JP2004245556A - Online air conditioning temperature setting system, center machine and online air conditioning temperature setting program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To realize a comfortable air conditioning by distributing the optimum air conditioning temperature for every building, operated on a center side, and controlling the air conditioning temperature for every building on the basis of the operated optimum air conditioning temperature. <P>SOLUTION: A center machine 10 and the central supervisory equipment 50 of each of a plurality of customer buildings are connected by a network 30, and the optimum air conditioning temperature of every customer building is operated on the center machine side on the basis of a present weather condition, and distributed to each user machine 20 to control the temperature by each central supervisory equipment. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an online air conditioning temperature setting system, a center machine, and an online air conditioning temperature setting program.
[0002]
[Prior art]
Depending on the degree of humidity, the living space may feel cold or sultry to people even at the same room temperature. For this reason, in the air conditioning control of a building, not the constant temperature control but the comfortable air conditioning control in which the indoor temperature is adjusted for each building environment condition, such as by the occupants' clothes or the indoor humidity, is desirable from the viewpoint of energy saving. .
[0003]
[Patent Document 1]
JP 2001-141289 A
[Patent Document 2]
JP 2001-357113 A
[Patent Document 3]
JP 06-265201 A
[Problems to be solved by the invention]
However, in the past, central monitoring equipment had to be installed separately for each building or area, and a controller for calculating the comfortable air-conditioning control setting temperature had to be installed. There was a problem that could not be introduced in a large-scale building.
[0007]
The present invention has been made in view of such a conventional technical problem, and connects a center machine to a central monitoring facility of each of a plurality of customer buildings via a network, and the center machine uses a customer according to a current weather condition. The aim is to provide online air conditioning technology that can reduce the investment cost for comfortable air conditioning equipment by calculating the optimal air conditioning temperature for each building, distributing it to each user machine, and controlling each central monitoring facility for temperature. I do.
[0008]
[Means for Solving the Problems]
The invention according to claim 1 is an online air-conditioning temperature setting system comprising a center machine of a service center, a user machine of a customer, and a network for data transmission therebetween, wherein the center machine is provided for each customer. A customer database that holds air conditioning condition data, a weather information receiving unit that receives current weather information data, a current weather information data received by the weather information receiving unit, and a customer air conditioning condition that is held in the customer database And an optimum air-conditioning temperature calculating unit for calculating an optimum air-conditioning temperature suitable for the air-conditioning condition data of the customer from the data, wherein the user machine calculates an optimum air-conditioning temperature transmitted from the center machine through the network. And an optimum air-conditioning temperature transmitting unit for transmitting the air-conditioning to the air conditioner.
[0009]
In the online air-conditioning temperature setting system according to the first aspect of the present invention, on the center machine side of the service center, data relating to air-conditioning control of a building to be subjected to air-conditioning control is registered in a customer database for each customer, and the current weather condition is registered. If the information data is received by the weather information receiving unit, the optimum air-conditioning temperature calculating unit obtains the current weather information data and the air-conditioning condition data of the building to be controlled by the air-conditioning control of the customer stored in the customer database. The optimum air-conditioning temperature that matches the air-conditioning condition data is calculated and transmitted to the user machine of the corresponding customer. Then, the user machine transmits the optimum air-conditioning temperature transmitted through the network to the air-conditioning control device of the building, and controls the comfortable air-conditioning by the air-conditioning control device.
[0010]
As a result, building owners can control their own comfortable air-conditioning temperature control for each building of multiple customers according to instructions from the center machine without installing a controller for comfortable air-conditioning control in the central monitoring facility. As a result, the cost of capital investment required for comfortable air-conditioning control of the building owner can be reduced.
[0011]
3. The center machine according to claim 2, wherein: a customer database holding air-conditioning condition data for each customer; a weather information receiving unit receiving current weather information data; and current weather information data received by the weather information receiving unit. And an optimum air-conditioning temperature calculation unit that calculates an optimum air-conditioning temperature that matches the air-conditioning condition data of the customer from the air-conditioning condition data of the customer stored in the customer database, and an optimum air-conditioning temperature data obtained for each customer. A transmission unit for transmitting the communication address of the customer through a network.
[0012]
In the center machine according to the second aspect of the present invention, if the data relating to the air conditioning control of the building to be subjected to the air conditioning control is registered in the customer database for each customer, and the current weather information data is received by the weather information receiving unit. From the current weather information data and the air-conditioning condition data of the building to be air-conditioned by the customer stored in the customer database, the optimum air-conditioning temperature is calculated by the optimum air-conditioning temperature calculation unit. And sends it to the customer's user machine.
