JP2010255954A - Apparatus management device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an apparatus management device roughly representing the situation of a space where a plurality of facility apparatuses are dispersed and roughly representing the situation of the facility apparatuses in accordance with a simple operation. <P>SOLUTION: A management screen provided by a main controller 30 is a screen for managing a plurality of indoor units 10a, 10b... dispersed within an upper space. On the management screen, objects O1, O2 corresponding to the upper space and a plurality of objects O2, O3 corresponding to a plurality of lower spaces constituting the upper space, respectively are displayed to form a tree structure T. When a mouse pointer P is held on any of the objects O1-O3, apparatus information related to the indoor units 10a, 10b... corresponding to the object O1-O3 is displayed on the management screen. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a device management apparatus that provides a management screen for managing a plurality of facility devices.

  Conventionally, there are cases where a plurality of equipment (a plurality of indoor units of an air conditioning equipment, etc.) in one facility is intensively managed via one management screen (Japanese Patent Laid-Open No. 2005-308278). Publication). As such facilities, there are facilities of various sizes such as ordinary homes, office buildings, universities, hospitals, etc. composed of a plurality of buildings.

  However, as the scale of the facility increases and the number of facility devices to be managed increases, the management content that can be managed on one management screen is limited. Therefore, for example, even if an abnormality or the like occurs in a certain equipment, there may be a problem that the information is not quickly and accurately transmitted to the administrator who operates the management screen. In order to avoid such a problem, the management screen needs to be designed appropriately.

  Therefore, the applicant provides a management screen that virtually divides a facility to be managed hierarchically into a plurality of spaces and arranges object groups corresponding to the plurality of spaces in a tree structure. A management device was invented and filed on May 29, 2008 (Japanese Patent Application No. 2008-141509). According to this invention, the administrator who views the management screen can roughly grasp the state of the facility to be managed, and as a result, easily manages the equipment in the facility. Be able to.

  However, there is a demand from an administrator who not only roughly grasps the state of the facility but also roughly grasps the state of a plurality of equipment in the facility by a simple operation.

  SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus management apparatus that schematically represents the state of a space in which a plurality of equipment is scattered and provides a management screen that schematically represents the state of the equipment according to a simple operation. It is to provide.

  A device management apparatus according to a first invention includes a first display control unit and a pointer management unit, and provides a management screen. The management screen is a screen for managing a plurality of facility devices scattered in an upper space composed of a plurality of lower spaces. The first display control unit displays the object corresponding to the upper space and the object corresponding to the lower space on the management screen so as to have a tree structure. The pointer management unit controls display of a pointer indicating an operation target on the management screen. When the pointer is held on the object, the first display control unit displays device information related to the facility device in the upper space or the lower space corresponding to the object on the management screen. The tree structure may reflect an actual physical space structure, or may reflect a logical space structure.

  Here, a space (upper space) in which a plurality of equipment is installed is expressed as a tree structure having objects corresponding to the space and the plurality of subspaces (lower spaces) as elements. When an operation of holding a pointer on an object included in the tree structure is performed, device information related to the facility device in the space corresponding to the object is displayed on the management screen. Therefore, the manager can roughly grasp the state of the space in which a plurality of facility devices are scattered, and can roughly grasp the state of the facility devices by a simple operation.

  The operation of “holding the pointer on the object” includes not only positioning the pointer on the object but also leaving the pointer positioned on the object for a predetermined time. . Further, as a mode of providing the management screen by the device management apparatus, it is displayed on the display unit of another device connected to the device management apparatus, in addition to being displayed on the display unit of the device management apparatus. Includes cases.

  A device management apparatus according to a second invention is the device management apparatus according to the first invention, wherein the first display control unit displays the device information in the vicinity of the pointer or at a predetermined position.

  Here, when the pointer is held on the object, the device information related to the equipment in the space corresponding to the object is displayed near the pointer or at a predetermined position. Therefore, the administrator can easily grasp the position where the device information is displayed.

  A device management apparatus according to a third aspect of the present invention is the device management apparatus according to the first or second aspect of the present invention, further comprising a second display control unit. The second display control unit displays a schematic diagram of the upper space or the lower space corresponding to the object selected on the tree structure along with the tree structure on the management screen.

  Here, a schematic diagram of the space (upper space or lower space) being selected on the tree structure is displayed together with the tree structure. Therefore, the administrator can easily select a desired space via the tree structure and intuitively understand the state of the selected space via the schematic diagram.

  A device management apparatus according to a fourth aspect of the present invention is the device management apparatus according to the third aspect of the present invention, and the schematic diagram of the upper space is obtained by arranging objects corresponding to the lower space on the sketch of the upper space.

  Here, a sketch of the space (upper space) selected on the tree structure is displayed together with the tree structure, and objects corresponding to a space (lower space) lower than the space are arranged on the sketch. . Therefore, the administrator can easily select a desired space via the tree structure and intuitively understand the structure of the space being selected via the schematic diagram.

  A device management apparatus according to a fifth aspect of the present invention is the device management apparatus according to the fourth aspect of the present invention, wherein the second display control unit corresponds to the object when the pointer is held on the object on the sketch in the upper space. Device information related to the equipment in the lower space is displayed on the management screen.

  Here, when an operation of holding a pointer on an object included in the schematic diagram of the space is performed, device information related to the facility device in the space corresponding to the object is displayed on the management screen. Therefore, the manager can roughly and accurately grasp the state of the plurality of facility devices by a simple operation.

  A device management apparatus according to a sixth invention is the device management apparatus according to any one of the third to fifth inventions, wherein the schematic diagram of the lower space is a facility device in the lower space on the sketch of the lower space. An object corresponding to is arranged.

  Here, a sketch of the space (lower space) selected on the tree structure is displayed together with the tree structure, and objects corresponding to the equipment in the space are arranged on the sketch. Therefore, the manager can easily select a desired space via the tree structure and intuitively understand the state of the equipment in the selected space via the schematic diagram.

  A device management apparatus according to a seventh aspect is the device management apparatus according to any one of the first to sixth aspects, wherein the device information is displayed for a predetermined time and automatically disappears.

