JP2012203689A - Engineering apparatus and engineering method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an engineering device and an engineering method which can make a template that obtains a feature for each facility, and can set an attribute of a management point based on the pre-made template.SOLUTION: An engineering apparatus includes: template making means 5 that makes a template in which a type of data on a management point to be collected by a data terminal 30, and an attribute value for communication means 20 to identify the management point, are listed by using attribute-value-group information in which each management point is classified by a type of facility equipment; management point information collection means 2 that collects management point information from management devices 10-1 to 10-n; and management point linking means 6 that sets an attribute value to the collected management point information by using the template.

Description

  The present invention relates to an engineering apparatus and an engineering method for constructing a remote management system.

  Conventionally, in a monitoring apparatus that monitors and manages facilities such as buildings and plants for 24 hours, definition information that defines identifiers of equipment to be monitored and point data such as point descriptions that describe the identifiers and contents of management points are stored in advance. It is determined for each facility where equipment is installed. When the engineering device performs engineering work for constructing the monitoring system, the management point of the facility is defined in association with the management point managed on the monitoring device.

  In particular, in office buildings, the same space equipment specification called the standard floor is often applied across multiple floors. In this case, after defining the management points for the equipment on the standard floor, copy and paste We are conducting engineering work such as deploying management point data related to equipment of the same specification to multiple floors.

  However, the configuration of this management point is that many additions and changes often occur from the initial design to delivery. In accordance with this situation, conventional engineering equipment prepares templates that define definition information and point descriptions for each type of equipment, and the layout of a detailed screen that displays management point data is defined as definition information. Based on the template, the management point data of the equipment to be monitored is arranged according to the layout, and a detailed screen is created and displayed (for example, see Patent Document 1). Thereby, an engineering work in which work man-hours are generated each time the management point configuration is changed can be efficiently performed.

  On the other hand, a method has been established in which a monitoring device collects management point data for each facility such as a building and a plant and aggregates the management point information in a data center using a communication means (see, for example, Patent Document 2). ). Thereby, the management point information of a plurality of facilities can be collected.

JP 2005-18119 A JP 2008-274668 A

  In order to collect management point information from the monitoring device for each facility using communication means, an attribute is set for the communication means to identify the management point in addition to the conventional management point information for the facility. There was a need to do. However, setting attributes for a huge amount of management points requires a large amount of work, and the configuration of management points often changes. Therefore, it is necessary to reset the attributes each time. There was a problem that the efficiency was low.

  The present invention has been made to solve the above-described problems, and creates an engineering device that captures features in units of facilities, and can set attributes of management points based on the created template and The purpose is to provide engineering methods.

  The engineering apparatus according to claim 1 of the present invention is an attribute value group in which each management point is classified according to the type of equipment and the type of data handled by each management point and the attribute value are set one-to-one. A template creating means for extracting the data type and attribute value of the management point to be collected by the data terminal from the information, and creating a template arranged for each type of equipment, and a plurality of management devices Management point information collecting means for collecting management point information respectively stored in the management point information, management point information collected by the management point information collecting means, and management points included in the template created by the template creation means are handled as data Management point linking means for linking attribute values of the same management point.

  In the engineering apparatus according to claim 2 of the present invention, the attribute value is a path unique to the equipment for specifying the management point by the communication means.

  In the engineering device according to claim 3 of the present invention, when the management point associating unit adds the management terminal to the data collection target at the data terminal, the management device newly added by the management point information collecting unit The attribute value is associated with the management point information using the already created template.

  The engineering method according to claim 4 of the present invention is an attribute value group in which each management point is classified by the type of equipment and the data type and attribute value handled by each management point are set one-to-one. A template creation step for creating a template in which data types and attribute values of management points to be collected at a data terminal are extracted from information and arranged for each type of equipment, and a plurality of management devices Management point information collection step that collects the management point information stored in the management point information, and management point information collected in the template creation step for the management point information collected in the management point information collection step. A management point linking step for linking attribute values of the same management point A.

  In the engineering method according to claim 5 of the present invention, when a management terminal is added to a data collection target at a data terminal, the management point linking step is a management device to be newly added collected at the management point information collection step The management point information is associated with an attribute value using the template already created in the template creation step.

