JP2015227755A - Air conditioning management system, and air conditioning management server used for the same, air conditioning management information processing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning management system capable of surely executing proportional division calculation of power consumption for every shot time regarding a desired tenant in a building where a plurality of air conditioners used by different tenants are installed, an air conditioning management server used for the same, and an air conditioning management information processing method.SOLUTION: According to an embodiment, an air conditioning management server includes a power consumption proportional division calculation unit and a designated period information acquisition unit. The power consumption proportional division calculation unit performs calculation for proportionally dividing an integrated value of power consumption of a first period for each air conditioner. The designated period information acquisition unit, when receiving an information acquisition request which designates a second period that is shorter than the first period from one of client terminals, transmits an integrated value of a required capacity value of all the air conditioners, an integrated value of the second period of the required capacity value regarding the air conditioner installed at the tenant corresponding to the client terminal, and an integrated value of the second period of the power consumption, to the client terminal which is the request transmission source.

Description

  Embodiments described herein relate generally to an air conditioning management system, an air conditioning management server used for the air conditioning management system, and an air conditioning management information processing method.

  Conventionally, in a large building where a plurality of tenants occupy, a multi-type air conditioning system in which a refrigeration cycle is configured by connecting a plurality of indoor units to a single outdoor unit is installed. In such an air conditioning system, indoor units of different tenants may be connected to the same outdoor unit.

  On the other hand, the electricity meter in the building measures the amount of power consumed by all outdoor units in the building.

  In the central management server that manages the equipment in the building, it is necessary to calculate the usage amount of the air conditioner in each tenant in order to use it as a guideline for the electricity charge used by the air conditioner for each tenant. In recent air conditioners, the tenant and air conditioners such as the variable speed control of the compressor by the inverter and the multi-type air conditioner mentioned above do not correspond 1: 1, so the standard of air conditioner usage in each tenant As described above, calculation is performed to apportion the measured power consumption by all the outdoor units to the power consumption based on the operation state (air conditioning capacity, etc.) of the indoor units provided in the tenant.

  By apportioning electricity consumption in this way, it is possible to present electricity charges for each tenant according to the use of air conditioners without installing individual watt hour meters in indoor units and outdoor units. Become.

JP 2011-47564 A

  The calculation process of the electricity bill based on the apportionment of the power consumption as described above is conventionally performed by a batch process on a monthly basis.

  However, the calculated power consumption and electricity charge for each tenant is not only used for billing, but also raises the user's energy conservation awareness by visualizing fluctuations in short time periods (for example, 1 hour) in real time. It becomes possible.

  Therefore, it is desirable to increase the frequency of batch processing and calculate power consumption and electricity charges for each tenant for a short time. However, the calculation load on the central management server increases, and the conventional system may not be able to process it. There was a problem that there was.

  The present invention has been made in view of the above circumstances, and reliably executes a proportional calculation of power consumption for each desired tenant within a building in which a plurality of air conditioners used by different tenants are installed. It is an object of the present invention to provide an air conditioning management system that can be used, an air conditioning management server used for the system, and an air conditioning management information processing method.

  According to the embodiment for achieving the above object, the air conditioning management server includes a power consumption apportioning calculation unit and a specified period information acquisition unit. The power consumption apportioning calculation unit performs an operation for apportioning the integral value of the power consumption for the first period for each air conditioner. When the specified period information acquisition unit receives an information acquisition request specifying a second period shorter than the first period from any of the client terminals, the integrated value of the required capacity values of all the air conditioners and the tenant corresponding to the client terminal The integrated value for the second period of the required capacity value related to the air conditioner installed in the apparatus and the integrated value for the second period of the power consumption amount are transmitted to the client terminal of the request transmission source.

1 is an overall view showing an air conditioning management system according to an embodiment of the present invention. It is a block diagram which shows the structure of the air-conditioning management server utilized with the air-conditioning management system by one Embodiment of this invention. It is a block diagram which shows the calibration of the client terminal utilized with the air-conditioning management system by one Embodiment of this invention. It is a sequence diagram which shows operation | movement of the air-conditioning management system by one Embodiment of this invention.