  Here, when an operation of holding a pointer on an object is performed, device information is temporarily displayed. Therefore, a situation in which it is difficult to visually recognize other information due to the device information displayed as a result of the operation is avoided.

  A device management apparatus according to an eighth aspect of the present invention is the device management apparatus according to any one of the first to seventh aspects, wherein the first display control unit has a pointer held on an object included in the tree structure. The information related to the plurality of facility devices in the upper space or lower space corresponding to the object is displayed on the management screen as device information.

  Here, the device information displayed as a result of the operation of holding the pointer on the object is information obtained by collecting information related to a plurality of facility devices in the space corresponding to the object. Therefore, the administrator can roughly grasp the device information related to the facility device group even when there are a plurality of facility devices in the desired space.

  A device management apparatus according to a ninth aspect of the present invention is the device management apparatus according to any one of the first to eighth aspects of the present invention, wherein the device information includes information regarding abnormality of the facility device.

  Here, the manager can roughly grasp the state of the space in which a plurality of facility devices are scattered, and can roughly grasp the abnormality of the facility devices by a simple operation.

  A device management apparatus according to a tenth aspect of the present invention is the device management apparatus according to any one of the first to ninth aspects of the present invention, wherein the device information includes the number of operating equipment, set temperature, suction temperature, and air conditioning unit, and Contains information on at least one of the energy consumption.

  Here, the administrator roughly grasps the state of the space in which a plurality of air conditioning units are scattered, and easily operates at least one of the number of operating air conditioning units, the set temperature, the suction temperature, and the energy consumption amount. It can be grasped roughly.

  In the device management apparatus according to the present invention, a space (upper space) in which a plurality of equipment is installed is expressed as a tree structure having objects corresponding to the space and a plurality of subspaces (lower spaces) as elements. The When an operation of holding a pointer on an object included in the tree structure is performed, device information related to the facility device in the space corresponding to the object is displayed on the management screen. Therefore, the manager can roughly grasp the state of the space in which a plurality of facility devices are scattered, and can roughly grasp the state of the facility devices by a simple operation.

The figure which shows the structure of the group management system containing the parent controller which concerns on one Embodiment of this invention. The figure which shows the structure of an indoor unit. The figure which shows the structure of a child controller. The figure which shows the structure of a parent controller. The figure which shows the data structure of a sketch map database. The figure which shows the data structure of a basic information database. The figure which shows the data structure of a driving information database. The figure which shows the data structure of an abnormality log | history database. The figure which shows the management screen of the state in which the object corresponding to the whole facility is selected. The figure which shows the management screen of the state as which the object corresponding to a certain building is selected. The figure which shows the management screen of the state as which the object corresponding to a certain unit space is selected. The figure which shows the management screen of the state in which apparatus information is pop-up displayed. The figure which shows the management screen which concerns on a modification (1).

  Hereinafter, a group management system 100 including a parent controller 30 (device management apparatus) according to an embodiment of the present invention will be described with reference to the drawings.

<Group management system>
(1) Overall Configuration The group management system 100 shown in FIG. 1 is a system for managing the air conditioning equipment 10 (equipment equipment) installed in the facility 1. The facility 1 is a university having a plurality of buildings 1a, 1b,. In the buildings 1a, 1b,..., A plurality of indoor units 10a, 10b,. The plurality of indoor units 10a, 10b,... In the same building 1a, 1b,... Are virtually grouped for management by the group management system 100, and the indoor unit groups 15a, 15b,. It is composed.

  The group management system 100 includes a plurality of child controllers 20a, 20b,... That respectively manage a plurality of indoor unit groups 15a, 15b,... And a parent controller that bundles the plurality of child controllers 20a, 20b,. 30. Each of the child controllers 20a, 20b,... Is installed in a management room in each of the buildings 1a, 1b,..., And a plurality of indoor units 10a, 10b in the same building 1a, 1b,. ,... Are connected via a dedicated control line 5b for the air conditioner 10. The parent controller 30 is installed in a management room in the building 1a together with the child controller 20a, and is connected to the child controllers 20a, 20b,... Via a local area network (hereinafter referred to as LAN) 5a. The LAN 5a includes personal controllers 20a, 20b,..., A parent controller 30, and a personal user who is not directly related to the management of the air conditioner 10 and used for normal business by the user in the facility 1. A network device (not shown) such as a computer or a printer is also connected.

(2) Configuration of Indoor Unit Hereinafter, the indoor unit 10a will be described with reference to FIG. 2, but the same applies to the other indoor units 10b,.

  Each indoor unit 10 a has a control unit 12. The control units 12 of the indoor units 10a belonging to the same refrigerant circuit are connected to each other via a dedicated control line 5b for the air conditioning equipment 10. Each control unit 12 is also connected to an outdoor unit (not shown) belonging to the same refrigerant circuit and a child controller 20a via a dedicated control line 5b for the air conditioning equipment 10.

  Each control unit 12 commands an operation command (for example, starting or stopping the indoor unit 10a or changing the set temperature of the indoor unit 10a) from a user input via the remote controller 14, the child controller 20a, or the parent controller 30. Control the operation of various components included in the refrigerant circuit in cooperation with the control unit (not shown) of the outdoor unit belonging to the same refrigerant circuit in accordance with the control of the operation mode of the indoor unit 10a. Then, the room is cooled or heated. Specifically, adjustment of the frequency of the compressor, the rotational speed of the fan, and the opening degree of various valves is performed. Note that the remote controller 14 is mainly for receiving an operation command for the indoor unit 10a from a general user, and is one-to-one or one-to-many to the controller 12 of the indoor unit 10a, and the other controllers 20a, 30. It is connected directly without going through.

A temperature sensor 12a, a humidity sensor 12b, and a CO ₂ concentration sensor 12c are connected to each controller 12 on a one-to-one basis. The temperature sensor 12a, the humidity sensor 12b, and the CO ₂ concentration sensor 12c are attached in the vicinity of the air inlet of the indoor unit 10a, and detect the temperature, humidity, and CO ₂ concentration around the indoor unit 10a, respectively.