  According to the first and fourth aspects of the present invention, using the attribute value group information in which each management point is classified according to the type of equipment, the data type and attribute of the management point to be collected by the data terminal Since a template in which values are arranged is created and attribute values are associated with the management point information collected from the management device, attribute value group information about the management points of the equipment that the management devices of each facility have in common It is possible to create a template by extracting information about the management points for which data is to be collected from the data terminal, and it is possible to create a template that captures the characteristics of the facility Become. Moreover, since the management point attribute for each management apparatus can be set using a common template, the efficiency of engineering work can be improved.

  According to the second aspect of the present invention, since the attribute value is a path unique to the equipment for specifying the management point by the communication means, the attribute value is added to the management point information set separately for each management device. Can be set uniformly, and data can be collected from the management point of each management device associated with the attribute value by specifying the attribute value in the data terminal. For this reason, acquisition, comparison, and analysis of data can be easily performed.

  According to the third and fifth aspects of the present invention, since an attribute value is associated with the management point information of the management apparatus to be added using the already created template, the management newly added to the remote management system Engineering work for adding the management point of the device to the data collection target at the data terminal can be facilitated. At this time, since the management point to be collected is in the template, omission of attribute value linking work can be reduced.

It is a block diagram which shows the structure of the remote management system constructed | assembled using the engineering apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows the example of the management point information which the engineering apparatus which concerns on Embodiment 1 collects from a management apparatus. It is a figure which shows the example of the attribute value group information which the attribute value group information holding means of the engineering apparatus which concerns on Embodiment 1 has. It is a figure which shows the example of the template which the template preparation means of the engineering apparatus which concerns on Embodiment 1 produces. It is a figure which shows the example of the management point information which the management point link means of the engineering apparatus which concerns on Embodiment 1 set the attribute value. 3 is a flowchart for explaining the operation of the engineering device according to the first embodiment.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of a remote management system constructed using the engineering device 1 according to the first embodiment. The engineering apparatus 1 includes a management point information collection unit 2, an attribute value group information holding unit 3, a management point classification unit 4, a template creation unit 5, a management point association unit 6, and a management point information output unit 7. Each means constituting the engineering device 1 can interactively input / output information with an operator using an input / output device (not shown).

  In addition, the engineering device 1 is connected to the management devices 10-1 to 10-n of a plurality of facilities (sites) connected to the engineering device 1 through communication means 20 (equivalent to Internet communication) such as a web service. It can be accessed. Similarly, a data terminal 30 such as a server in the data center can also access the management devices 10-1 to 10-n via the communication unit 20. Further, the data terminal 30 and the engineering device 1 are connected via a communication line (or connected via a communication line via the communication means 20) so that data can be transmitted and received.

The management devices 10-1 to 10-n installed in each facility hold management point information including information such as at least a management point code, a point name, a unit, and a decimal point position.
FIG. 2 shows an example of management point information. For example, in the management devices 10-1 to 10-n that manage building facilities (air conditioners, refrigerators, power meter groups, water system meter groups, etc.), the equipment devices (transformers, water heaters, In order to collect status data (such as water chillers) or physical quantity data (voltage, current, etc.) or management quantity codes and point names, physical quantity data units, physical quantities for each management point Management point information such as the decimal point position of data is defined by engineering work and stored in the memory of the management device.
Here, FIG. 2A shows management point information defining each actual management point provided in the management apparatus 10-1, and FIG. 2A shows management point information defining each actual management point provided in the management apparatus 10-2. 2 (b). As shown in Fig. 2, the data handled by each management point is common to the secondary current and voltage of the transformer, but the management point code and point name are assigned arbitrarily for each facility, that is, for each management device. In general, it is not uniform.

In order for the data terminal 30 to access actual management points provided in the management devices 10-1 to 10-n and collect state data or physical quantity data, the data terminals 30 are connected to the management devices 10-1 to 10-n. It is necessary to set an attribute value used by the communication unit 20 to identify the management point.
Hereinafter, the attribute value setting operation for associating the management point information of the actual management points provided in the management devices 10-1 to 10-n performed by the engineering device 1 with the management point information used by the data terminal 30 for data collection (Point engineering work) will be explained.

