JP2004015747A - Test working tool, remote management system for facility equipment, and initial setting method for remote management system for facility equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a test working tool for shortening working time of initial setting for facility equipment in a remote management system, the remote management system for the facility equipment, and an initial setting method for the remote management system for the facility equipment. <P>SOLUTION: In a test working tool 10 for grasping installation information of the facility equipment 30 before starting remotely managing the facility equipment 30, the test working tool 10 is provided with a receiving means 12 and a holding means 13. The receiving means 12 receives estimated installation information in advance, and the holding means 13 holds the received estimated installation information. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a test run tool, a remote management system for facility equipment and an initial setting method of the remote management system for facility equipment, and in particular, a test run tool for grasping installation information of facility equipment, a remote management system for facility equipment, and The present invention relates to an initial setting method of a remote management system.
[0002]
[Prior art]
Conventionally, in order to manage equipment (air conditioning equipment, lighting equipment, water heaters, etc.) installed in a building (building, house, etc.), the management center collectively manages the equipment installed in the building. A system has been proposed. This management center is provided at a place away from the building, and is managed by the manufacturer of the equipment or its maintenance service provider.
[0003]
By the way, in order to remotely manage the equipment, the management center needs to know the actual installation information of the equipment (actual installation information). For this reason, the management center obtains drawings and the like created by a building designer or a facility equipment builder. Then, the management center estimates the installation information based on these drawings and the like. Since the installation of the equipment is considered to be performed based on these drawings and the like, it is considered that the actual installation information and the estimated installation information are the same. That is, if the estimated installation information is grasped by the management center, the actual installation information can be grasped.
[0004]
[Problems to be solved by the invention]
However, in actuality, the equipment may not be installed as shown in these drawings due to physical reasons or human errors. That is, the estimated installation information and the actual installation information may not be the same. For this reason, the management center may not be able to grasp the actual installation information only by grasping the estimated installation information.
[0005]
For this reason, before actually starting remote management of the equipment, a person in charge of remote management of the equipment or the like actually goes to the building where the equipment is installed and grasps the actual installation information. For example, in a remote management system of an air conditioner, a person in charge or the like inputs installation information of all the air conditioners to be managed locally to a test run tool in order to grasp actual installation information of the air conditioner. The installation information of the air conditioner includes a great number of items such as a place where the air conditioner is installed, a refrigerant system name to which the air conditioner belongs, a model name of the outdoor unit, and a model of the indoor unit. In other words, in order for the management center to grasp the actual installation information of the equipment, it is necessary for the person in charge or the like to input the installation information including an extremely large number of items to the test run tool one by one for each equipment. For this reason, a person in charge spends a lot of time in order for the management center to grasp the installation information of the equipment.
[0006]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a test run tool, a facility equipment remote management system, and a facility equipment remote management system initial setting method for shortening an initial setting work time in a facility equipment remote management system.
[0007]
[Means for Solving the Problems]
The test run tool according to claim 1 is a test run tool for grasping installation information of the equipment before starting remote management of the equipment, and includes a reception unit and a holding unit. This receiving means receives the expected installation information in advance. This holding means holds the received expected installation information.
[0008]
In the conventional test run tool, as described in the above-mentioned section “Problems to be Solved by the Invention”, it is necessary for a person in charge or the like to input information to the test run tool one by one for each device on site. Therefore, there is no idea that the test run tool holds the expected installation information in advance. However, the inventor of the present invention has investigated the cause of spending a lot of time on the trial operation of the equipment, and has found out the present invention.
[0009]
In this test operation tool, the reception unit receives the expected installation information before the person in charge or the like goes to the site where the equipment is installed. Further, the holding unit holds the received expected installation information. At the site where the equipment is installed, a person in charge or the like uses the test operation tool to compare the expected installation information with the actual installation information to grasp the actual installation information.
[0010]
Here, the person in charge does not input the installation information of the equipment to the tool at the site where the equipment is installed. Before the person in charge arrives at the site, the person in charge inputs the expected installation information to the test run tool and holds it. For this reason, the person in charge only needs to compare the expected installation information and the actual installation information of the equipment on site using the test run tool. As a result, the amount of work input by the person in charge to the test run tool on site is reduced. Therefore, the time spent for the initial setting of the remote management system for the equipment is reduced.