Each control unit 12 also provides information on the operating state of the indoor unit 10a (temperature around the indoor unit 10a, humidity and CO ₂ concentration, starting state such as start / stop, set temperature, cooling / heating / air blowing, etc. (Hereinafter referred to as operation information) is transmitted to the child controller 20a in response to a command from the child controller 20a.

(3) Configuration of Child Controller Hereinafter, the child controller 20a will be described with reference to FIG. 3, but the same applies to the other child controllers 20b,.

  The child controller 20a is installed in a management room in the building 1a and is operated by an administrator who belongs to the management room. The slave controller 20a mainly includes a LAN side communication unit 21a, an air conditioning side communication unit 21b, a control unit 22, a display unit 23, an input unit 24, and a storage unit 25, and monitors and monitors the indoor units 10a included in the indoor unit group 15a. Control.

  The LAN-side communication unit 21a is a network interface that connects the child controller 20a to the LAN 5a, and exchanges various signals with the parent controller 30. The air conditioning side communication unit 21b is a network interface that connects the child controller 20a to the dedicated control line 5b, and exchanges various signals with the indoor unit 10a.

  The control unit 22 is mainly composed of a CPU, a ROM, and a RAM, and reads and executes a program stored in the storage unit 25. For example, the control unit 22 acquires the operation information of each indoor unit 10a included in the indoor unit group 15a from the control unit 12 of the indoor unit 10a at a predetermined time interval (in this embodiment, every minute). To the parent controller 30. Furthermore, the control unit 22 performs not only the operation information of the indoor unit 10a but also information regarding the operation state of the outdoor unit (the frequency of the compressor and the refrigerant) at predetermined time intervals (every minute in the present embodiment). The information indicating the temperature and pressure is also acquired (hereinafter referred to as operation information).

  In addition, the control unit 22 performs the indoor unit 10a and the outdoor unit based on the operation information of the indoor unit 10a and the outdoor unit for a predetermined time in the storage unit 25 at predetermined time intervals (every minute in the present embodiment). Determine whether there are any abnormalities in the outdoor unit. When it is determined that there is an abnormality, the fact is immediately displayed on the display unit 23 and also notified to the parent controller 30.

  Moreover, if the control part 22 receives the driving | operation command with respect to the indoor unit 10a from the parent controller 30 via the LAN side communication part 21a, it will transmit the said driving | operation command to the said indoor unit 10a via the air conditioning side communication part 21b.

  The display unit 23 is mainly composed of a display, and the input unit 24 is mainly composed of a touch panel and operation buttons that cover the display.

  An operation information storage area is secured in the storage unit 25. In the operation information storage area, the operation information of the indoor unit 10a and the outdoor unit acquired by the control unit 22 is accumulated for a predetermined time.

(4) Configuration of Parent Controller 30 The parent controller 30 is an ordinary personal computer, and mainly includes a communication unit 31, a control unit 32, a display unit 33, an input unit 34, and a storage unit 35, as shown in FIG. ing. The parent controller 30 is installed in a management room (existing in the building 1a) that manages the entire air conditioning equipment 10 in the facility 1, and is operated by a general manager who belongs to the management room.

  The communication unit 31 is a network interface that connects the parent controller 30 to the LAN 5a, and exchanges various signals with the child controllers 20a, 20b,.

  The control unit 32 mainly includes a CPU, a ROM, and a RAM. By reading and executing a program stored in the storage unit 35, the monitoring unit 32a, the operation control unit 32b, the condition determining unit 32c, and the first It operates as the display control unit 32d, the second display control unit 32e, the third display control unit 32f, and the pointer management unit 32g.

  The monitoring unit 32a collects operation information of the indoor units 10a, 10b,... Via the child controllers 20a, 20b,. The operation control unit 32b transmits operation commands to the control units 12 of the indoor units 10a, 10b,... Via the child controllers 20a, 20b,. To control the operation. Further, the operation control unit 32b accepts registration of the operation schedule of the indoor units 10a, 10b,... Via the input unit 34, and issues an appropriate operation command at an appropriate timing along the operation schedule. It transmits to indoor unit 10a, 10b, .... The condition determination unit 32c searches for the indoor units 10a, 10b,... That match the search conditions C1, C2,. The first display control unit 32d, the second display control unit 32e, and the third display control unit 32f cooperate with the condition determination unit 32c and manage the indoor units 10a, 10b,... Displayed on the display unit 33. Create a screen. The pointer management unit 32g grasps the user's operation on the input unit 34, and displays the pointer on the display unit 33 according to this. Details of the operation of each of the units 32a to 32g will be described later.

  The display unit 33 is mainly composed of a display.

  The input unit 34 mainly includes a mouse 34a and a keyboard 34b.

  The storage unit 35 is mainly composed of a hard disk, and stores the floor plan database 35a storing the floor plan of the entire facility 1 and each space constituting the facility 1, and the basic information of the indoor units 10a, 10b,. Basic information database 35b, the operation information database 35c in which the operation information of the indoor units 10a, 10b,... Is stored, and information on abnormalities in the indoor units 10a, 10b,. ) Is stored in the abnormality history database 35d. In addition, information related to the operation schedule of the indoor units 10a, 10b,... Input via the input unit 34 is also stored in the storage unit 35.

a) Sketch Map Database As shown in FIG. 5, the sketch map database 35a is a database having a hierarchical structure. More specifically, in the floor plan database 35a, a schematic plan view of the entire facility 1, a schematic side view of the buildings 1a, 1b,... Constituting the facility 1, and a building 1a, 1b,. A schematic plan view of the unit space is hierarchically stored so as to correspond to the actual physical space structure of the facility 1. That is, in the hierarchical structure of the floor plan database 35a, a schematic plan view of the entire facility 1 is positioned at the top, and a schematic side view of the buildings 1a, 1b,. A schematic plan view of the unit space is positioned at the lower or lowermost position.

  The schematic plan view of the unit space is image data illustrating walls, columns, doors, stairs, and the like. Two-dimensional coordinates are assigned to each point constituting the schematic plan view of the unit space.