<Configuration of air conditioning management system according to one embodiment>
A configuration of an air conditioning management system according to an embodiment of the present invention will be described with reference to FIG.

  The air-conditioning management system 1 according to the present embodiment includes a plurality of power systems (first system 10, second system 20, and third system 30) in a building where a plurality of tenants occupy, a watt-hour meter 40, and each power An air conditioning management server 60 connected to the grid via the first network 50 and a plurality of client terminals 80-1 connected to the air conditioning management server 60 via the second network 70. , 80-2, and 80-3. The client terminals 80-1, 80-2, and 80-3 are installed for each tenant in the building. The client terminals 80-1, 80-2, and 80-3 are personal computers installed with an air conditioning management program.

  In the first system 10, an outdoor unit 11 connected to the first network 50, indoor units 13-1, 13-2, 13-3 connected to the outdoor unit 11 via the third network 12, and 13-4 are installed. In the second system 20, an outdoor unit 21 connected to the first network 50, indoor units 23-1, 23-2, 23-3 connected to the outdoor unit 21 via the fourth network 22, and 23-4 are installed. In the third system 30, an outdoor unit 31 connected to the first network 50, indoor units 33-1, 33-2, 33-3 connected to the outdoor unit 31 via the fifth network 32, and 33-4 is installed.

  Each of the indoor units 13-1 to 13-3, 23-1 to 23-3, and 33-1 to 33-3 performs air conditioning based on a set temperature specified by a user operation, a measured indoor temperature, or the like. The required capacity value for performing is calculated at predetermined time intervals and transmitted to the connected outdoor units 11, 21, 31. Here, the “required capacity value” is indicated by the amount of heat energy that is removed from the room or applied to the room per unit time.

  The outdoor units 11, 21, and 31 supply each indoor unit with an amount of refrigerant corresponding to the transmitted required capacity value. As a result, in each indoor unit, an air conditioning output corresponding to the required capacity value can be obtained. In addition, the outdoor units 11, 21, and 31 transmit the requested capacity value acquired from each indoor unit to the air conditioning management server 60.

  The watt-hour meter 40 measures the total power amount (power consumption amount) supplied to all the outdoor units 11, 21, and 31 at a predetermined time interval and transmits it to the air conditioning management server 60.

  As shown in FIG. 2, the air conditioning management server 60 includes a required capacity value acquisition unit 61, a required capacity value storage unit 62, a power consumption amount acquisition unit 63, a power consumption amount storage unit 64, and a power consumption apportioning calculation. Unit 65 and designated period information acquisition unit 66.

  The required capacity value acquisition unit 61 acquires the required capacity value for each predetermined time received from the indoor units by the outdoor units 11, 21 and 31.

  In setting the air conditioning system, each of the indoor units 13-1 to 13-3, 23-1 to 23-3, 33-1 to 33-3 is connected to the outdoor units 11, 21, and 31 to which the respective units are connected. In some cases, the output capacity requirement is a relative value to the rated capacity of the indoor unit, for example, 20% of the rated capacity. In this case, rated capacity data of each indoor unit, for example, rated capacity: 2.8 kW, etc. is transmitted from the outdoor units 11, 21, 31 to the air conditioning management server 60 at the time of initial setting. Then, the required capacity value acquisition unit 61 multiplies the acquired rated capacity data of each indoor unit by the required value of the capacity of the indoor unit (2.8 kW × 20% = 0.56 kW). May be calculated.

  The required capacity value storage unit 62 stores the required capacity value of each indoor unit acquired by the required capacity value acquisition unit 61.

  The power consumption amount acquisition unit 63 acquires the power consumption amount of all outdoor units at predetermined time intervals measured by the watt hour meter 40.

  The power consumption storage unit 64 stores the power consumption acquired by the power consumption acquisition unit 63.

  The air conditioning management server 60 includes a clock (not shown), and collects data on the required capacity value and the power consumption amount of each indoor unit stored in each of the required capacity value storage unit 62 and the power consumption amount storage unit 64. It is stored in relation to the time.