[0011]
A test run tool according to a second aspect is the test run tool according to the first aspect, wherein the receiving means has a selecting means. The selecting means can select whether to input predicted installation information in advance or to input predicted installation information at the site where the equipment is installed.
Here, not only before heading to the site, but also at the site, a person in charge can input expected installation information to the test run tool. Therefore, the convenience of the test run tool is improved.
[0012]
A test operation tool according to a third aspect is the test operation tool according to the first or second aspect, and further includes a correction unit. This correcting means corrects the expected installation information held by the holding means.
Here, it becomes possible for the person in charge to correct the expected installation information previously input by the correction means on site. Therefore, the convenience of the test run tool is improved.
[0013]
According to a fourth aspect of the present invention, a remote management system for equipment includes an equipment, a controller, a tool, and a management center. This equipment transmits the installation information of the equipment to the controller. This controller controls the equipment. Further, the controller receives the installation information from the equipment, and transmits the received installation information to the test run tool. This test run tool is connectable to the controller and is the test run tool according to claim 3. Further, the test run tool determines whether the expected installation information and the installation information are the same. If the expected installation information is the same as the installation information, the test run tool transmits the expected installation information to the management center via the controller. If the expected installation information and the installation information are not the same, the correction means corrects the expected installation information. The management center is connected to the controller and remotely monitors the equipment based on the expected installation information transmitted from the test operation tool via the controller.
[0014]
Here, the person in charge does not input the installation information of the equipment into the tool. The expected installation information is entered and retained in the commissioning tool before the person leaves for the site. For this reason, the person in charge only has to compare the expected installation information with the actual installation information of the equipment and correct the expected installation information on site. As a result, the amount of information that a person in charge inputs to the test run tool on site is reduced. Therefore, the time spent for the initial setting of the remote management system for the equipment is reduced.
[0015]
According to a fifth aspect of the present invention, there is provided an initial setting method for a remote management system for equipment, comprising a first step, a second step, and a third step. In the first step, expected installation information is input to the test run tool in advance. In the second step, it is determined whether the expected installation information and the actual installation information are the same. In the third step, if the expected installation information and the actual installation information are the same, the expected installation information is acquired. If not, the process returns to the second step after correcting the expected installation information.
[0016]
Here, the person in charge does not input the installation information of the equipment into the tool. The expected installation information is entered and retained in the commissioning tool before the person leaves for the site. For this reason, the person in charge only has to compare the expected installation information with the actual installation information of the equipment and correct the expected installation information on site. As a result, the amount of information that a person in charge inputs to the test run tool on site is reduced. Therefore, the time spent for the initial setting of the remote management system for the equipment is reduced.
[0017]
BEST MODE FOR CARRYING OUT THE INVENTION
<Configuration of the system of the present invention>
FIG. 1 shows a configuration of an air conditioner remote management system 1 according to an embodiment of the present invention. The system 1 mainly includes a test run tool 10, a controller 40, an air conditioner 30, and a management center 50.
[0018]
<Trial run tool 10>
When performing remote management of the air conditioner 30, the test operation tool 10 allows the maker of the air conditioner 30 or the controller 40 or a person in charge of a maintenance service company to install the information of the air conditioner 30 to be managed (actual installation). Information).
[0019]
The actual installation information of the air conditioner 30 includes, specifically, an address assigned to each air conditioner 30 to manage the air conditioner 30, a refrigerant system name to which the air conditioner 30 belongs, an indoor unit 31, and an installation date of the outdoor unit. -There are model name, model code, machine number, etc.
As the test run tool 10, a portable terminal device (such as a notebook computer) and test run software installed in the device are used. Further, the test run tool 10 can be connected to the controller 40.