  Each floor plan in the floor plan database 35a is attached with index information indicating which space the floor plan corresponds to. When the index information is aggregated, it becomes information indicating the actual spatial structure of the facility 1.

b) Basic Information Database As shown in FIG. 6, the basic information database 35b is a tabular format having fields of “equipment ID”, “building”, “unit space”, “coordinates”, “introduction date”, “rated power”, and “normal operation”. Database.

  The records in the basic information database 35b correspond to the indoor units 10a, 10b,... Included in the air conditioning equipment 10 on a one-to-one basis, and one record corresponds to one indoor unit 10a, 10b,. Basic information including position information and other attribute information is recorded. The positions of the indoor units 10a, 10b,... Are specified by a combination of values of “building”, “unit space”, and “coordinate” fields.

  In the “device ID” field, device IDs of the indoor units 10a, 10b,. In the “building” field, names of the buildings 1a, 1b,... In which the indoor units 10a, 10b,... Are installed are stored, and in the “unit space” field, the indoor units 10a, 10b. ,... Are stored, and the “coordinate” field is assigned to a schematic plan view of the unit space indicating the installation locations of the indoor units 10a, 10b,. The coordinate information based on the two-dimensional coordinates is stored.

  The date of introduction of the indoor unit 10a, 10b,... Into the facility 1 is stored in the “introduction date” field, and the indoor unit 10a, 10b,. The rated power is stored, and the “always operating” field has a value “1” when the indoor units 10a, 10b,... ”Is stored, otherwise the value“ 0 ”is stored.

c) Operation Information Database As shown in FIG. 7, the operation information database 35 c includes “device ID”, “time”, “room temperature”, “humidity”, “CO ₂ concentration”, “starting state”, “set temperature”, and “operation mode”. It is a tabular database with fields.

  Each record in the driving information database 35c records driving information of a certain indoor unit 10a, 10b,... At a certain time.

  The driving information database 35c is updated by the monitoring unit 32a at predetermined time intervals (in this embodiment, every minute). That is, the monitoring unit 32a obtains the operation information of the indoor units 10a, 10b,... Via the child controllers 20a, 20b,... At predetermined time intervals (in this embodiment, every minute). Receive. And the monitoring part 32a shapes the said driving information according to the data structure of the driving information database 35c, and stores it in the driving information database 35c as a new record. In the “time” field of the new record, the reception time of the operation information that is the source is stored.

d) Abnormal History Database As shown in FIG. 8, the abnormal history database 35d is a tabular database having “device ID”, “occurrence date”, “type”, and “treated” fields.

  When the monitoring unit 32a receives notification of abnormality in the indoor units 10a, 10b,... Or the outdoor unit from the child controllers 20a, 20b,..., A new record corresponding to the abnormality is created in the abnormality history database 35d. To do.

  In the “device ID” field, the device ID of the indoor unit 10a, 10b,... Or outdoor unit in which the abnormality has occurred is stored, and in the “occurrence date” field, the date of occurrence of the abnormality is stored. The type of the abnormality is stored in the “type” field. In the “treated” field, when information indicating that the treatment for the abnormality is completed is input, the value “treated” is stored, but before the input, the value “untreated” is stored. Has been.

(5) Management Screen The management screens shown in FIGS. 9 to 11 are screens for managing the indoor units 10a, 10b,... By the general manager, and the first display control unit 32d and second of the parent controller 30. It is created by the display control unit 32e and the third display control unit 32f and displayed on the display unit 33 of the parent controller 30.

  The management screen is mainly divided into three areas A1 to A3. A tree structure T is displayed in the left area A1, a schematic diagram of the entire facility 1 or a space constituting the facility 1 is displayed in the area A2 that extends greatly in the center, and various operation buttons are displayed in the right area A3. B1 to B6 are displayed. The left area A1 is controlled by the first display controller 32d, the central area A2 is controlled by the second display controller 32e, and the right area A3 is controlled by the third display controller 32f. The

a) Tree Structure As shown in FIGS. 9 to 11, the tree structure T in the left region A <b> 1 is an array of a plurality of objects O <b> 1 to O <b> 3 composed of square icons and characters arranged on the left and right. is there. More specifically, in the tree structure T, the object O1 corresponding to the entire facility 1 is a root object, the object O2 corresponding to the buildings 1a, 1b,. The object O3 corresponding to the space is branched. The object O2 corresponds to the buildings 1a, 1b,... On a one-to-one basis, and the object O3 branched from each object O2 is a unit space in the buildings 1a, 1b,. One-to-one. The first display control unit 32d refers to the sketch map database 35a, and forms the tree structure T by arranging the objects O1 to O3 according to the data structure.

  Characters included in each of the objects O1 to O3 are determined based on index information in the sketch map database 35a. That is, the character included in the object O1 corresponding to the entire facility 1 is determined as “facility 1” based on the index information added to the sketch of the entire facility 1, and the character included in the object O2 corresponding to the building 1a. Is determined as “building 1a” based on the index information added to the floor plan of the building 1a, and the characters included in the object O3 corresponding to the unit space occupying the fourth floor north side in the building 1a are the characters in the building 1a. Based on the index information added to the sketch of the unit space occupying the fourth floor north side, it is determined to be “the fourth floor north side”.

  The icons included in the objects O1 to O3 are the states of the indoor units 10a, 10b,... In the space (the entire facility 1, buildings 1a, 1b,... Or unit space) corresponding to the objects O1 to O3. The color changes according to the. In addition, the state of each indoor unit 10a, 10b, ... is determined by the condition determination part 32c. The first display control unit 32d determines the color to be assigned to each icon according to the determination result, and changes the color of the icon.