  In the engineering device 1 shown in FIG. 1, the management point information collecting unit 2 collects management point information stored in the management devices 10-1 to 10-n of each facility via the communication unit 20. The collected management point information is the same as that shown in FIG.

  The attribute value group information holding unit 3 classifies management points that can be data collection targets for each predetermined group, and stores attribute values corresponding to the management points for each group. Hereinafter, the information stored in the attribute value group information holding unit 3 is referred to as attribute value group information. As described above, the attribute value is information required when the management unit 20 is to be specified by the communication unit 20. In the first embodiment, for example, the communication unit 20 specifies the actual management point. A path is an attribute value.

The management point classifying means 4 classifies management points that can be data collection targets into a predetermined group and arranges them for each group (listing). Note that information in which attribute values are set for this list is given in advance to the attribute value group information holding means 3 as attribute value group information as described above.
The types of management points are different for each facility, and it is difficult to share them, but there is a certain tendency for management points to collect management point information via the communication means 20. Therefore, in the first embodiment, for each highly-common building facility (power meter group, water system meter group, refrigerator group, boiler group, etc.) that is installed in many facilities and has a certain configuration. Classify management points.

FIG. 3 shows an example of attribute value group information. In the attribute value group information in this example, a power meter, a calorimeter, a water system meter, and a refrigerator are set as building facilities that are highly common to each facility, and management points are classified for each of these facilities. The attribute value corresponding to is stored. As information characterizing the management point, a point type and a point name are described, and an attribute value (path) is described on a one-to-one basis. For example, in the case of the management point of the point name “current” of the point type “transformer secondary side (380V)” of the building equipment “power meter”, the path specifying the power meter is “Power meter”, and the transformer secondary The path specifying the side (380V) is “TR_380V”, and the path specifying the management point handling the current data is “IE”. The attribute value “Power meter / TR_380V / IE” including these paths is information for identifying the corresponding management point of each of the management apparatuses 10-1 to 10-n. Further, by adding a path for specifying a management device to this attribute value, the communication unit 20 becomes information for specifying a management point below the corresponding management device 10-1 to 10-n.
It should be noted that the designation of building equipment that is highly common to each facility, information on management points possessed by each building equipment, and attribute values may be input to the management point classification means 4 by an operator using an input / output device.

The template creation means 5 is information (points) that characterizes management points to be aggregated (that is, management points to be collected by the data terminal 30) from the attribute value group information stored in the attribute value group information holding means 3 Type and point name) and attribute value are acquired, and a template arranged for each group classified by the attribute value group information holding means 3 is created.
Further, the template creation means 5 may set attribute values such as units and decimal point positions included in the management point information collected by the management point information collection means 2 in the created template.
Note that an instruction of a management point to be templated may be input to the template creation means 5 by an operator using an input / output device.

  FIG. 4 shows an example of a template. In this example, from the attribute value group information shown in FIG. 3, the current and voltage of the transformer secondary side (380V), the supply heat amount of the chilled water system, the supply heat amount of the hot water system, and the voltage of the refrigerator are managed. A template used to aggregate management point information is created.

  The management point associating means 6 associates the management point information of each management device 10-1 to 10-n collected by the management point information collecting means 2 with the contents of the template created by the template creating means 5, Create management point information with attribute values set. The management point associating means 6 may store management point information in which attribute values are set.

FIG. 5 shows an example of management point information in which attribute values are set. FIG. 5A shows the management point information (shown in FIG. 2A) collected from the management apparatus 10-1 with attribute values assigned using the template shown in FIG. FIG. 5B is a diagram in which attribute values are assigned to the management point information (shown in FIG. 2B) collected from the management apparatus 10-2 using the template shown in FIG.
Note that associating the management point in the management point information collected from the management device with the management point in the template, an operator may give an instruction to the management point associating means 6 using the input / output device. For example, the management point of the management point code “1.1.1.1” shown in FIG. 2A is for the purpose of managing the secondary current of the transformer, and in the template shown in FIG. It is considered that the purpose is the same as the management point of “transformer secondary side (380V)” and the point name “current”. Therefore, the operator instructs the management point associating means 6 to select management point information of the management point code “1.1.1.1”, and the attribute of the point type “transformer secondary side (380V)” in the template. An instruction to associate with the value “Power meter / TR — 380V / IE” is issued. In accordance with the instruction, the management point linking means 6 sets the attribute value “Power meter / TR_380V / IE” to the management point of the management point code “1.1.1.1” of the management point information shown in FIG. To do.

