JP5494952B2 - Air conditioner system - Google Patents

Description

  The present invention relates to the function of an air conditioner system, and more particularly to an air conditioner system including a management device that can objectively display inappropriate operation related to energy saving of each indoor unit.

  Conventionally, in an energy saving management system, Patent Literature 1 is disclosed as including an indoor unit of an air conditioner and a management server that manages lighting. In this system, when the operation of the indoor unit is managed, the screen display of FIG. 8 is performed.

  The purpose of this system is to make it easy for the user to practice energy saving by making it easy to see the suitability of operation of lighting equipment and air conditioning equipment installed in a building. And the management server of this system collects the driving | running state of a lighting device or an indoor unit, and judges whether the driving | operation of these apparatuses is appropriate for every area.

  For example, when the indoor unit is in operation, if the set temperature is excessively set by comparing the room temperature, and if the difference between the indoor unit set temperatures in the same area is 3 ° C or more, the operation is It is determined whether the driving is inappropriate. The management server displays these determination result states on the screen. When improper operation is performed, a caution message is displayed, and the display on the screen of the corresponding device blinks so that the device that is improperly operated stands out.

  On the other hand, Patent Document 2 discloses an air conditioner management apparatus that comprehensively monitors energy-saving operation of a plurality of indoor units based on the amount of power used and easily identifies indoor units that can save energy. An information display example of the specified indoor unit is shown in FIG.

  This air conditioner management device stores the operating time of each indoor unit and the amount of power used that is apportioned for each indoor unit from the amount of power used by the entire system, and the standard per day based on the amount of power used by each indoor unit. An electric energy (for example, average electric energy) is calculated, the reference electric energy is compared with the used electric energy of each indoor unit, and an indoor unit with an extremely high electric energy is extracted and displayed.

  In the display example of FIG. 9, the corresponding indoor unit is 2.0 times or more the average power of the indoor unit, and the operation is very inefficient. For this reason, it is displayed so as to propose a review of the set temperature.

  However, in these two patent documents, only one display element is displayed simultaneously for one indoor unit. For example, in Patent Document 1, there is an inappropriate set temperature or a set temperature deviation for each indoor unit. Moreover, in patent document 2, it is only the item of power consumption. Certainly, the amount of power consumption will eventually increase due to various energy saving impediments, but the details are unknown even if there are multiple factors.

  If it is a factor such as a failure, the subsequent operation of the indoor unit will be stopped, so there is no problem even with such a display, but the energy-saving operation is only inefficient and the indoor unit can be continuously operated because it is not a failure. is there. In general, there are a plurality of types of causes of inefficiency in energy-saving operation, and in order to improve the efficiency, it is necessary to clarify these plural causes and remove them. For this reason, it is not sufficient to display only one cause for one indoor unit. Both patent documents can record and display multiple causes as history, but since they are not compiled for each indoor unit, it is not possible to comprehensively determine whether or not an indoor unit is energy saving. .

  In Patent Document 2, the reference value of the electric energy is calculated. However, for example, when the efficiency of all indoor units is deteriorated due to filter contamination, the reference value is also calculated based on the deteriorated efficiency. As a result, there is a problem that accurate energy saving operation cannot be determined.

JP 2009-265971 A (7th page, FIG. 4) JP 2009-174782 A (page 11-12, FIG. 5)

  The present invention solves the above-described problems and provides an air conditioner system including a management device capable of presenting a plurality of factors impeding energy saving operation for each indoor unit and displaying the factors in a unified manner for easy viewing. For the purpose.