  More specifically, the condition determination unit 32c refers to the basic information database 35b, the operation information database 35c, and the abnormality history database 35d at predetermined time intervals (every minute in the present embodiment), and each indoor unit It is determined whether 10a, 10b,... Match the search conditions C1, C2,. On the other hand, the first display control unit 32d is an icon corresponding to each space (the entire facility 1, buildings 1a, 1b,..., Or unit space) at a predetermined time interval (in this embodiment, every minute). The color of will be decided. When the at least one indoor unit 10a, 10b,... In the space corresponding to the icon satisfies the search condition C1, the color of the icon does not satisfy the first color and the search condition C1, but the search condition C2. If the condition is satisfied, the second color is determined. In other words, different colors are associated with the search conditions C1, C2,... In advance, and the color assigned to the icon is a color corresponding to the matching search conditions C1, C2,. However, when a plurality of search conditions C1, C2,... Match, the search conditions C1, C2,. If none of the search conditions C1, C2,... Is satisfied, the default color is used.

  As described above, the general manager simply looks at the icon of the tree structure T, and the facts such as abnormalities occurring in the indoor units 10a, 10b,... In the space corresponding to the icon (more precisely, It is possible to quickly detect whether at least one of the indoor units 10a, 10b,... In the space corresponding to the icon matches the search conditions C1, C2,. The search conditions C1, C2,... In the storage unit 35 can be changed, added, and deleted at any timing by the general manager operating the input unit 24. That is, the general manager can freely set the search conditions C1, C2,... So that the fact that he / she wants to monitor is reflected in the color of the icon.

  Each search condition C1, C2,... Is a combination of an extraction condition and an optional exclusion condition. “Matching search conditions C1, C2,...” Means that the search conditions C1, C2,.

  In the search condition C1, the exclusion condition is omitted, and the occurrence condition is an extraction condition. Therefore, the general manager can check the abnormality in the indoor units 10a, 10b,... From the color of the icon. Note that whether or not a certain indoor unit 10a, 10b,... Matches the search condition C1 is determined by referring to the abnormality history database 35d by the condition determination unit 32c.

  As other search conditions C2,..., The following are set, for example.

  As a first example, an excluding condition is that the set temperature is above 25 ° C., an extracting condition is that the room temperature is 25 ° C. or less and the system is in operation. In such a case, from the color of the icon, the set temperature is set to a low value of 25 ° C. or lower, and the overcooled indoor units 10a, 10b,. You can check forgetting. It should be noted that whether or not a certain indoor unit 10a, 10b,... Matches the search condition is determined by the condition determining unit 32c by “apparatus ID”, “time”, “room temperature”, “setting” in the operation information database 35c. This is done by referring to the values in the "Temperature" and "Startup Status" fields.

  Moreover, as a 2nd example, what makes exemption conditions that the introduction date is less than 5 years and makes extraction conditions that it is driving | running is mentioned. In such a case, it is possible to check whether the old indoor units 10a, 10b,... It should be noted that whether or not a certain indoor unit 10a, 10b,... Matches the search condition is determined by the condition determination unit 32c using the values of the “device ID” and “introduction date” fields in the basic information database 35b. In addition, it is performed by referring to the values of the “device ID”, “time”, and “activation state” fields in the operation information database 35c.

  Moreover, as a 3rd example, what makes rated conditions the power consumption below a predetermined value as an exclusion condition, and makes it an extraction condition that it is driving | running is mentioned. In such a case, it is possible to check forgetting to turn off the indoor units 10a, 10b,. It should be noted that whether or not a certain indoor unit 10a, 10b,... Matches the search condition is determined by the condition determination unit 32c using the values of the “equipment ID” and “rated power” fields in the basic information database 35b, In addition, it is performed by referring to the values of the “device ID”, “time”, and “activation state” fields in the operation information database 35c.

  Moreover, as a 4th example, what is set as an exclusion condition that it is not for continuous driving | running | working is mentioned as an extraction condition. In such a case, it is possible to check whether the indoor units 10a, 10b,... That require constant operation (for example, in the computer server room) are stopped from the color of the icon. It should be noted that whether or not a certain indoor unit 10a, 10b,... Matches the search condition is determined by the condition determination unit 32c using the values of the “device ID” and “always operating” fields in the basic information database 35b, In addition, it is performed by referring to the values of the “device ID”, “time”, and “activation state” fields in the operation information database 35c.

  Moreover, as a 5th example, what makes the exclusion condition that the driving schedule is registered and makes extraction condition that it is driving is mentioned. In such a case, it is possible to check forgetting to turn off the indoor units 10a, 10b,... That are operating against the intention of the general manager from the color of the icon. Note that whether or not a certain indoor unit 10a, 10b,... Matches the search condition is determined by the condition determination unit 32c using the information related to the operation schedule in the storage unit 35 and “ This is performed by referring to the values of the “device ID”, “time”, and “activation state” fields.

  In addition, a folding button is provided on the left side of each of the objects O1 and O2 in the layer other than the lowest layer. When the folding button is in the “+” state, it means that the object on the right side thereof (that is, the next lower object) is in a non-display state, and when the folding button is in the “−” state, This means that the object on the right side (that is, the next lower object) is being displayed.

b) Schematic diagram of the entire facility 1 and each space constituting the facility 1 As shown in FIGS. 9 to 11, the central region A2 includes a space currently selected by the general manager via the input unit 34 ( A schematic diagram of the entire facility 1, buildings 1a, 1b,... Or unit space) is displayed. FIG. 9 is a screen example in which the entire facility 1 is selected, FIG. 10 is a screen example in which the building 1a is selected, and FIG. 11 is a unit on the north side of the third floor in the building 1a. It is an example of a screen in a state where a space is selected.

b-1) Schematic diagram of the entire facility As shown in FIG. 9, when the second display control unit 32e detects that the object O1 corresponding to the entire facility 1 is selected on the tree structure T, the second display control unit 32e reads from the sketch database 35a. A sketch of the space corresponding to the object O1, that is, a schematic plan view of the entire facility 1 is extracted and displayed in the area A2.