The management point information output unit 7 outputs the management point information set with the attribute value by the management point association unit 6 to the data terminal 30 in the data center, for example, through a communication line.
The data terminal 30 makes a data request using the attribute value (path) to the management devices 10-1 to 10-n that are permitted to connect by the communication unit 20, and state data or physical quantity data of the corresponding management point. The function to collect.
For example, when the operator designates “Power meter / TR_380V / IE” of the management apparatus 10-1 to the data terminal 30, the data terminal 30 receives the management point code “1” from the management apparatus 10-1 via the communication unit 20. Current value of “1st floor transformer secondary side current” of “1.1.1”. In addition, when “Power meter / TR_380V / IE” of the management device 10-2 is designated, the data terminal 30 receives “[[1001001.002]” of the management point code “1410021.02” from the management device 10-2 via the communication unit 20. Current] Current value of transformer secondary side "is collected.
In this way, it is possible to set the same path for management points of similar equipment at each facility, so it is easy to acquire state data or physical quantity data from the management points, and compare the acquired data. And can be easily analyzed.

Next, the operation of the engineering apparatus 1 will be described using the flowchart shown in FIG. It is assumed that the attribute value group information holding unit 3 stores attribute value group information in advance.
First, the template creation means 5 presents the attribute value group information stored in the attribute value group information holding means 3 to the worker, accepts the worker's selection instruction, and creates a point type of management point information to be templated. A template is created by extracting point names and attribute values (step ST1, template creation step).
Subsequently, the management point information collecting means 2 collects the management point information stored in the management devices 10-1 to 10-n of the respective facilities via the communication means 20 (step ST2; management point information collecting step) ).
Subsequently, the management point associating means 6 presents the management point information collected by the management point information collecting means 2 to the worker, accepts the worker's selection instruction, and similarly instructs the designated management point information. The management point information is updated by associating the attribute values in the template (step ST3; management point associating step).
Subsequently, the management point associating means 6 stores the management point information in which the attribute value is set, and the management point information output means 7 outputs it to the data terminal 30 (step ST4).

  By setting attribute values using the same template for each management device of multiple facilities with similar equipment configurations, such as hotels and airports, point engineering work can be easily performed, improving work efficiency To do. In addition, management points to be listed in the attribute value group information are collected for each building facility, and when creating a template, management point information and attribute values are extracted from this set. Extraction omission can be reduced. Moreover, since the same template is used, it is possible to reduce management point attribute value omission for management point information collected from each facility. Furthermore, since management point information can be aggregated with an attribute common to other facilities, it is possible to easily collect, compare and analyze data for each facility.

  When a new management device is added to the remote management system or a management device that is a data collection target of the data terminal 30 is added, it is necessary to set an attribute value in the management point information of the management device. is there. In that case, among the management points of the management device to be added, the management point included in the template created in step ST1 of FIG. 6 may be processed by extracting the attribute value from the template and setting it in step ST3. . At this time, since the management point of the data collection target is clearly shown in the template, it is possible to reduce omission of work for associating the attribute value with the newly added management point.