In order to solve the above-described problems, the present invention is an air conditioner system that includes a plurality of indoor units, an outdoor unit, and a management device that manages the indoor unit and the outdoor unit, and these are connected by a communication line. The indoor unit has a function of sequentially transmitting operation information of the indoor unit to the management device,
The management device stores the received operation information as a management table corresponding to the indoor unit, and extracts a plurality of inappropriate operation items against energy-saving operation from the operation information stored in the storage device. A suitable operation item extracting means, and a display means for displaying display contents corresponding to the plurality of inappropriate operation items for each indoor unit ,
The inappropriate driving item extraction means refers to a table of the inappropriateness value and the driving information that are determined in advance for each of the inappropriate driving items and stored in the storage means, and for each of the inappropriate driving items. An inappropriate degree evaluation means for evaluating an inappropriate degree, and the management device includes an inappropriate degree total calculating means for calculating the total inappropriate degree by adding the inappropriate degree for each indoor unit, the display The means displays at least one of a color, a shape, a numerical value, and a symbol corresponding to the inappropriate degree total .

By using the above means, according to the air conditioner system of the present invention,
Since the information regarding the plurality of inappropriate operation items extracted by the inappropriate operation item extraction unit is displayed for each indoor unit, it is possible to present in a format that allows the administrator to easily recognize whether the indoor unit is inappropriate operation. In addition, the inappropriateness is evaluated for each inappropriate operation item that violates energy-saving operation, and the inappropriateness is summed up for each indoor unit to calculate the inappropriateness total, which is easy for the administrator to understand. Therefore, it is possible to present in an easy-to-recognize form to the manager the indoor units that are operating inappropriately among a large number of indoor units and the degree thereof.

It is a block diagram which shows the Example of the air conditioning system by this invention. It is a block diagram which shows the Example of the indoor unit of the air conditioner system by this invention. It is explanatory drawing which shows an example of an inappropriate driving | operation item table. It is explanatory drawing explaining an example of a management table. It is explanatory drawing which shows an example of the display in the management apparatus by this invention. It is a block diagram which shows the Example of the management apparatus by this invention. It is a flowchart explaining the process of the management apparatus by this invention. It is an example of a display of the management apparatus in the conventional air conditioning system. It is an example of a display of the management apparatus in the other conventional air conditioning system.

  DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail as examples based on the attached drawings.

  FIG. 1 is a block diagram illustrating an air conditioner system according to the present invention.

  FIG. 1 shows a case where an air conditioner system according to the present invention is arranged in a building 1 on the third floor above ground and the first floor below. This air conditioner system includes a refrigerant connected to a management device 4 and an outdoor unit 19. Refrigerant system A including pipe 8 and indoor units 11, 12, 15, 16, 17, and 18 connected thereto, refrigerant pipe 9 connected to outdoor unit 20, and indoor units 13 and 14 connected thereto And a refrigerant system B consisting of Each indoor unit, outdoor unit, and management device 4 can communicate with each other via a communication line 7.

  The indoor unit 12 is connected to an indoor unit remote controller 12a having a display unit 12b. In the present embodiment, the term “indoor unit” includes the indoor unit remote controller. Moreover, although an individual code | symbol is provided to an indoor unit, all are functionally the same.

  Each device connected to the communication line 7 in the air conditioner system is assigned a communication address dedicated to each device, and can identify each other using this address and can communicate with each other. As shown in FIG. 1, addresses # 1 to # 8 are assigned to the indoor units 11 to 18, addresses # 35 and # 36 are assigned to the outdoor units 19 and 20, and addresses # 0 are assigned to the management device 4. Assigned.

  As described above, since each device is communicably connected to the management device 4 via the communication line 7, for example, not only the indoor unit remote controller 11 a is operated to control the indoor unit 11 but also the operation information of the indoor unit 11. Can be transmitted to the management device 4, and conversely, the indoor unit 11 can be controlled in accordance with information from the management device 4. In addition, system information can be displayed on the indoor unit remote controller 11a via the indoor unit 11. The management device 4 receives operation information such as the set temperature and operation mode of each indoor unit, and operation information of each outdoor unit, and stores it in the management device 4.

  The management device 4 is installed on the ground floor of the building 1, indoor units 15 to 18 are installed on the first floor, indoor units 12 and 14 are installed on the second floor, and indoor units 11 and 13 are installed on the third floor. . Air conditioning groups 1 to 3 are assigned corresponding to the first to third floors. These air conditioning groups are group numbers assigned to collectively manage the indoor units in units of tenants or offices. In many cases, one room or floor is grouped together. The air conditioning group number is stored for each indoor unit in the management device 4.

