JP5272550B2 - Equipment control system - Google Patents

Description

  The present invention relates to an equipment control system.

Conventionally, various energy saving controls have been proposed and realized (see, for example, Patent Document 1, Non-Patent Document 1, and Non-Patent Document 2). Normally, only one kind of such energy saving control is mounted on one system.
JP 2007-212038 A Daikin Facilities Co., Ltd., “Energy Conservation Proposal”, [online], [Search July 1, 2008], Internet <URL: http://www.daikin-dfc.com/business/management/solution/shoene/index .html> Daikin Kogyo Co., Ltd., CORPORATE NEWS, “Industry's First Practical Use Reduces Annual Electricity Costs by Up to 44%” Starts “Remote Energy Saving Tuning Service (Product Name: Energy Saving Duty)” for Building Air Conditioning, “online”, “2008” Search July 1, 2009], Internet <URL: http://www.daikin.co.jp/press/2006/061106/index.html>

  By the way, it is difficult for a user of the system to specifically grasp the actual energy saving effect from a pamphlet or the like before purchase, and there is a demand for such a user to actually try some energy saving controls in the field. However, if the user can freely select a plurality of types of energy saving control, the user may erroneously operate energy saving controls that are functionally incompatible.

  An object of the present invention is to provide an energy saving control system that can prevent a user from erroneously operating energy saving controls that are functionally incompatible with each other.

The facility control system according to the first invention comprises a plurality of types of energy saving control means, priority information associating means, energy saving control selecting means , first energy saving control means switching means, and low priority energy saving control means prohibiting means . The priority information associating means associates priority information with a plurality of types of energy saving control means. The energy saving control selecting means selects any one of the energy saving control means on the display screen. The first energy saving control means switching means is an energy saving control means associated with priority information higher than priority information corresponding to the energy saving control means operating in the energy saving control selection means (hereinafter referred to as “high priority energy saving control means”). Is selected, the operating energy saving control means is stopped and the high priority energy saving control means is operated. The low priority energy saving control means prohibiting means prohibits the selection of the energy saving control means associated with the priority information lower than the priority information corresponding to the operating energy saving control means.

  For this reason, in this equipment control system, it is possible to prevent the user from erroneously operating energy saving control that is functionally incompatible with each other.

  Also, in this equipment control system, selection of energy saving control means associated with priority information lower than priority information corresponding to the energy saving control means in operation is prohibited, so only effective options are provided to the user. can do.

  The equipment control system according to the second invention is the equipment control system according to the first invention, and a plurality of selection buttons as energy saving control selection means are provided on the display screen. Further, the low priority energy saving control means selection prohibiting means hides a selection button corresponding to the energy saving control means associated with the priority information lower than the priority information corresponding to the operating energy saving control means on the display screen. Put it in a state.

  A facility control system according to a third aspect of the present invention is the facility control system according to the first or second aspect of the present invention, further comprising energy saving control means stopping means, setting information storage means, and second energy saving control means switching means. The energy saving control means stopping means stops the operation of the energy saving control means in operation. The setting information storage means stores setting information of the energy saving control means that was operating immediately before the energy saving control means stopped by the energy saving control means stop means. The second energy saving control means switching means stores, in the setting information storage means, the energy saving control means operating immediately before the stopped energy saving control means when the energy saving control means is stopped in the energy saving control means stopping means. To operate based on the setting information.

  For this reason, in this equipment control system, the trouble of resetting when an energy-saving control means is switched can be saved.

  In the equipment control system concerning the 1st invention, it can prevent beforehand that a user operates the energy saving control which is not functionally compatible accidentally at the same time.

  In the equipment control system according to the second invention, the selection button corresponding to the energy saving control means associated with the priority information lower than the priority information corresponding to the operating energy saving control means is hidden on the display screen. be able to.

  In the equipment control system according to the third aspect of the present invention, the trouble of resetting when the energy saving control means is switched can be saved.