[0020]
The test run tool 10 includes an input unit 11, a reception unit 12, a holding unit 13, a processing unit 14, a correction unit 15, and a display unit 20. The input unit 11 is a component for inputting expected installation information to the test run tool 10 by a person in charge, and is, for example, a keyboard and a mouse. The expected installation information is installation information of the air conditioner 30 predicted from a design drawing or the like showing the installation state of the air conditioner 30. The receiving unit 12 receives, from the input unit 11, expected installation information input by a person in charge or the like. Further, the reception unit 12 has a selection unit 12a. The selection unit 12a can select whether to input predicted installation information in advance or to go to a site where the air conditioner 30 is installed before inputting it. The holding unit 13 holds the expected installation information received by the receiving unit 12. The processing unit 14 instructs the controller 40 to provide the actual installation information. Then, the processing unit 14 compares the actual installation information provided by the controller 40 with the expected installation information. Further, when the actual installation information and the expected installation information are the same, the processing unit 14 transmits the expected installation information to the management center 50 via the controller 40. The correction unit 15 corrects the expected installation information when the actual installation information and the expected installation information are different. The display unit 20 is, for example, a display of a personal computer, and displays an input state of expected installation information, a comparison result between actual installation information and expected installation information, and the like. These screens will be described later in detail.
[0021]
<Air conditioner 30>
FIG. 2 shows an external view of the air conditioner 30. The air conditioner 30 is installed in a user's building such as a building or a house, and is connected to the controller 40 via a communication line. The air conditioner 30 performs operations such as cooling, heating, and dehumidification so as to balance indoor air. The air conditioner 30 includes an indoor unit 31 attached to an indoor wall surface or a ceiling, and an outdoor unit 32 installed outside the room. An outdoor heat exchanger, a compressor, and the like are housed in the outdoor unit 32, and an indoor heat exchanger is housed in the indoor unit 31. Each of the heat exchangers, the compressor, the various valves, and the refrigerant pipes connecting these components constitute a refrigerant circuit.
[0022]
The air conditioner 30 further includes a transmission unit 35 in addition to the above components (see FIG. 1). The transmission unit 35 transmits actual installation information (actual installation information) of the air conditioner 30 to the controller 40 when a command to provide the installation information of the air conditioner 30 is transmitted from the controller 40. The installation information of the air conditioner 30 includes, for example, an address where the air conditioner 30 is installed, refrigerant system information, and the like.
[0023]
In this embodiment, the air conditioner 30 is a so-called commercial package air conditioner, but may be a so-called home room air conditioner or an air conditioner in general.
<Controller 40>
The controller 40 is installed in a building where the air conditioner 30 is installed in order to control the air conditioner 30, and is connected to the management center 50 via a network such as the Internet. The controller 40 has a communication unit 41 (see FIG. 1). The communication unit 41 transmits a provision command of the actual installation information of the air conditioner 30 to the air conditioner 30 when the provision instruction of the actual installation information of the air conditioner 30 is transmitted from the test operation tool 10. The communication unit 41 receives the actual installation information of the air conditioner 30 transmitted from the transmission unit 35 of the air conditioner 30. Further, the communication unit 41 transmits the acquired actual installation information of the air conditioner 30 to the test run tool 10.
[0024]
<Management center 50>
The management center 50 is provided at a location away from the building where the air conditioner 30 is installed in order to remotely manage the air conditioner 30. The management center 50 is connected to the controller 40 via a network such as the Internet or a public line. Further, the management center 50 acquires the installation information from the controller 40. Then, the management center 50 remotely manages the air conditioner 30 via the controller 40 based on the acquired installation information.
<Operation of this system 1>
(Work to grasp installation information)
FIG. 3 shows a work flow when the management center 50 grasps the actual installation information of the air conditioner 30.
[0025]
First, an operation before a person in charge heads to the site where the air conditioner 30 is installed will be described. The person in charge obtains an architectural drawing of the building, an installation drawing of the air conditioner 30, and the like from the contractor (step S101). In these drawings, all or a part of the installation information of the air conditioner 30 at the time of building the building or at the time of installing the air conditioner 30 is clearly shown. The person in charge or the like acquires expected installation information based on these drawings and materials (step S102). Then, a person in charge starts inputting the expected installation information to the test run tool 10.