  On the other hand, as shown in the block diagram of the management device 4 in FIG. 6, the management device 4 includes an input unit 41 such as a keyboard and a mouse (not shown), a display unit 42 composed of a liquid crystal monitor, and storage means composed of a hard disk, memory, and the like. Are a storage unit 43, a communication unit 44 connected to the communication line 7, and a control unit 45 for controlling them. In general, the management device 4 is composed of a personal computer.

  And the microcomputer is mounted in each apparatus of the indoor unit of this air-conditioner system shown in FIG. 1, and an outdoor unit. Furthermore, the control unit 45 of the management device 4 is a personal computer equipped with a CPU, and the microcomputer and the CPU execute programs in each device to perform various processes and realize various functions and means. It has become. Therefore, each function in the process explanation flowchart for each device to be described later is realized by these microcomputers and CPUs executing predetermined program steps according to the processing procedure.

  FIG. 2 is a block diagram of the indoor unit 12. Since this block diagram has the same configuration as other indoor units, description of the other indoor units is omitted.

  As shown in FIG. 2, the indoor unit 12 inputs a remote control receiving unit 21 that receives an infrared signal transmitted from an infrared remote controller (not shown), a room temperature sensor 27 that detects a room temperature, and a detection signal from the room temperature sensor 27. Via a room temperature sensor input unit 25, a notification unit 22 that generates a buzzer sound or synthesized sound according to an input instruction, a blower fan motor 23, a stepping motor 24 that adjusts the angle of the vertical air direction plate, and a communication line 7 A communication unit 29 that communicates with other devices, an indoor unit remote controller 12a that accepts an operator's key operation, and an indoor unit control unit 26 that is a control means for controlling these. Note that the indoor unit control unit 26 communicates with the indoor unit remote controller 12a via the connection line 12d.

  The indoor unit remote controller 12a transmits the data corresponding to the operated key to the indoor unit control unit 26 each time the key of the key operation unit 12c provided in the indoor unit remote control 12a is operated. The unit 26 controls the indoor unit 12 according to this data. Moreover, if it is data corresponding to the operated key and data relating to the operation of the indoor unit 12, for example, operation information such as an operation mode, a set temperature, a wind direction, and an air volume, this information is used as the indoor unit control unit. 26 transmits to the management apparatus 4. Further, the indoor unit remote controller 12a is provided with a display unit 12b, which displays the display contents corresponding to the operated key and various information transmitted from the management device 4. The indoor unit control unit 26 periodically transmits room temperature data detected by the room temperature sensor 27 to the management device 4.

  FIG. 3 is an explanatory diagram for explaining an improper operation item table that includes improper operation items that inhibit energy-saving operation and evaluation items thereof. In FIG. 3, “inappropriate operation item” is an item that impedes energy-saving operation managed by the management device 4 for each indoor unit. Filter contamination, improper wind direction, improper temperature setting, unscheduled operation Opening doors and windows in close proximity to indoor units, inappropriate mode of operation.

  For each of these items, a degree of inappropriateness obtained by adding a weight according to the degree of inappropriateness and quantifying it is determined in advance. This numerical inadequacy and its evaluation items are described in the “Evaluation Items” section. The inappropriate operation item table is stored in the storage unit 43 in advance.

  As for filter contamination, the inappropriateness is determined by the operation time since the previous filter cleaning. The inappropriateness is less than 100 hours: 0, the inappropriateness is less than 100 to 200 hours: 1, and the inappropriateness is less than 200 to 300 hours. Appropriateness: 2,300 hours or more are defined as inappropriateness: 3.