  The power consumption apportioning calculation unit 65 stores the integral value for the first period (for example, one month) of the power consumption of all outdoor units stored in the power consumption storage unit 64 in the required capacity value storage unit 62. Based on the integrated value of the required capacity value of each indoor unit in the first period, a calculation for apportioning for each indoor unit is performed.

  The specified period information acquisition unit 66 sends an information acquisition request for the specified second period (which is shorter than the first period, for example, the latest one hour) from any of the client terminals 80-1 to 80-3. Upon receipt, in response to the request, the integral value of the requested capacity value of all the indoor units in the second period and the requested capacity value of the indoor unit installed in the tenant corresponding to the client terminal that is the transmission source of the information acquisition request The integral value of the second period is acquired from the required capacity value storage unit 62, and the integral value of the second period of the power consumption amount of all the outdoor units is acquired from the power consumption amount storage unit 64, and the request transmission source client Send to the terminal.

  The client terminals 80-1 to 80-3 are installed for each tenant in the building. As shown in FIG. 3, the input unit 81, the information acquisition request generation unit 82, the specified period information reception unit 83, and the power consumption An amount calculation unit 84 and a display unit 85 are included.

  In the present embodiment, the client terminal 80-1 corresponds to the tenant A, and the indoor units 13-1 to 13-4 and 23-1 are installed in the tenant A. The client terminal 80-2 corresponds to the tenant B, and the indoor units 23-2 to 23-4 are installed in the tenant B. The client terminal 80-3 corresponds to the tenant C, and indoor units 33-1 to 33-4 are installed in the tenant C.

  The input unit 81 of each of the client terminals 80-1 to 80-3 inputs information specifying the second period specified by the user's operation.

  The information acquisition request generation unit 82 generates an information acquisition request regarding the second period input from the input unit 81 and transmits the information acquisition request to the air conditioning management server 60.

  Upon receiving the information acquisition request signal, the air conditioning management server 60 stores the required capacity value and power consumption of each indoor unit stored in association with the data collection time in each of the required capacity value storage unit 62 and the power consumption amount storage unit 64. From the quantity data, find the data for the second period when the information acquisition request was made, and install it in the tenant managed by the client terminal that requested the integral value of the requested capacity value of the all indoor units for the second period. Then, the integral value of the required capacity value for the indoor unit in the second period and the integral value of the power consumption of all the outdoor units in the second period are calculated.

  Then, the air conditioning management server 60 transmits the calculated data to the client terminal that requested it.

  The specified period information receiving unit 83 receives the second requested capacity value of all indoor units transmitted from the air conditioning management server 60 in response to transmitting the information acquisition request for the second period from the information acquisition request generating unit 82. The integrated value of the period, the integrated value of the required capacity value for the indoor unit installed in the tenant corresponding to the own client terminal in the second period, and the integrated value of the second period of the power consumption of all the outdoor units, Receive.

  The power consumption calculation unit 84 receives the integration value of the second period of the power consumption, the integration value of the required capacity value of all the indoor units, and the corresponding value received by the specified period information reception unit 83. Based on the integral value of the requested capacity value of the indoor unit in the second period, the power consumption amount in the second period related to the indoor unit installed in the tenant corresponding to the own client terminal is calculated.

The display unit 85 displays the power consumption calculated by the power consumption calculation unit 84 as the power consumption of the second period in the tenant.
<Operation of Air Conditioning Management System According to One Embodiment>
Next, operation | movement of the air-conditioning management system 1 by this embodiment is demonstrated with reference to the sequence diagram of FIG.

  In the present embodiment, in each of the indoor units 13-1 to 13-4, 23-1 to 23-4, and 33-1 to 33-4, a set temperature designated by a user operation or the like or a measured indoor temperature value Based on the above, a required capacity value for air conditioning is calculated at predetermined time intervals and transmitted to the connected outdoor unit (S1). Specifically, the required capacity values calculated by the indoor units 13-1 to 13-4 are transmitted to the outdoor unit 11 via the third network 12, and the requests calculated by the indoor units 23-1 to 23-4 are transmitted. The capability value is transmitted to the outdoor unit 21 via the network fourth network 22, and the required capability value calculated by the indoor units 33-1 to 33-4 is transmitted to the outdoor unit 31 via the fifth network 32.