[0026]
In inputting the expected installation information to the test run tool 10, first, the operator in the selection unit 12a selects whether the input is a local input or an advance input (step S103). Thereafter, a person in charge or the like inputs expected installation information to the test operation tool 10 (step S104). The input expected installation information is received by the receiving unit 12 (Step S105). Further, the predicted installation information received by the reception unit 12 is stored in the storage unit 13 (Step S106). Thereafter, the person in charge or the like goes to the site with the test run tool 10. (Step S107)
Next, work at the site will be described. At the site, first, a person in charge connects the test run tool 10 and the controller 40 (step S108). Thereafter, in order to compare the expected installation information with the actual installation information, the processing unit 14 transmits a provision instruction of the actual installation information to the communication unit 41 (Step S109). The communication unit 41 that has received the instruction to provide the actual installation information from the processing unit 14 transmits the instruction to provide the actual installation information to the transmission unit 35 (Step S110). The transmitting unit 35 that has received the provision instruction of the actual installation information from the communication unit 41 transmits the actual installation information to the communication unit 41 (Step S111). Thereafter, the communication unit 41 transmits the actual installation information transmitted from the transmission unit 35 to the processing unit 14 (Step S112). Then, the processing unit 14 compares the expected installation information held by the holding unit 13 with the actual installation information received from the communication unit 41 (Step S113). When the expected installation information is different from the actual installation information, the person in charge corrects the input expected installation information by the correction unit 15 (step S114). Thereafter, the processing unit 14 compares the corrected estimated installation information with the actual installation information received from the controller 40. (Step S113) When the expected installation information and the actual installation information are the same, the processing unit 14 transmits the installation information to the management center 50 via the controller 40 (Step S115). The management center 50 receives the installation information from the processing unit 14, and performs remote management of the air conditioner 30 based on the received installation information (step S116).
[0027]
In the remote management system 1 for the air conditioner 30 according to one embodiment of the present invention, a person in charge brings the test run tool 10 to the site from a place where the user inputs predicted installation information in advance. Alternatively, the expected installation information may be transmitted to the site via a network such as the Internet. Further, the person in charge may hold the expected installation information in a storage medium such as a flexible disk and bring the storage medium on site.
[0028]
In the remote management system 1 for the air conditioner 30 according to the embodiment of the present invention, a portable terminal device (such as a notebook computer) and test operation software installed in the device are used as the test operation tool 10. ing. Instead, a plurality of stationary terminal devices and trial run software installed in these devices may be used. For example, these terminal devices are a terminal device that is installed beforehand by a person in charge of inputting expected installation information and a terminal device that is installed locally.
[0029]
(Display on display unit 20)
In the remote monitoring system 1 of the air conditioner 30, a screen showing input contents of the expected installation information, a comparison result between the input expected installation information and the actual installation information, and the like is displayed on the display unit 20 of the test operation tool 10. .
Hereinafter, various screens displayed on the display unit 20 will be described.
[0030]
["Work mode" selection screen 21]
FIG. 4 shows a “work code” selection screen 21.
The “work code” selection screen 21 is a screen first displayed on the display unit 20 when a person in charge or the like attempts to input expected installation information into the test run tool 10. This screen 21 mainly displays a "test run" button 21a and a "prior input" button 21b.
[0031]
When a person in charge or the like tries to input expected installation information before heading to the site, pressing the “preliminary input” button 21b selects the preliminary input mode. When a person in charge or the like attempts to input expected installation information at the site, pressing a "test run" button 21a selects the test run mode.
("Refrigerant system list" screen)
FIG. 5 shows a “refrigerant system list” screen 22.
[0032]
The “refrigerant system list” screen 22 is an introduction screen for shifting to a screen for inputting predicted installation information of the outdoor units 32 and the indoor units 31 belonging to a certain refrigerant system. The “refrigerant system list” screen 22 mainly displays a “refrigerant system list” 22a, an “outdoor unit” button 22b, and an “indoor unit” button 22c. When the person in charge selects the “outdoor unit” button 22b after selecting one refrigerant system in the “refrigerant system list” 22a, an “outdoor unit setting” screen 23 shown in FIG. Is done. When the person in charge selects the “indoor unit” button 2c after selecting one refrigerant system in the “refrigerant system list”, an “indoor unit setting” screen 24 shown in FIG. Is displayed.