  Regarding the inappropriate wind direction, the degree of inappropriateness is determined by the heating and cooling operation modes and the direction of the vertical wind direction plate of the indoor unit. Since warm air from the heating operation stays in the room, the direction of the vertical wind direction plate must be at least a position other than the horizontal direction (defined as the upward direction). For this reason, the degree of inappropriateness is 1 when the wind direction is “up” in the heating operation. In the case of cooling operation based on the same idea, the degree of inappropriateness is 1 when the wind direction is downward. In addition, in a state other than these, that is, in an oblique direction, or in an upward direction in cooling operation or in a downward direction in heating operation, the degree of inappropriateness is set to zero.

  The inappropriate set temperature is determined by the difference from the average set temperature within the same group. Basically, the same group is grouped in the same room or floor and is considered to be almost the same environmentally, and it is considered strange that the set temperature is extremely different. Therefore, if the temperature difference with the average set temperature within the same group is less than ± 2 ° C, the degree of inappropriateness is 0. If the temperature difference with the average set temperature within the same group is ± 2 ° C or more, the inappropriate degree is 2 It is said.

  The unscheduled operation is determined by whether or not the operation is within a predetermined scheduled time. This assumes a driving operation that is forgotten to be turned off, and the inappropriateness level is 0 if it is within the range of the scheduled use, and the inappropriateness level is 2 if the driving is not scheduled to be used.

  The opening of doors and windows is determined by the time required to reach the set temperature. Therefore, the same factors, such as not window curtains during cooling operation, are included in this. If the doors and windows are open, naturally, even if the indoor unit is operated at full power, it takes time to reach the set temperature, or the set temperature is not reached.

  For this reason, the degree of inappropriateness is determined based on the relationship between the set temperature and room temperature, the elapsed time from when the set temperature is changed, the operation is started, and the operation mode is changed. It is defined that the room temperature has reached the set temperature when the set temperature and the room temperature are substantially equal.

  The time to reach the set temperature is less than 30 minutes, the degree of inappropriateness is 0, the time of arrival is less than 30 minutes to less than 1 hour, the degree of inappropriateness is 1, the time of arrival is less than 1 hour to less than 2 hours, the degree of inappropriateness is 2, When the set temperature is not reached even after 2 hours or more, the inappropriate degree is set to 3.

  An inappropriate operation mode is determined by whether or not the operation modes in the same group are different. Basically, the same group is grouped in the same room or floor, and is considered to be almost the same in terms of environment, and it is considered strange that the operation mode is different within the same group. Therefore, if the operation mode is the same within the same group, the inappropriateness level is 0. If the operation mode is different within the same group, the inappropriateness level is 3.

  Note that the individual items and inappropriateness values described in the “Evaluation Items” section are determined by comparing each data in the management table described later with this individual item. Yes. The function for determining the numerical value of this inappropriateness is an inappropriateness evaluation means.

  FIG. 4 is an explanatory diagram illustrating an example of a management table stored in the storage unit 43 provided in the management device 4. As described above, the operation information of the indoor unit is sequentially transmitted to the management device 4, and the management device 4 stores and manages the transmitted information as a table for each indoor unit.

  The items managed in this management table are the device address, the type of indoor unit and outdoor unit, refrigerant system, group number, operation status, operation mode, set temperature, room temperature, air volume, wind direction, Operation time after filter cleaning, elapsed time since operation change, planned usage time, total inappropriateness, etc. The inappropriate degree total is a total of inappropriate degree values for each indoor unit calculated based on data stored in the management table. The function of summing the inappropriateness value is the inappropriateness total calculation means.

In the group number items, addresses # 1 and # 3 are registered in the air conditioning group 3, addresses # 2 and # 4 are registered in the air conditioning group 2, and addresses # 5 to # 8 are registered in the air conditioning group 1, respectively.
Also, only the indoor unit at address # 4 is stopped, and all other devices are in operation. Regarding the operation mode, the refrigerant system A is in the cooling operation, and the refrigerant system B is in the heating operation. The other items have the values shown in FIG. 4, and the contents of this management table indicate the current state at 12:00 noon.