  As shown in FIG. 1, the air conditioning equipment control system 1 according to the embodiment of the present invention mainly includes a central server device 10, a local controller 30, and an air conditioner 40. In the present embodiment, the central server device 10 is provided in the central management room 3, and the local controller 30 and the air conditioner 40 are provided in a plurality of real estate properties 5A, 5B, 5C, 5D, 5E. . As is clear from FIG. 1, in each real estate property 5A, 5B, 5C, 5D, 5E, the air conditioner 40 is communicatively connected to the local controller 30, and the local controller 30 is connected to the central server via the Internet line 20. The apparatus 10 is communicatively connected.

  Hereinafter, the configuration of the air conditioning equipment control system 1 according to the present embodiment will be described in detail.

(1) Air Conditioner As shown in FIG. 1, the air conditioner 40 is a multi-type air conditioner, and mainly includes a single outdoor unit 41 and a plurality of indoor units 42. .

(2) Central Server Device The central server device 10 is a monitoring control device that monitors and controls the air conditioner 40 in a remote place. The central server device 10 is equipped with a first remote energy saving control function and a second remote energy saving control function for performing energy saving control of the air conditioner 40 via the Internet line 20 and the local controller 30.

  The first remote energy-saving control function is a function that causes the air-conditioning apparatus 40 to perform energy-saving operation according to weather conditions (Meteorological Agency AMeDAS data) and the installation status / use method of the air-conditioning apparatus 40. It consists of a reduction control function, a capability saving control function, and a refrigerant temperature control function.

  In the peak power reduction control function, the central server device 10 performs capacity control (limitation of operating current) of the outdoor unit 41 so as to be always equal to or lower than the target power via the local controller 30, and the peak power of the air conditioner 40 is controlled. And the operating power of the air conditioner 40 is reduced.

  In the capability saving control, the central server device 10 automatically detects the air conditioner 40 that is performing a wasteful operation such as overcooling or overheating, and the capability upper limit value based on the past operation state and the current day weather data. And the air-conditioning apparatus 40 is automatically caused to perform the ability saving operation with an emphasis on comfort.

  In the refrigerant temperature control, the central server device 10 automatically determines the cooling load of the real estate property 5A, 5B, 5C, 5D, 5E from the operating state of the air conditioner 40, and the optimum refrigerant based on the weather data of the day. (Evaporation) The temperature is controlled so that the air conditioner 40 is operated most efficiently.

  The second remote energy saving control function is a function for setting appropriate demand control in the local controller 30 in accordance with the weather conditions (Meteorological Agency AMeDAS data) and the operating state of the air conditioner 40.

(3) Local Controller The local controller 30 is a monitoring control device that monitors and controls the air conditioner 40 on site. The local controller 30 is normally equipped with a demand control function.

  The local controller 30 is connected to a personal computer (not shown) through communication. In this personal computer, a setting program for the local controller 30 is installed. The setting program of the local controller 30 includes an energy saving control function switching module, and an energy saving control function switching dialog 50 as shown in FIG. 2 is displayed on a display (not shown) upon user selection. Is done.

  The energy saving control function switching dialog 50 mainly includes an information display unit 51, a normal demand control selection button 52a, a first remote energy saving control selection button 52b, a second remote energy saving control selection button 52c, and a release button 52d. ing.

  The information display unit 51 displays the type of energy saving control currently being executed.

  As shown in FIG. 3, priority information is associated with the normal demand control selection button 52a, the first remote energy saving control selection button 52b, and the second remote energy saving control selection button 52c. In the present embodiment, as shown in FIG. 3, the priorities are higher in the order of the second remote energy saving control, the first remote energy saving control, and the normal demand control. For example, when the first remote energy saving control selection button 52b is clicked during normal demand control, the local controller 30 stops the normal demand control and executes the first remote energy saving control. At this time, the normal demand control selection button 52a is automatically hidden as shown in FIG. That is, after that, even if the user clicks the normal demand control selection button 52a, the normal demand control is not executed. At this time, the setting information for the normal demand control function is stored in a storage unit (not shown) of the local controller 30.