[0013]
This allows the building owner's user machine to transmit the optimal air-conditioning temperature transmitted from the center machine via the network to the air-conditioning control device of the building and control the comfortable air-conditioning by the air-conditioning control device. Without installing a controller for the central monitoring facility, it is possible to control the own building's own comfortable air conditioning temperature control according to the command from the center machine, and the contract cost with the service center will be reduced Even if it becomes necessary, the cost of capital investment required for comfortable air conditioning control of the building can be reduced.
[0014]
An online air-conditioning temperature setting program according to a third aspect of the present invention includes a step of receiving the current weather information data from the outside, a step of specifying a customer to whom the air-conditioning temperature is transmitted, and a step of storing air-conditioning condition data for the specified customer in a customer database. From the current weather information data and the air-conditioning condition data of the customer read from the customer database, and calculating the optimum air-conditioning temperature suitable for the air-conditioning condition data of the customer. Transmitting the optimum air-conditioning temperature data to the communication address of the customer via a network.
[0015]
In the online air-conditioning temperature setting program according to the third aspect of the present invention, by causing the computer to execute the program, data relating to air-conditioning control of a building to be subjected to air-conditioning control is registered in the computer in a customer database for each customer. If the current weather information data is received by the weather information receiving unit, the optimum air-conditioning temperature calculation unit calculates the current weather information data and the air-conditioning condition data of the building to be controlled by the customer, which is stored in the customer database. Thus, it becomes possible to calculate the optimum air-conditioning temperature suitable for the air-conditioning condition data of the building and transmit the calculated air-conditioning temperature to the user machine of the customer.
[0016]
This makes it possible to construct a center machine for an online air-conditioning temperature setting system that can reduce the cost of capital investment required for comfortable air-conditioning control of a building.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a system configuration of an online air-conditioning temperature setting system according to one embodiment of the present invention. The system includes a center machine 10 of a service center 1 and a user machine 20 installed in a building 2 owned by a customer. , And a network 30 for data transmission therebetween. The center machine 10 is also connected to a weather information providing station 40 that provides a weather information providing service through a network 30.
[0018]
The center machine 10 is a computer, which has an interface necessary for data communication, a large-capacity storage device necessary for database construction, a CPU and other hardware, and has various functions described below by installing and executing necessary software. The functional configuration is as follows. A customer database 11 holding air-conditioning condition data for each customer, a weather information receiving unit 12 receiving current weather information data from a weather information providing station 40, From the current weather information data received by the information receiving unit 12 and the air-conditioning condition data of the customer stored in the customer database 11, an optimal air-conditioning temperature calculating unit 13 for calculating an optimum air-conditioning temperature suitable for the air-conditioning condition data of the relevant customer And a transmission control unit 14 for transmitting data through the network 30. And a database management unit 15 for managing the customer database 11.
[0019]
The user machine 20 is also a computer, which has an interface, a storage device, a CPU, and other hardware necessary for data communication, and exhibits various functions described later by installing and executing necessary software. However, the functional configuration is described as follows. The relay unit 21 that transmits the optimal air-conditioning temperature transmitted from the center machine 10 through the network 30 to the central monitoring device 50 of the building 2 and the transmission control that is connected to the network 30 and performs data transmission A portion 22 is provided. The building 2 is equipped with an air conditioner 51 whose operation is controlled by the central monitoring device 50 so as to maintain the optimum air conditioning temperature.
[0020]
Next, an operation of controlling the optimal air-conditioning temperature of the customer building 2 by the online air-conditioning temperature setting system having the above-described configuration will be described with reference to the flowchart of FIG. The process of the flowchart in FIG. 2 is repeatedly performed at a predetermined cycle. The cycle depends on the contract, but it is usually desirable to execute the air conditioning temperature control every day or every half day.
[0021]
Steps 101, 102, and 103: In the center machine 10 of the service center 1, (1) fetch weather information such as weather, temperature, and humidity from the weather information providing station 40, and (2) flow the customer building 2 from the user machine 20. Receives conditions (clothing state, activity state, airflow velocity, average radiant temperature, indoor temperature, indoor humidity, etc.), and (3) fixed data such as location and facility data for each customer and each controlled building from the customer database 11 Take in. The flow conditions use those periodically transmitted from the user machine 20 through the network 30 for each customer. In this case, the user machine 20 periodically receives the flow condition data from the central monitoring device 50 and transmits the data to the center machine 10. When a customer has an event, specific data, for example, a clothing state and an activity state may be input to the user machine 20 at an arbitrary timing, and the user machine 20 may transmit the input data to the center machine 10.