[0033]
["Outdoor unit setting" screen 23]
The “outdoor unit setting” screen 23 is a screen for inputting expected installation information regarding the outdoor unit 32. The “outdoor unit setting” screen 23 mainly includes a “system name” column 23a, an “installation date” column 23b, a “model name” column 23c, a “change” button 23d, and an “OK” button 23e. Is displayed.
[0034]
First, the person in charge or the like inputs an area name (for example, the entire second floor, the third floor of the North Building, etc.) in which the outdoor unit 32 performs the air conditioning work in the "system name" column 23a. Next, the person in charge or the like inputs the date when the outdoor unit 32 was installed in the “installation date” column 23b. Then, the person in charge or the like inputs the model name of the outdoor unit 32 in the "model name" column 23c. After that, when the person in charge selects the “change” button 23d, the predicted installation information input on the “outdoor unit setting” screen 23 is received by the receiving unit 12, and is held by the holding unit 13. When the person in charge corrects the expected installation information, the user corrects the “system name” and “model name” and then selects the “change” button 23d. The corrected expected installation information is received by the reception unit 12. , Are held by the holding unit 13. After inputting the expected installation information, when the person in charge selects the “OK” button 23e, the screen returns from the “outdoor unit setting” screen 23 to the “refrigerant system list” screen 22.
[0035]
["Indoor unit setting" screen 24]
The “indoor unit setting” screen 24 is a screen for inputting expected installation information regarding the indoor unit 31. The “indoor unit setting” screen 24 mainly includes an “indoor unit list” table 24a, a “model name” column 24b, an “installation location” column 24c, a “change” button 24d, and an “OK” button 24e. Is displayed.
[0036]
First, the person in charge selects an indoor unit name in the "indoor unit list" table 24a. Next, the person in charge or the like inputs the model name of the indoor unit 31 in the "model name" column 24b. Then, the person in charge or the like inputs the name of the place where the indoor unit 31 is installed (for example, the first-floor office, the third-floor conference room, etc.) in the “installation place” column 24c. Thereafter, when the person in charge selects the “change” button 24 d, the predicted installation information input on the “indoor unit setting” screen 24 is received by the receiving unit 12 and held by the holding unit 13. When the person in charge corrects the expected installation information, the user corrects the “model name” and “installation location”, and then selects the “change” button 24 d. The corrected expected installation information is received by the reception unit 12. , Are held by the holding unit 13. After inputting the expected installation information, when the person in charge selects the “OK” button 24e, the screen returns from the “indoor unit setting” screen 24 to the “refrigerant system input” screen 22.
[0037]
<Features of this system 1>
(1)
In the air conditioner remote management system 1, the test operation tool 10 receives and holds expected installation information input in advance by a person in charge. For this reason, at the time of the initial setting of the remote control system 1 for the air conditioner, the amount of work required for a person in charge to input expected installation information to the test run tool 10 on site is reduced. As a result, the time required for the initial setting of the air conditioner remote management system 1 is reduced.
[0038]
(2)
In this air conditioner remote management system 1, the person in charge can input the expected installation information to the test run tool 10 before heading to the site or at the site in either case. . Therefore, the convenience of the test run tool 10 is improved.
[0039]
(3)
The air conditioner remote management system 1 includes a correction unit 15 that corrects the input expected installation information to which the test run tool 10 has been input. Therefore, even when the expected installation information is erroneously input or when the expected installation information and the actual installation information are not the same, the person in charge can correct the expected installation information. As a result, the convenience of the test run tool 10 is improved.
[0040]
(4)
In an air conditioning system in which the operating time of the air conditioner 30 is long, it may not be possible to introduce a remote management system for the air conditioner because a large amount of time cannot be taken for the initial setting of the system.