  The item contents of the address, type, and refrigerant system are determined when the system is installed, and the item contents of the group number and the scheduled usage time are specified by the operation of the management device 4 by the administrator only when a change occurs. The contents of each indoor unit corresponding to the items of operation state, operation mode, set temperature, air volume, wind direction, and room temperature are updated by transmission data from the corresponding indoor unit.

  Next, processing performed by the management device 4 will be described. When the management device 4 receives an instruction to complete the filter cleaning of the indoor unit by the operation of the manager, the management device 4 rewrites the content of the item “operation time after filter cleaning” in the management table of the corresponding indoor unit to 0 hour. As the time elapses, the management device 4 updates the time of the item content of “operation time after filter cleaning” for all indoor units. In addition, time update is not performed when the operation of the corresponding indoor unit is stopped.

  In addition, the administrator may not press the management device 4 to complete the filter cleaning of the indoor unit, but may instead press the clear button for the filter cleaning time provided in each indoor unit remote controller. The indoor unit remote controller transmits this clear information to the management device 4 via the indoor unit, and when the management device 4 receives this clear information, the item content of “operation time after filter cleaning” in the corresponding indoor unit of the management table May be rewritten to 0 hour.

  In addition, when the management device 4 receives operation change data from the indoor unit, for example, operation start, set temperature change, and operation mode change data, the item “Elapsed time from operation change” for the corresponding indoor unit in the management table. Rewrite the content to 0 hours. As the time elapses, the management device 4 updates the time of the item content of “Elapsed time since operation change” for all indoor units that have been notified of operation change. When the operation of the corresponding indoor unit is stopped, this value is 0 hour, and the time is not updated while the operation is stopped.

  Next, the inappropriateness evaluation performed by the management device 4 will be described. Although the inappropriateness evaluation method is described in the item of inappropriate driving items in FIG. 4, all parameters for performing the evaluation are stored in the management table except for the current time. For the current time, the time of a calendar clock provided as a function of the control unit 45 of the management device 4 is referred to.

Here, an evaluation example of the degree of inappropriateness in each detection item will be described with reference to FIGS. 3 and 4. However, since the indoor unit at address # 4 has stopped operation, the inappropriateness evaluation of all inappropriate operation items is not performed. In addition, the function which performs the inappropriateness evaluation of each inappropriate driving item is an inappropriateness evaluation means, and the function which integrates various inappropriateness evaluation means is an inappropriate driving item extraction means.
(1) Filter contamination: discriminated based on the operation time since filter cleaning The indoor unit at address # 1 has an operation time (total) of 250 hours after filter cleaning, so the inappropriateness level is 2. Similarly, the inappropriateness levels of the indoor units at addresses # 2 to # 3 and # 5 to # 8 are 0, 0, 0, 1, 0 and 1.
(2) Inappropriate wind direction: discriminate by operation mode and wind direction The indoor unit at address # 1 has an operation degree of cooling and the wind direction is downward. Similarly, the inappropriateness of the indoor units at addresses # 2 to # 3 and # 5 to # 8 is 0, 0, 0, 0, 0, 0.
(3) Inappropriate set temperature: discriminated by group number and set temperature The indoor unit at address # 1 has a set temperature of 28 ° C and belongs to an air conditioning group with a group number of 3. The indoor unit (address # 3) of the air conditioning group with the same group number 3 has a set temperature of 20 ° C. For this reason, the indoor unit at address # 1 is 4 ° C. higher than the average set temperature of the two indoor units, 24 ° C. Therefore, the inappropriate degree is 2.
Similarly, the inappropriateness of the indoor units at addresses # 2 to # 3 and # 5 to # 8 is 0, 2, 0, 2, 0, 0.
(4) Unscheduled operation: Discrimination based on current time and planned usage time The indoor unit at address # 1 has a scheduled usage time of 8:00 to 19:00 and the current time is 12:00. The inappropriateness level is 0. Similarly, the inappropriateness of the indoor units at addresses # 2 to # 3 and # 5 to # 8 is 2, 0, 0, 0, 0, 0.
(5) Opening doors and windows: Judged by the set temperature, the current room temperature, and the elapsed time since the change of operation The indoor unit at address # 1 has an elapsed time of 3 hours since the change of operation, but the room temperature remains at the set temperature Since it is maintained, the degree of inappropriateness is zero. Similarly, the inappropriateness of the indoor units at addresses # 2 to # 3 and # 5 to # 8 is 2, 0, 0, 0, 0, 0.
(6) Inappropriate operation mode: discriminated based on group flight number and operation mode The indoor unit at address # 1 belongs to the air conditioning group whose operation mode is cooling and whose group number is 3. The indoor unit (address # 3) of the air conditioning group with the same group number 3 has the operation mode heating. For this reason, the indoor unit of address # 1 has a different operation mode from other indoor units in the same air conditioning group. Therefore, the inappropriate degree is 3.
Similarly, the inappropriateness of the indoor units at addresses # 2 to # 3 and # 5 to # 8 are 0, 3, 0, 0, 0, 0.