  The portion corresponding to each building 1a, 1b,... On the schematic plan view of the entire facility 1 is an object O4, and the indoor units 10a, 10b,.・ The color changes according to the condition. The object O4 corresponding to the buildings 1a, 1b,... In the area A2 is given the same color as the object O2 corresponding to the buildings 1a, 1b,.

b-2) Schematic diagram of each building As shown in FIG. 10, the second display control unit 32e has selected the object O2 corresponding to one of the buildings 1a, 1b,. Is extracted from the floor plan database 35a, that is, a schematic side view of the building 1a, 1b,... Is displayed in the area A2. When the schematic diagram of the entire facility 1 is displayed in the area A2, and the object O4 arranged on the figure is selected, the buildings 1a, 1b,. A schematic side view will be displayed.

  The portion corresponding to each unit space on the schematic side view of the building 1a, 1b,... Is made into an object O5, and the portion is matched to the state of the indoor units 10a, 10b,. The color is changing. The object O5 corresponding to the unit space in the area A2 is given the same color as the object O3 corresponding to the unit space on the tree structure T.

b-3) Schematic diagram of each unit space As shown in FIG. 11, when the second display control unit 32e detects that an object O3 corresponding to any unit space is selected on the tree structure T, the sketch drawing is displayed. A sketch of the space corresponding to the object O3, that is, a schematic plan view of the unit space, is extracted from the database 35a and displayed in the area A2. In addition, when the schematic diagram of the buildings 1a, 1b,... Is displayed in the area A2, the outline of the unit space in the area A2 is selected even when the object O5 arranged on the figure is selected. A plan view will be displayed.

  Further, the second display control unit 32e displays objects corresponding to the indoor units 10a, 10b,... Installed in the unit space on the schematic plan view of the unit space displayed in the area A2. Place O6. More specifically, the second display control unit 32e searches the basic information database 35b, and records that store information specifying the currently selected unit space in the “building” and “unit space” fields. And one or more objects O6 are arranged according to the value of the “coordinate” field of the one or more extracted records.

  Each object O6 includes an icon and a character.

  The character included in each object O6 becomes the value of the “device ID” field of the record corresponding to the object O6 in the basic information database 35b.

  Further, the color of the icon included in each object O6 is changed according to the state of the indoor units 10a, 10b,... Corresponding to the object O6. The determination of the color of the icon in the area A2 is performed in the same manner as the case where the first display control unit 32d determines the color assigned to the icon on the tree structure T.

  That is, the second display control unit 32e determines the color of the icon included in each object O6 at a predetermined time interval (in this embodiment, every minute) according to the determination result by the condition determination unit 32c. I will do it. When the indoor units 10a, 10b,... Corresponding to the icon satisfy the search condition C1, the color of the icon included in the object O6 does not satisfy the first color and the search condition C1, but satisfies the search condition C2. In this case, it is determined by a method such as the second color, and if none of the search conditions C1, C2,.

  As described above, the general manager simply looks at the icon in the area A2, and the facts such as abnormality occurring in the indoor units 10a, 10b,... Corresponding to the icon (more precisely, the icon It is possible to quickly detect whether the corresponding indoor units 10a, 10b,... Match the search conditions C1, C2,.

c) Operation Buttons As shown in FIGS. 9 to 11, a plurality of operation buttons B1 to B5 are displayed in the right area A3. The operation buttons B1 to B4 are disabled while the schematic diagram of the entire facility 1 or the buildings 1a, 1b,... Is displayed in the area A2, and the schematic diagram of the unit space is displayed in the area A2. Enabled while being

  While the schematic diagram of the unit space is displayed in the area A2, the general manager can select any of the objects O6 on the schematic diagram via the input unit 34.

  When the general manager presses the “start” button B1 in a state where an object O6 is selected, the operation control unit 32b controls the indoor units 10a, 10b,... Corresponding to the object O6. Is transmitted to the unit 12 via the child controllers 20a, 20b, ... to which the indoor units 10a, 10b, ... belong. Therefore, the general manager can easily start the indoor units 10a, 10b,... Via the management screen.

  Similarly, when the “stop” button B2 is pressed by the general manager while a certain object O6 is selected, the operation control unit 32b causes the indoor units 10a, 10b,. An operation command for instructing a stop is transmitted to the control unit 12 via the child controllers 20a, 20b, ... to which the indoor units 10a, 10b, ... belong. Therefore, the general manager can easily stop the indoor units 10a, 10b,... Via the management screen.

  On the other hand, when the “set” button B3 is pressed by the general manager while a certain object O6 is selected, the operation of the indoor units 10a, 10b,... Corresponding to the object O6 is displayed on the display unit 33. A setting change window for accepting changes in parameters (set temperature, operation mode, etc.) is displayed. When the operation parameter is changed on the setting change window, the operation control unit 32b sends the child controller 20a to which the indoor unit 10a, 10b,... Belongs to the control unit 12 of the indoor unit 10a, 10b,. , 20b,..., 20b,... Therefore, the general manager can easily change the operation parameters of the indoor units 10a, 10b,... Via the management screen.

  On the other hand, when the “detailed information” button B4 is pressed by the general manager while a certain object O6 is selected, the indoor unit 10a, 10b,... Corresponding to the object O6 is displayed on the display unit 33. A detailed information window showing detailed information is displayed. In the detailed information window, the basic information stored in the basic information database 35b, the driving information stored in the driving information database 35c, and the abnormality history database 35d related to the indoor units 10a, 10b,. Anomaly information etc. are displayed. The detailed information window is also displayed when the object O6 is selected by a predetermined method (such as double-clicking the mouse of the input unit 34). Therefore, the general manager can easily access the detailed information of the indoor units 10a, 10b,... Via the management screen.

  In addition, when the “administration” button B5 is pressed by the general manager via the input unit 34, a legend that displays a legend of colors attached to the objects O1 to O6 or icons included in the objects on the display unit 33. The display window is open. Therefore, the general manager can easily know the meanings of the colors of the objects O1 to O6 or the icons included therein.

(6) Pop-up Display Function for Device Information As shown in FIG. 12, the management screen includes spaces corresponding to the objects O1 to O5 where the mouse pointer P is currently aligned (the entire facility 1, buildings 1a, 1b, A function for pop-up displaying various types of information (including the above-described operation information, basic information, abnormality information, etc., hereinafter referred to as device information) related to the indoor units 10a, 10b,. ing.