[0022]
Steps 104 and 105: The optimum air-conditioning temperature calculating unit 13 calculates the optimum air-conditioning set temperature based on these data. Information on the determined optimum air-conditioning set temperature is transmitted to the user machine 20 of the customer building 2 concerned.
[0023]
Steps 106 and 107: The user machine 20, which has received the distribution of the optimal air-conditioning set temperature from the center machine 10, relays this data to the central monitoring device 50, and the central monitoring device 50 targets the received optimal air-conditioning set temperature to the air conditioning equipment. 51 controls the temperature inside the building.
[0024]
As described above, in the online air-conditioning temperature setting system according to the present embodiment, even if the building owner does not equip the central monitoring device with an expensive comfortable air-conditioning temperature control controller for each owned building, the building owner can contract with the service center 1. It is possible to receive the optimum air-conditioning setting temperature specific to the building from the center machine 10 side through the network, and to maintain the inside of the building at a comfortable air-conditioning temperature by controlling the building indoor temperature based on the temperature. It is possible to maintain the optimum air-conditioning temperature in the building at a relatively low cost, which is comfortable for the occupants, at a lower cost than purchasing and equipping a controller for the air conditioner.
[0025]
In addition, according to the present invention, not only the system of the above-described embodiment, but also the types of parameters used for the optimal air-conditioning temperature calculation can be increased or decreased as necessary. In addition, the present invention is not limited to the above-described system, but also includes an online air-conditioning temperature setting program executed on the center machine 10 used in the configuration of the system, and the execution of this program to calculate the optimum air-conditioning temperature for each customer building 2. And a center machine for delivering to each customer building 2. The distribution method is also included.
[0026]
【The invention's effect】
As described above, according to the present invention, the center machine is connected to the central monitoring facility of each of a plurality of customer buildings via a network, and the center machine calculates the optimum air-conditioning temperature for each customer building according to the current weather condition. Then, it can be distributed to each user machine, and each central monitoring facility can control the temperature, thereby reducing the investment cost for comfortable air conditioning equipment.
[Brief description of the drawings]
FIG. 1 is a functional configuration diagram of an online air conditioning temperature setting system according to an embodiment of the present invention.
FIG. 2 is a flowchart of an online air conditioning temperature setting process by the online air conditioning temperature setting system of the embodiment.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Service center 2 Customer building 10 Center machine 11 Customer database 12 Weather information receiving unit 13 Optimum air conditioning temperature calculating unit 14 Transmission control unit 15 Database management unit 20 User machine 21 Relay unit 22 Transmission control unit 30 Network 40 Weather information providing station 50 Central Monitoring device 51 Air conditioning equipment

Claims (3)

In an online air-conditioning temperature setting system consisting of a center machine of a service center, a customer's user machine, and a network for data transmission between them,
The center machine has a customer database that holds air-conditioning condition data for each customer, a weather information receiving unit that receives current weather information data, a current weather information data received by the weather information receiving unit, and the customer database. An optimal air-conditioning temperature calculation unit that calculates an optimal air-conditioning temperature that matches the air-conditioning condition data of the customer from the stored air-conditioning condition data of the customer,
The online air-conditioning temperature setting system, wherein the user machine includes an optimum air-conditioning temperature transmitting unit for transmitting an optimum air-conditioning temperature transmitted from the center machine through the network to an air-conditioning control device. A customer database that holds air conditioning condition data for each customer,
A weather information receiving unit for receiving current weather information data;
An optimal air-conditioning temperature calculating unit that calculates an optimal air-conditioning temperature that matches the air-conditioning condition data of the customer from the current weather information data received by the weather information receiving unit and the air-conditioning condition data of the customer stored in the customer database. When,
A transmission unit for transmitting optimal air-conditioning temperature data obtained for each customer to a communication address of the customer via a network. Receiving current weather information data from outside;
Specifying a customer to send the air conditioning temperature;
Reading air conditioning condition data for the specified customer from a customer database;
From the current weather information data and the air conditioning condition data of the customer read from the customer database, calculating an optimal air conditioning temperature that matches the air conditioning condition data of the customer,
Transmitting the optimum air-conditioning temperature data obtained for each customer to the communication address of the customer via a network.

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