  As a result of the above, a value obtained by summing the inappropriateness of each indoor unit is stored as the content of the corresponding indoor unit in the item “total inappropriateness” of the management table. Therefore, the inappropriateness of the indoor units at addresses # 1 to # 3 and # 5 to # 8 is 8, 4, 5, 0, 3, 0, 1.

  FIG. 5 is an example of an indoor unit monitoring screen in the management apparatus 4 and shows an “indoor unit inappropriate operation monitoring screen”. In this screen, the floor plan of the room in which the indoor unit is arranged in the air conditioner system and the indoor unit arranged there are schematically shown.

  Each indoor unit is indicated by a square mark, and address numbers # 1 to # 8 of the indoor unit are displayed therein. For example, (8) displayed for the indoor unit at address # 1 indicates the improperness value stored in association with the corresponding indoor unit in the “total inappropriateness” section of the management table described above. ing. When the inappropriate degree total is not displayed, it indicates that the inappropriate degree value is zero.

  When the inappropriate degree total is displayed, the entire indoor unit mark is displayed in color corresponding to the value (level). This color display is divided into four levels as shown in the color legend of the inappropriate level total level in the upper right of the screen. The inappropriate level total: 0 is colorless, and the inappropriate level total is 1: yellow. Each inappropriate unit is displayed in orange when the degree of inappropriateness is 2, orange when the total inappropriate degree is 3 to 5, and red when the total inappropriate degree is 6 or more. The stopped indoor unit is displayed as “stopped”.

  A balloon mark is displayed on the indoor unit in which the inappropriate degree total is displayed, and an inappropriate driving item and an inappropriate degree are displayed in the balloon mark. Therefore, the administrator can intuitively recognize the indoor unit that is against the energy-saving operation and its inappropriateness by viewing the color display of the indoor unit. Furthermore, since the cause can be grasped by confirming the cause of the inappropriateness and the detailed numerical value in the balloon mark, the subsequent response can be performed quickly.

  For example, since the indoor unit with address # 1 with the highest degree of inappropriateness is in business hours, it is not possible to immediately perform filter cleaning. However, regarding inappropriate operation mode, set temperature, and wind direction, etc. It can be solved quickly by contacting the person in charge of the air conditioning group and making improvements.

  Similarly, the indoor unit at address # 2 has a scheduled use time of 16:00 to 24:00, but at the current time of 12:00, why is it operating unscheduled, For example, energy saving operation can be achieved by checking whether the window 10 in FIG.

  At the bottom of the screen, the average value of inappropriateness for each air conditioning group is displayed. Therefore, it is possible to quickly confirm which air-conditioning group is poorly managed, which can be used as management / operational data. The function for calculating the average value of the inappropriate degree in units of air conditioning groups is the inappropriate degree average value calculating means. Inappropriate driving items, inappropriateness, and average value of inappropriateness may be expressed not by letters or numbers but by symbols, colors, indoor unit mark shapes, and the like. In this way, the manager can easily recognize visually.

