an integrated operation time of each outdoor unit.
FIG. 5 is a diagram illustrating an example of rotation of an outdoor unit.
FIG. 6 is a diagram showing an example of an integrated operation time of a fixed capacity compressor.
FIG. 7 is a diagram illustrating an example of rotation of a fixed capacity compressor.
[Explanation of symbols]
1A to 1D Outdoor unit 4 Refrigerant pipe 5 Indoor unit 6 Remote control switch 10A Variable capacity compressor 11A to 11D Constant capacity compressor 20A to 20D Controller 30, 31 Communication line

Claims (4)

A group of a plurality of outdoor units connected in parallel and a group of a plurality of indoor units connected in parallel are connected via a refrigerant piping system, and one of the plurality of outdoor units has a capacity-variable compressor and a capacity. A fixed compressor is mounted, and the other outdoor units are mounted with a plurality of fixed capacity compressors, and are controlled so as to increase or decrease the number of operating fixed capacity compressors according to an increase or decrease in the load of the indoor unit. In the multi-type air conditioner, an outdoor unit operation time accumulating means for accumulating the operation time of each of the outdoor units, with an operation time of at least one constant capacity compressor in the outdoor unit as an outdoor unit operation time; An outdoor unit rotor that rearranges the operating order of outdoor units after the operation of the air conditioner in ascending order of operation time accumulated by the unit operation time accumulation means. A compressor operating time integrating means for integrating the operating time of the fixed capacity compressor for each outdoor unit, and a small operating time integrated by the compressor operating time integrating means for each outdoor unit. A compressor consisting of compressor rotation means for rearranging the operation order of the fixed capacity compressor in sequence after the operation of the air conditioner is completed, and when the load increases in the next operation of the air conditioner, the outdoor unit rotation is performed. The means cyclically instructs the operation of the outdoor unit in the operation order rearranged by the outdoor unit rotation means, and the compressor rotation means related to the instructed outdoor unit is the operation order rearranged by the compressor rotation means. Multi-type air conditioner characterized by operating one of the constant capacity compressors . 2. The multi-type air conditioner according to claim 1, wherein the compressor rotation unit stops the operating constant-capacity compressor in an operation start order. 3. The multi-type according to claim 1 or 2, wherein the outdoor unit operation time integrating means and the outdoor unit rotation means are provided in an outdoor unit equipped with the variable capacity compressor and the fixed capacity compressor. Air conditioner. The multi-type air conditioner according to claim 3, wherein the compressor operating time integrating means and the compressor rotation means are provided in each of the outdoor units.

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