  Each outdoor unit 11, 21, 31 that has acquired the required capacity value supplies an amount of refrigerant corresponding to the transmitted required capacity value to each indoor unit (S2).

  Moreover, the required capacity value of each indoor unit acquired by each outdoor unit 11, 21, and 31 is transmitted to the air-conditioning management server 60 via the 1st network 50 (S3).

  In the air conditioning management server 60, the required capacity value of each indoor unit transmitted from the outdoor units 11, 21, and 31 is acquired from the required capacity value acquisition unit 61 and stored in the required capacity value storage unit 62 (S4). The required capacity storage unit 62 also calculates and stores the integral value of the required capacity value of each indoor unit every predetermined time.

  In the watt-hour meter 40 in the air conditioning management system 1, the total power amount (power consumption amount) supplied to all the outdoor units 11, 21, and 31 is measured at predetermined time intervals, and air conditioning is performed via the first network 50. It is transmitted to the management server 60 (S5).

  In the air conditioning management server 60, the power consumption of all outdoor units transmitted from the watt hour meter 40 is acquired from the power consumption acquisition unit 63 and stored in the power consumption storage unit 64 (S6). The power consumption amount storage unit 64 also calculates and stores an integrated value of the power consumption amounts of all the outdoor units every predetermined time.

  Next, in the power consumption apportioning calculation unit 65 of the air-conditioning management server 60, as a normal process, the integrated value of the first period (for example, one month) of the power consumption of all outdoor units stored in the power consumption storage unit 64 is obtained. Based on the integration value of the required capacity value of each indoor unit stored in the required capacity value storage unit 62 in the first period, the calculation for apportioning for each indoor unit is performed as a batch process every time the first period elapses. (S7).

For example, the apportioned value PM _2,3 of the monthly power consumption of the third indoor unit 23-3 of the second system 20 is an integral value of the monthly power consumption of all the outdoor units 11, 21, and 31. Using the sum of PM, the monthly integrated value WM _2,3 of the required capacity value of the indoor unit 23-3, and the monthly integrated value WM _{i, j} of the required capacity value of each indoor unit, Calculated by equation (1).

  By the above formula (1), a prorated value of the power consumption for one month is calculated for all the indoor units.

  The calculated power consumption for each indoor unit is used for a power billing process for each tenant. For example, the monthly power consumption of tenant A is calculated by the sum of the apportioned values of indoor units 13-1 to 13-4 and 23-1, and the monthly power consumption of tenant B is indoor unit 23- It is calculated by the sum of apportioned values of 2 to 23-4, and the monthly power consumption of tenant C is calculated by the sum of apportioned values of indoor units 33-1 to 33-4.

  The calculation of the power consumption for one month by the above batch processing is performed at a specific time predetermined for the air conditioning management server 60, for example, on the 25th of every month. Although the processing load of the management server 60 becomes large, except for this time, only the data acquisition and the integration processing of the required capacity value and the power consumption amount are performed, and the processing load is not so large.

  In the air conditioning management server 60, the required capacity value storage unit 62 sequentially calculates and stores the integral value of the required capacity values of each indoor unit, and the power consumption storage unit 64 stores the power consumption of all outdoor units. The integrated value is calculated and stored. Normally, the required capacity value of each indoor unit and the power consumption of all outdoor units are stored in association with the acquisition time for each predetermined time, and batch processing is performed. At this time, each integral value in the first period may be calculated.

  On the other hand, an operation when an operation for outputting and visualizing information on fluctuations in power consumption for each second period shorter than the first period is performed by a user operation on any of the client terminals will be described. To do. Here, it is assumed that the operation is performed in the client terminal 80-1.

  In the client terminal 80-1, when “the latest one hour” is designated as the second period by the input unit 81 by the user's operation and the request operation for the power consumption information in the period is performed, the information acquisition request generation unit In 82, an information acquisition request for the second period regarding the indoor units 13-1 to 13-4 and 23-1 installed in the tenant A corresponding to the client terminal 80-1 is generated. The generated information acquisition request for the second period is transmitted from the information acquisition request generation unit 82 to the air conditioning management server 60 (S8).