However, in the air conditioner remote management system 1, the time required for the initial setting of the air conditioner remote management system 1 is reduced. For this reason, even if the air conditioner 30 has a long operating time, the possibility of introducing a remote management system for the air conditioner 30 increases.
[0041]
【The invention's effect】
In the invention according to claim 1, the expected installation information is input to the test operation tool and held before the person in charge goes to the site. For this reason, the person in charge may compare the expected installation information and the actual installation information of the equipment on site. As a result, the amount of work input by the person in charge to the test run tool on site is reduced. Therefore, the time spent for the initial setting of the remote management system for the equipment is reduced.
[0042]
In the invention according to claim 2, the person in charge can input the expected installation information to the test run tool not only before heading to the site, but also at the site. Therefore, the convenience of the test run tool is improved.
According to the third aspect of the present invention, the expected installation information input in advance can be corrected by the correction means. Therefore, the convenience of the test run tool is improved.
[0043]
In the invention according to claim 4, the expected installation information is input to the test operation tool and held before the person in charge goes to the site. For this reason, the person in charge only has to compare the expected installation information with the actual installation information of the equipment and correct the expected installation information on site. As a result, the amount of information that a person in charge inputs to the test run tool on site is reduced. Therefore, the time spent for the initial setting of the remote management system for the equipment is reduced.
[0044]
In the invention according to claim 5, before the person in charge goes to the site, the expected installation information is input to the test run tool and held. For this reason, the person in charge only has to compare the expected installation information with the actual installation information of the equipment and correct the expected installation information on site. As a result, the amount of information that a person in charge inputs to the test run tool on site is reduced. Therefore, the time spent for the initial setting of the remote management system for the equipment is reduced.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an air conditioner remote management system according to an embodiment of the present invention.
FIG. 2 is an external view of an air conditioner.
FIG. 3 is a flowchart of a remote management system of the air conditioner.
FIG. 4 is a diagram of a “work code” selection screen.
FIG. 5 is a diagram of a “refrigerant system input” screen.
FIG. 6 is a diagram of an “outdoor unit setting” screen.
FIG. 7 is a diagram of an “indoor unit setting” screen.
[Explanation of symbols]
1 Remote management system for air conditioners (remote management system for equipment)
10 Test run tool 12 Reception unit (reception means)
12a Selection unit (selection means)
13 Holding part (holding means)
15 Correction unit (correction means)
30 air conditioners (equipment)
40 Controller 50 Management center

Claims (5)

Before the start of remote management of equipment, a test run tool for grasping the installation information of the equipment,
Reception means (12) for receiving expected installation information in advance;
Holding means (13) for holding the received expected installation information;
A commissioning tool (10) comprising: The reception unit (12) includes a selection unit (12a) capable of selecting whether to input the expected installation information in advance or to input the information at a site where the equipment is installed.
The commissioning tool (10) according to claim 1. A correcting unit (15) for correcting the expected installation information held by the holding unit (13);
A commissioning tool (10) according to claim 1 or 2. Equipment (30),
A controller (40) for controlling the equipment (30);
A commissioning tool (10) according to claim 3, connectable to the controller (40);
A management center (50) connected to the controller (40);
With
The equipment (30) transmits installation information of the equipment (30) to the controller (40),
The controller (40) receives the installation information from the equipment (30), transmits the received installation information to the test run tool (10),
The test run tool (10) determines whether or not the expected installation information and the installation information are the same, and if they are the same, sends the expected installation information to the management center (50) via the controller (40). And, if not identical, correct said expected installation information by said correcting means (15),
The management center (50) remotely manages the equipment (30) based on the expected installation information transmitted from the test operation tool (10).
Remote management system for equipment (1). An initial setting method of a remote management system for equipment (1) for grasping installation information of the equipment (30) before starting remote management of the equipment (30),
A first step of inputting expected installation information into the test run tool (10) in advance;
A second step of determining whether the expected installation information and the actual installation information are the same,
When the expected installation information and the actual installation information are the same, the expected installation information is obtained, and when the expected installation information and the actual installation information are not the same, the expected installation information is corrected. A third step to return to the second step later;
An initial setting method of a remote management system (1) for equipment provided with:

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