  In general, pop-up display means that when a predetermined object is mouse-overed by the mouse pointer, information on the object is automatically displayed in the vicinity of the mouse pointer (that is, the operator only needs to move the mouse over, Display (without requiring other operations such as clicking). The information once popped up disappears immediately when the mouse pointer leaves the object. Furthermore, mouse over means that the mouse pointer is positioned on a predetermined object. In this embodiment, the “selection” operation of objects (including objects O1 to O6 and buttons B1 to B5) on the management screen is a predetermined operation in a state where the mouse pointer P is moved over the object. (Usually, a left click of the mouse 34a, a press of a predetermined button on the keyboard 34b, etc.). The position of the mouse pointer P displayed on the management screen is managed by the pointer management unit 32g. In other words, the pointer management unit 32g detects the operation input given to the mouse 34a, and always displays the mouse pointer P at the grasped current position while constantly grasping the current position of the mouse pointer P that changes according to the operation input. I have a role to let you.

  Referring back to FIG. 12, when the object O1 corresponding to the entire facility 1 is over, the device information regarding the indoor units 10a, 10b,. The device information displayed in a pop-up includes basic information stored in the basic information database 35b, driving information stored in the driving information database 35c, and abnormality history regarding all indoor units 10a, 10b,. This is information that summarizes abnormality information and the like stored in the database 35d by a predetermined method. More specifically, the number of indoor units 10a, 10b,... In the facility 1 in operation, the average set temperature of all the indoor units 10a, 10b,. Is the minimum set temperature (the maximum set temperature during heating), the average suction temperature and the total energy consumption, the number of abnormalities for all the indoor units 10a, 10b,. When an abnormality has occurred in any of the indoor units 10a, 10b,... In the facility 1, the type of abnormality.

  Similarly, although not shown, when the object O2 corresponding to a certain building 1a, 1b,... Is over, the indoor units 10a, 10b,. The device information related to ... pops up. The content of the device information displayed in a pop-up is the same as when the object O1 is over the mouse, and the same type of device information regarding all the indoor units 10a, 10b,... In the building 1a, 1b,. Information gathered in a similar manner.

  Similarly, although not shown, when the object O3 corresponding to a certain unit space is mouse-overed, device information regarding the indoor units 10a, 10b,... In the unit space is popped up in the vicinity of the mouse pointer P. The The content of the device information displayed in a pop-up is the same as when the objects O1 and O2 are over the mouse, and the same type of device information regarding all the indoor units 10a, 10b,. This is a summary of information.

  The device information displayed in a pop-up is calculated by the first display control unit 32d or the second display control unit 32e when the mouse management of the objects O1 to O5 is detected by the pointer management unit 32g. More specifically, when the objects O1 to O3 included in the tree structure T are moused over, the first display control unit 32d displays the space corresponding to the objects O1 to O3 (the entire facility 1, buildings 1a, 1b, .. Or unit space) is specified, and device information relating to the indoor units 10a, 10b,... Is extracted from the databases 35b to 35d. Subsequently, the extracted device information is processed in accordance with a predetermined method, and the processed device information is displayed on the mouse pointer P side. On the other hand, when the objects O4 and O5 in the area A2 are moused over, the same processing is executed by the second display control unit 32e.

  In addition, the management screen has a function of popping up device information about the indoor units 10a, 10b,... Corresponding to the object O6 in the vicinity of the mouse pointer P when the object O6 in the area A2 is over the mouse. Has been.

  The device information pop-up displayed is stored in the basic information stored in the basic information database 35b, the driving information stored in the driving information database 35c, and the abnormality history database 35d regarding the indoor units 10a, 10b,. This is information in which abnormal information and the like are collected by a predetermined method. More specifically, when an abnormality has occurred in the indoor units 10a, 10b,..., The type and content of the abnormality are displayed in a pop-up, and the indoor units 10a, 10b,. If there is, the device information of a preset type is displayed. The types of device information that can be set in advance include, for example, the operation history of the indoor units 10a, 10b,..., The difference between the suction temperature and the set temperature in the indoor units 10a, 10b,. A trend graph of specific parameters relating to the units 10a, 10b,... When the camera is attached to the indoor units 10a, 10b,..., The images of the cameras, all the indoor units 10a, 10b,. -When a reference machine is set in, there are various parameter differences between the reference machine and the indoor units 10a, 10b,. The reference machine can be set by the general manager via the input unit 34.

  Such device information is calculated by the first display control unit 32d when the pointer management unit 32g detects the mouse over of the object O6. More specifically, when the object O6 is moused over, the first display control unit 32d identifies the indoor units 10a, 10b,... Corresponding to the object O6, and the indoor units 10a, 10b,. ... Extracting device information related to the databases 35b to 35d. Subsequently, the extracted device information is processed in accordance with a predetermined method, and the processed device information is displayed on the mouse pointer P side.

<Characteristic>
In the above embodiment, on the condition that the objects O1 to O5 are moused over, the indoor unit 10a in the space (the entire facility 1, the buildings 1a, 1b,..., Or the unit space) corresponding to the objects O1 to O5. , 10b,... Is displayed in the vicinity of the mouse pointer P. In addition, device information regarding the indoor units 10a, 10b,... Corresponding to the object O6 is displayed in the vicinity of the mouse pointer P on condition that the object O6 is mouse over. Therefore, the general manager can roughly grasp the state of the indoor units 10a, 10b,... With a simple operation.

<Modification>
(1)
In the above embodiment, when the objects O1 to O5 on the management screen are moused over, indoor units in the space (the entire facility 1, buildings 1a, 1b,..., Or unit space) corresponding to the objects O1 to O5. The device information regarding 10a, 10b,... Is displayed in the vicinity of the mouse pointer P. However, as shown in FIG. 13, the device information may be displayed at a predetermined position in the management screen (lower right of the management screen). The same applies to the object O6 when the mouse is over.

(2)
The device information pop-up displayed when the objects O1 to O5 are over the mouse is not limited to the above. In particular, the general administrator may arbitrarily set the type of device information displayed in a pop-up for the parent controller 30.