  In the air conditioning management server 60, the information acquisition request for the second period transmitted from the client terminal 80-1 is acquired by the specified period information acquisition unit 66. In the designated period information acquisition unit 66, in response to the acquired request, the integral value of the second period of the power consumption of all the outdoor units 11, 21, 31 is acquired from the power consumption storage unit 64, and Request value regarding the indoor unit 13-1 to 13-4 and 23-1 installed in the tenant A corresponding to the client terminal 80-1 of the request transmission source The integral value of the ability value in the second period is acquired from the requested ability value storage unit 62. The acquired power consumption, the integrated value of the required capacity values of all the indoor units, and the integrated value of the required capacity values of the corresponding indoor units 13-1 to 13-4 and 23-1 are obtained from the designated period information acquiring unit 66. The request is transmitted to the client terminal 80-1 as the request transmission source (S9).

  In the client terminal 80-1, information transmitted from the air conditioning management server 60 is received by the specified period information receiving unit 83.

  The information received by the designated period information receiving unit 83 is sent to the power consumption calculating unit 84, and the power consumption of the second period related to the corresponding indoor units 13-1 to 13-4 and 23-1 is calculated.

  For example, the power consumption amount in the second period related to the indoor unit 13-1 is calculated by the following equation (2).

[Equation 2]
[Power consumption of the indoor unit 13-1 in the second period] = [Integrated value of power consumption of all the outdoor units in the second period]
× [Integrated value of required capacity value of indoor unit 13-1 in second period]
/ [Integrated value of required capacity value of all indoor units in 2nd period]
(2)

  Similarly, for the indoor units 13-2, 13-3, 13-4, and 23-1, the power consumption amount of the second period is calculated, and the calculated power consumption amount is added up, so that the tenant A The amount of power consumption in the second period is calculated.

  The power consumption amount in the second period in the tenant A calculated by the power consumption amount calculation unit 84 is displayed on the display unit 85 and provided to the user (S10).

  As described above, in this embodiment, when there is a request in the client terminal, only the power consumption amount in the designated period of the target tenant is calculated. The processing load of the air conditioning management server 60 at the normal time is greatly reduced as compared with the case of calculating the power consumption amount.

  In addition, since only one watt hour meter 40 for measuring the power consumption of all outdoor units is provided, and no watt hour meter is provided for each outdoor unit, the system configuration is simplified and the cost is reduced. can do.

  According to the above-described embodiment, in the air conditioning management system that performs the power consumption apportioning calculation by batch processing every predetermined period (for example, one month) as the normal processing as the normal processing, while suppressing the load on the air conditioning management server, It is possible to increase the user's energy saving awareness by surely calculating and visualizing the power consumption amount for each short time (for example, one hour) at each client terminal by the user's operation.

  In the above-described embodiment, the client terminal to which the information acquisition request is input sequentially calculates the power consumption amount in the second period (for example, every second period elapses), and visualizes the fluctuation state to further understand the user. You may make it show the transition state of power consumption easily.

  Although the embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. This embodiment and its modifications are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 ... Air-conditioning management system, 10 ... 1st system, 11, 21, 31 ... Outdoor unit 13-1 to 13-4, 233-1 to 23-4, 33-1 to 33-4 ... Indoor unit 40 ... Electric energy 60 ... Air conditioning management server 61 ... Required capacity value acquisition unit 62 ... Required capacity value storage unit 63 ... Power consumption amount acquisition unit 64 ... Power consumption amount storage unit 65 ... Power consumption amount apportioning calculation unit 66 ... Designated period Information acquisition unit, 80-1 to 80-3 ... Client terminal 81 ... Input unit, 82 ... Information acquisition request generation unit, 83 ... Designated period information reception unit 84 ... Power consumption calculation unit, 85 ... Display unit

Claims (3)