  The cancel button 52d is always in a display state. When the cancel button 52d is clicked, the energy saving control being executed is stopped and the energy saving control executed immediately before is executed. At this time, the local controller 30 reads and sets the setting information stored in the storage unit, and stores the stopped energy saving control function setting information in the storage unit of the local controller 30.

  When the remote energy saving control is switched to the normal demand control, the local controller 30 transmits a remote energy saving control stop request signal to the central server device 10 via the Internet line 20. When the normal demand control is switched to the remote energy saving control, the local controller 30 transmits a remote energy saving control start request signal to the central server device 10 via the Internet line 20.

<Characteristics of air conditioning equipment control system>
In the air conditioning equipment control system 1 according to the present embodiment, when the selection buttons 52b and 52c corresponding to the high-priority energy saving control are clicked during the low-priority energy saving control, the local controller 30 Energy conservation control is stopped and high priority energy conservation control is executed. For this reason, in this air-conditioning equipment control system 1, it is possible to prevent the user from erroneously operating energy-saving controls that are functionally incompatible with each other.

  At this time, the selection buttons 52a and 52b corresponding to the low-priority energy saving control are automatically hidden. For this reason, in this air-conditioning equipment control system 1, only an effective option can be provided with respect to a user.

  Further, at this time, the setting information of the low-priority energy saving control function is stored in the storage unit (not shown) of the local controller 30, and when the cancel button is clicked thereafter, the local controller 30 After storing the setting information of the control (high-priority energy-saving control) function in the storage unit, the energy-saving control function is stopped and the previous energy-saving control (low-priority energy-saving control) function is set. The information is read from the storage unit and set, and execution of the energy saving control is started. For this reason, in this air-conditioning equipment control system 1, the effort of resetting when an energy-saving control function is switched can be saved.

  The facility control system according to the present invention has a feature that it is possible to prevent the user from accidentally operating energy saving control that is functionally incompatible with the user, and a plurality of types of energy saving control functions are prepared. It is effective for such an equipment control system.

It is a schematic structure figure of an air-conditioning equipment control system concerning an embodiment of the invention. It is a figure showing the energy saving control function switching dialog displayed on the display of the personal computer which comprises the air-conditioning equipment control system which concerns on embodiment of this invention. It is a figure showing the table which shows the priority order information of the energy saving control function mounted in the air-conditioning equipment control system which concerns on embodiment of this invention.

1 Air conditioning equipment control system (equipment control system)
52a Normal demand control selection button (energy saving control selection means)
52b First remote energy saving control selection button (energy saving control selection means)
52c Second remote energy saving control selection button (energy saving control selection means)

Claims (3)

Multiple types of energy saving control means;
Priority information associating means for associating priority information with the plurality of types of energy saving control means;
Energy saving control selection means (52a, 52b, 52c) for selecting any one of the energy saving control means on the display screen;
When energy saving control means (hereinafter referred to as “high priority energy saving control means”) associated with priority information higher than priority information corresponding to the energy saving control means in operation in the energy saving control selection means is selected, A first energy saving control means switching means for stopping the energy saving control means in operation and operating the high priority energy saving control means;
Low priority energy saving control means selection prohibiting means for prohibiting selection of energy saving control means associated with priority information lower than priority information corresponding to the energy saving control means in operation;
An equipment control system (1) comprising:   On the display screen, a plurality of selection buttons (52a, 52b, 52c) as the energy saving control selection means are provided,
  The low priority energy saving control means selection prohibiting means, on the display screen, the selection button corresponding to the energy saving control means associated with priority information lower than the priority information corresponding to the operating energy saving control means. To hide,
The equipment control system according to claim 1. Energy saving control means stopping means for stopping the operation of the energy saving control means in operation;
Setting information storage means for storing setting information of the energy saving control means that was operating immediately before the energy saving control means stopped in the energy saving control means stopping means;
When the energy saving control means is stopped by the energy saving control means stopping means, the energy saving control means operating immediately before the stopped energy saving control means is stored in the setting information stored in the setting information storage means. The facility control system according to claim 1, further comprising second energy saving control means switching means that operates based on the second energy saving control means switching means.

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