  The display means includes items extracted by the inappropriate driving item extraction means, the inappropriateness evaluated by the inappropriateness evaluation means, the inappropriateness total value calculated by the inappropriateness total calculation means, Then, the average value of the inappropriate degree calculated by the inappropriate degree average value calculating means is displayed on the display unit 42 with the corresponding color, shape, numerical value, symbol, and the like.

  Further, since the screen display described above is updated in real time in accordance with the management table, the latest state can always be grasped. For this reason, as in the conventional air conditioner system, it is possible to quickly cope without specifying an inappropriate indoor unit after the operation is completed.

  In the screen display example of FIG. 5, all the balloon marks are displayed. However, the balloon marks may not be normally displayed, and may be displayed only when the indoor unit mark is clicked. The balloon mark may be displayed only for the indoor units, for example, only for the indoor units having a total inappropriateness value of 4 or more.

  As described above, in the air conditioner system according to the present invention, information on a plurality of inappropriate operation items extracted by the inappropriate operation item extraction unit is displayed for each indoor unit. Can be presented in a format that is easy for the administrator to recognize.

  In addition, since the inappropriateness degree is evaluated and displayed for each inappropriate driving item contrary to the energy saving driving, the inappropriate driving item and its degree can be presented in a format that is easy to recognize for the administrator.

  In addition, the inappropriateness level is evaluated for each inappropriate operation item that violates energy-saving operation, and the inappropriateness level is summed up for each indoor unit to calculate and display the total inappropriateness level. It is possible to present the indoor units that are operating improperly and the degree of the indoor units in a format that is easy for the administrator to recognize.

  In addition, it impedes energy saving operation, filter dirt, improper wind direction, improper set temperature, unscheduled operation, door or window opening, improper operation mode without using special sensors etc. It can detect using the equipment with which this air conditioner system is equipped.

  Moreover, since the average value of the total inappropriate degree of the indoor units in the air conditioning group is calculated and displayed, the energy saving operation for each air conditioning group can be compared, and the air conditioning group performing inappropriate management can be easily extracted.

  Next, the operation of the management apparatus 4 will be described using the flowchart of FIG. In FIG. 7, ST represents a step, and the number following this represents a step number. Further, “Y” in FIG. 7 indicates Yes, and “N” indicates No.

  The management device 4 first checks whether there is received data from each indoor unit (ST1). When there is no data received from each indoor unit (ST1-N), it is confirmed whether there is a filter cleaning completion instruction by the operation of the administrator (ST2). If there is no filter cleaning completion instruction (ST2-N), then the current time is confirmed, and the "operation time after filter cleaning" and "update time after operation change" items in the management table every 1 minute The content is updated for each indoor unit (ST3).

  Then, the inappropriate degree of “filter contamination” is evaluated based on the data stored in the management table (ST4). Similarly, the degree of inappropriateness of “inappropriate wind direction” is evaluated (ST5). Furthermore, the inappropriateness evaluation of “inappropriate set temperature” (ST6), the inappropriateness evaluation of “unscheduled operation” (ST7), the inappropriateness evaluation of “opening doors and windows” (ST8), “ Inappropriate degree evaluation (ST9) of “inappropriate operation mode” is sequentially executed.

  Then, the inappropriateness evaluated in ST4 to ST9 is totaled for each indoor unit and stored in the corresponding column of each indoor unit corresponding to the item “total inappropriateness” in the management table (ST101). Then, the stored “total inappropriateness” values are tabulated for each air conditioning group, and the average inappropriateness value for each air conditioning group is calculated (ST102).

  Next, the inappropriate operation monitor screen of the indoor unit is displayed using the inappropriateness obtained in ST4 to ST9 and ST101, ST102 (ST11). And the normal driving | operation which monitors or controls the apparatus in an air-conditioner system according to a management table is performed (ST16). Then jump to ST1.