In an air conditioning management system in which an air conditioning management server that manages a plurality of air conditioners in a building in which a plurality of tenants occupy and a client terminal installed for each tenant are connected,
The air conditioning management server
A requested capability value acquisition unit that acquires a requested capability value for each predetermined time transmitted from a plurality of air conditioners in the building,
A power consumption acquisition unit for acquiring power consumption for every predetermined time interval by all air conditioners in the building;
Based on the required capacity value for the first period of each air conditioner acquired by the required capacity value acquisition unit, the integrated value of the power consumption acquired by the power consumption acquisition unit for the first period is calculated as the air conditioning. A power consumption apportioning calculation unit that performs an operation for apportioning each machine;
When an information acquisition request specifying a second period shorter than the first period is received from any of the client terminals, the second period of the required capacity values of all the air conditioners acquired by the required capacity value acquisition unit Integral value of the second period of the required capacity value related to the air conditioner installed in the tenant corresponding to the client terminal that is the transmission source of the information acquisition request, and the power consumption acquired by the power consumption acquisition unit A specified period information acquisition unit that transmits an integral value of the second period of the amount to the client terminal of the request transmission source;
With
Each said client terminal
An information acquisition request transmitter for generating an information acquisition request for the specified second period and transmitting the information acquisition request to the air conditioning management server;
In response to the transmission of the information acquisition request from the information acquisition request transmission unit, the requested capacity value of the second period of all the air conditioners acquired by the required capacity value acquisition unit transmitted from the air conditioning management server. The integral value and the integral value of the requested capacity value for the air conditioner installed in the tenant corresponding to the client terminal that is the transmission source of the information acquisition request in the second period, and the power consumption acquired by the power consumption acquisition unit A specified period information receiving unit that receives the integral value of the second period of
A power consumption amount calculation unit that calculates the power consumption amount of the second period related to an air conditioner installed in a tenant corresponding to the client terminal based on information received by the specified period information reception unit. Air conditioning management system characterized by In an air conditioning management server that is connected to a client terminal installed for each of a plurality of tenants occupying a building and manages a plurality of air conditioners in the building,
A requested capability value acquisition unit that acquires a requested capability value for each predetermined time transmitted from a plurality of air conditioners in the building,
A power consumption acquisition unit for acquiring power consumption for every predetermined time interval by all air conditioners in the building;
Based on the required capacity value for the first period of each air conditioner acquired by the required capacity value acquisition unit, the integrated value of the power consumption acquired by the power consumption acquisition unit for the first period is calculated as the air conditioning. A power consumption apportioning calculation unit that performs an operation for apportioning each machine;
When an information acquisition request specifying a second period shorter than the first period is received from any of the client terminals, the second period of the required capacity values of all the air conditioners acquired by the required capacity value acquisition unit Integral value of the second period of the required capacity value related to the air conditioner installed in the tenant corresponding to the client terminal that is the transmission source of the information acquisition request, and the power consumption acquired by the power consumption acquisition unit A specified period information acquisition unit that transmits the integral value of the amount in the second period to the client terminal of the request transmission source in order to calculate the power consumption amount in the second period related to the corresponding air conditioner. A featured air conditioning management server. An air conditioning management server connected to client terminals installed for each of a plurality of tenants occupying the building and managing a plurality of air conditioners in the building,
Requested capability value acquisition step of acquiring a required capability value every predetermined time transmitted from a plurality of air conditioners in the building,
A power consumption acquisition step of acquiring power consumption for every predetermined time interval by all air conditioners in the building;
Based on the required capacity value in the first period of each air conditioner acquired in the required capacity value acquisition step, the integrated value of the power consumption acquired in the power consumption amount acquisition step in the first period is calculated as the air conditioning. A power consumption apportionment calculating step for performing an apportionment for each machine;
When an information acquisition request specifying a second period shorter than the first period is received from any of the client terminals, the second period of the required capacity values of all the air conditioners acquired in the required capacity value acquisition step Integral value of the second period of the requested capacity value related to the air conditioner installed in the tenant corresponding to the client terminal that is the transmission source of the information acquisition request and the power consumption acquired in the power consumption acquisition step A specified period information acquisition step of transmitting the integral value of the amount in the second period to the client terminal of the request transmission source in order to calculate the power consumption amount in the second period related to the corresponding air conditioner. A characteristic air conditioning management information processing method.

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