(3)
In the above embodiment, the device information once popped up is erased immediately when the mouse pointer P moves away from the objects O1 to O6. However, the device information displayed once is not automatically when the mouse pointer P is moved away from the objects O1 to O6 but automatically when a certain time (for example, 30 seconds) elapses from when the mouse pointer P is first displayed or left. It may be configured to disappear automatically.

(4)
In the above embodiment, the device information is displayed only while the mouse pointer P is over the predetermined objects O1 to O6. However, the device information may be displayed only when the mouse pointer P remains over the predetermined objects O1 to O6 for a predetermined time.

(5)
In the above embodiment, the facility 1 is hierarchized as a three-level space for management by the parent controller 30, but may be hierarchized as a two-level or four-level or higher space.

(6)
In the above-described embodiment, the parent controller 30 may provide the management screen to a client computer that uses the parent controller 30 as a server computer. The client computer may be a terminal in the LAN 5a, or a terminal outside the LAN 5a, for example, a remote terminal outside the facility 1 connected via the Internet. If the parent controller 30 has a Web server function, the client computer may be a terminal having a browser function.

(7)
In the above embodiment, the colors of the objects O1 to O6 are changed according to the state of the indoor units 10a, 10b,. However, not only the color but also the shape or pattern or a combination thereof may be changed.

(8)
In the above embodiment, the child controllers 20a, 20b,... May be omitted. That is, the indoor units 10a, 10b,... Are directly connected to the parent controller 30 without passing through the child controllers 20a, 20b,. The parent controller 30 may be responsible.

(9)
In the said embodiment, the group management system 100 may manage installation apparatuses other than air-conditioning equipment, such as an illuminating device, a water supply / drainage device, a humidifier, an elevator, and a security device. Moreover, you may come to manage the multiple types of installation equipment which does not contain the air conditioning equipment.

(10)
In the above embodiment, the outdoor unit may be managed through the management screen in the same manner as the indoor units 10a, 10b,.

(11)
The information acquired and stored by the child controllers 20a, 20b,... And the parent controller 30 is not limited to that shown in the above embodiment.

  For example, the parent controller 30 acquires information indicating the frequency of the compressor, the rotational speed of the fan, the temperature and pressure of the refrigerant at an appropriate location in the refrigerant circuit, and the like via the child controllers 20a, 20b,. It may be like this.

  Further, the monitoring unit 32a of the parent controller 30 detects an abnormality with its own logic based on the information, and the detection result is used for the search conditions C1, C2,... It may be reflected.

(12)
In the above embodiment, the tree structure T is hierarchically assembled so as to correspond to the actual physical space structure of the facility 1. However, the tree structure T may be a hierarchical structure corresponding to a logical space structure. For example, a plurality of objects corresponding to the corridors of the plurality of buildings 1a, 1b,... Are arranged below the object “corridor”, and a plurality of objects corresponding to the classroom are arranged below the object “classroom”. It may be arranged. In other words, spaces that are physically separated from each other can be combined into a higher space.

(13)
In the above embodiment, the sketch database 35a is a database having a hierarchical structure, but is not limited to such a format. For example, the floor plan database 35a may be configured by a database that stores only the floor plan and a database that stores information for managing the hierarchical structure of the floor plan, that is, the spatial structure of the facility 1.

DESCRIPTION OF SYMBOLS 1 Site 1a, 1b, ... Building 10 Air-conditioning equipment 10a, 10b, ... Indoor unit (equipment equipment)
20 Child controller 30 Parent controller (device management device)
32 control unit 32d first display control unit 32e second display control unit 32g pointer management unit 34 input units O1 to O6 object P mouse pointer T tree structure

JP-A-2005-308278

Claims (10)

A device management apparatus (30) for providing a management screen for managing a plurality of facility devices (10a, 10b,...) Scattered in an upper space composed of a plurality of lower spaces,
On the management screen, a first display control unit (32d) displays the objects (O1, O2) corresponding to the upper space and the objects (O2, O3) corresponding to the lower space so as to have a tree structure (T). )When,
A pointer management unit (32g) for controlling display of a pointer (P) indicating an operation target on the management screen;
With
When the pointer is held on the object (O1 to O3), the first display control unit manages the device information related to the facility device in the upper space or the lower space corresponding to the object. Display on screen,
Device management device (30). The first display control unit (32d) displays the device information in the vicinity of the pointer (P) or at a predetermined position.
The device management device (30) according to claim 1. Second display control for displaying a schematic diagram of the upper space or the lower space corresponding to the objects (O1 to O3) selected on the tree structure together with the tree structure (T) on the management screen. Part (32e),
Further comprising
The device management apparatus (30) according to claim 1 or 2. The schematic diagram of the upper space is obtained by arranging objects (O4, O5) corresponding to the lower space on the sketch of the upper space.
The device management apparatus (30) according to claim 3. When the pointer (P) is held on the object (O4, O5) on the sketch of the upper space, the second display control unit (32e), the equipment in the lower space corresponding to the object Display device information related to devices (10a, 10b,...) On the management screen;
The device management apparatus (30) according to claim 4. In the schematic diagram of the lower space, objects (O6) corresponding to the facility devices (10a, 10b,...) In the lower space are arranged on a sketch of the lower space.
The device management apparatus (30) according to any one of claims 3 to 5. The device information is displayed for a predetermined time and automatically disappears.
The device management apparatus (30) according to any one of claims 1 to 6. When the pointer (P) is held on the objects (O1 to O3) included in the tree structure (T), the first display control unit (32d) A summary of information related to a plurality of the equipment (10a, 10b,...) In the lower space is displayed on the management screen as the equipment information;
The device management apparatus (30) according to any one of claims 1 to 7. The equipment information includes information on abnormality of the equipment equipment (10a, 10b, ...),
The device management apparatus (30) according to any one of claims 1 to 8. The equipment information includes information regarding at least one of the number of operating equipment (10a, 10b,...) That are air conditioning units, set temperature, suction temperature, and energy consumption.
The device management apparatus (30) according to any one of claims 1 to 9.

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