  On the other hand, if there is received data from each indoor unit (ST1-Y), it is confirmed whether the received data is data for changing operating conditions (ST13). As described above, the operation condition change data is data for notifying the management device 4 of the set temperature change, the operation start, and the operation mode change from the indoor unit.

  If the received data is not data for changing operating conditions (ST13-N), the management table is updated according to the received data (ST15). Then, the process jumps to ST16.

  On the other hand, when the received data is data for changing the operating conditions (ST13-Y), in order to measure the time from the operating change until the room temperature reaches the set temperature, The data of the corresponding indoor unit is cleared (zero) (ST14). Then, the process jumps to ST16.

  When there is a filter cleaning completion instruction (ST2-Y), in order to measure the time since the last filter cleaning, the data of the corresponding indoor unit corresponding to the “operation time after filter cleaning” section of the management table is used. Clear (to zero) (ST12). Then, the process jumps to ST16.

  The function of the inappropriate driving item extraction means is realized by the CPU in the control unit 45 of the management device 4 sequentially executing the programs corresponding to ST4 to ST9. The function of the inappropriateness evaluation means is realized by the CPU in the control unit 45 executing a program corresponding to each step in ST4 to ST9. Furthermore, the function of the inappropriate degree total calculation means is realized by the CPU in the control unit 45 executing a program corresponding to ST101. Further, the function of the inappropriate degree average value calculating means is realized by the CPU in the control unit 45 executing a program corresponding to ST102. The function of the display means is realized by the CPU in the control unit 45 executing a program corresponding to ST11.

In this embodiment, the filter dirt is evaluated by the operation time of the indoor unit. However, the filter dirt sensor is provided in the indoor unit, and this sensor information is transmitted to the management device 4. It may be used instead of. Thereby, the accuracy of the degree of contamination can be improved. Similarly, the opening of a door or window may be detected by a dedicated sensor, and this sensor information may be transmitted to the management device 4 and used instead of “operation time after filter cleaning”. Thereby, since opening of a door or a window can be detected in a short time, the operation time of an inappropriate indoor unit can be shortened.
In this embodiment, the inappropriateness level and the inappropriate level total are displayed with numerical values and colors corresponding to them. However, the present invention is not limited to this. May be displayed.

1 Building 4 Management Device 41 Input Unit 42 Display Unit 43 Storage Unit (Storage Unit)
44 Communication unit 45 Control unit 7 Communication line 8 Refrigerant tube 9 Refrigerant tube 10 Window 11 Indoor unit 11a Indoor unit remote control 12 Indoor unit 12a Indoor unit remote control 12b Display unit 12c Key operation unit 12d Connection lines 13, 14, 15, 16, 17 , 18 Indoor unit 19, 20 Outdoor unit 21 Remote control reception unit 22 Notification unit 23 Blower fan motor 24 Stepping motor for up and down wind direction plate 25 Room temperature sensor input unit 26 Indoor unit control unit 27 Room temperature sensor 29 Communication unit

Claims (1)

An air conditioner system comprising a plurality of indoor units, an outdoor unit, and a management device that manages the indoor unit and the outdoor unit, these being connected by a communication line,
The indoor unit has a function of sequentially transmitting operation information of the indoor unit to the management device,
The management device stores the received operation information as a management table corresponding to the indoor unit, and extracts a plurality of inappropriate operation items against energy-saving operation from the operation information stored in the storage device. A suitable operation item extracting means, and a display means for displaying display contents corresponding to the plurality of inappropriate operation items for each indoor unit ,
The inappropriate driving item extraction means refers to a table of the inappropriateness value and the driving information that are determined in advance for each of the inappropriate driving items and stored in the storage means, and for each of the inappropriate driving items. An inappropriate degree evaluation means for evaluating an inappropriate degree, and the management device includes an inappropriate degree total calculating means for calculating the total inappropriate degree by adding the inappropriate degree for each indoor unit, the display The means displays at least one of a color, a shape, a numerical value, and a symbol corresponding to the inappropriate degree total .

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