  As described above, according to the first embodiment, the engineering device 1 is held by the management point classification unit 4 that classifies the management points listed in the attribute value group information according to the type of equipment and the attribute value group information holding unit 3 The management point to be collected by the data terminal 30 from the attribute value group information in which the type of data and the attribute value handled by each management point are set one-to-one according to the type of equipment. The template creation means 5 for extracting the data type and the attribute value and creating a template arranged for each type of equipment and the management point information respectively stored in the plurality of management devices 10-1 to 10-n The management point information collecting means 2 to be collected and the template created by the management point classification means 4 for the management point information collected by the management point information collecting means 2 Management point associating means 6 for associating attribute values of management points with the same data as the management points included in the management point, and management point information for which the management point associating means 6 sets the attribute values to the data terminal 30 The information output means 7 is provided. For this reason, the attribute value group information is prepared for the management points of the equipment that are shared by the management devices of the respective facilities, and the template is created by extracting information about the management points for which data is to be collected from the data terminal. It becomes possible to create a template that captures the characteristics of the facility. In addition, the attribute value can be uniformly set in the management point information that has been set apart for each of the management apparatuses 10-1 to 10-n. Furthermore, since the management point attribute for each management device can be set using a template common to each management device, the efficiency of engineering work can be improved.

  Further, according to the first embodiment, the attribute value is a path specific to the equipment device for specifying the management point by the communication means 20, so that the operator specifies the attribute value at the data terminal 30. Thus, data can be collected from management points of the same point type of the management devices 10-1 to 10-n associated with the attribute value. For this reason, not only data collection by the data terminal 30 but also data comparison and analysis between facilities can be easily performed.

  In addition, according to the first embodiment, the management point linking unit 6 adds the management device newly added by the management point information collection unit 2 when the management device is added to the data collection target at the data terminal. Since the attribute value is associated with the management point information using the template already created by the template creation means 5, the management point of the management device newly added to the remote management system is stored in the data terminal. Engineering work can be easily added to the collection target. At this time, since the management point to be collected is in the template, omission of attribute value linking work can be reduced.

  Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to the configuration of the above-described embodiment, and the design does not depart from the gist of the present invention. It goes without saying that changes and the like are included in the present invention.

DESCRIPTION OF SYMBOLS 1 Engineering apparatus 2 Management point information collection means 3 Attribute value group information holding means 4 Management point classification means 5 Template creation means 6 Management point association means 7 Management point information output means 10-1 to 10-n Management apparatus 20 Communication means 30 Data terminal

Claims (5)

A management device that stores management point information that defines an identifier unique to a management point that constitutes the equipment and the type of data handled by the management point, and a plurality of the management devices that are connected via communication means An engineering device for constructing a remote management system comprising a data terminal that collects data from a management point of
Data is collected at the data terminal from attribute value group information in which each management point is classified according to the type of equipment and the data type and attribute value handled by each management point are set one-to-one. A template creating means for creating a template arranged for each type of equipment and extracting the data type and attribute value of the management point to be targeted;
Management point information collecting means for collecting management point information respectively stored in the plurality of management devices;
Management point linking means for linking management point information collected by the management point information collecting means to attribute values of the management points having the same data as the management points included in the template created by the template creating means Engineering equipment characterized by that.   2. The engineering apparatus according to claim 1, wherein the attribute value is a path unique to the equipment for specifying the management point by the communication means.   The management point linking unit is already created for the management point information of the newly added management device collected by the management point information collection unit when the management device is added to the data collection target at the data terminal. The engineering apparatus according to claim 1, wherein attribute values are linked using a template. A management device that stores management point information that defines an identifier unique to a management point that constitutes the equipment and the type of data handled by the management point, and a plurality of the management devices that are connected via communication means An engineering method of an engineering device for constructing a remote management system comprising a data terminal for collecting data from a management point of
The engineering equipment is
Data is collected at the data terminal from attribute value group information in which each management point is classified according to the type of equipment and the data type and attribute value handled by each management point are set one-to-one. A template creation step of creating a template that is extracted for each type of facility equipment by extracting the data type and attribute value of the management point to be targeted;
Management point information collection step for collecting management point information respectively stored in the plurality of management devices;
A management point associating step for associating the management point information collected in the management point information collecting step with the attribute value of the management point having the same data as the management point included in the template created in the template creating step. An engineering method characterized by that.   When adding a management device to a data collection target in a data terminal, the management point linking step is a template creation step for the management point information of the newly added management device collected in the management point information collection step. 5. The engineering apparatus according to claim 4, wherein the attribute value is linked using the template already created in step (5).

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