JP4322496B2 - Layout creation device, layout creation method, program, and layout creation system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention distributes a layout diagram in which a predetermined device is optimally arranged in a predetermined space, in particular, a 3D layout diagram in which the arrangement is three-dimensionally expressed by WEB.Layout creating apparatus, layout creating method, program, and layout creating systemAbout.
[0002]
[Prior art]
Up to now, layout diagrams for optimally arranging computers and other large devices in a given space (or room), or floor plans for optimally arranging multiple pieces of furniture in multiple rooms Several systems created using a computer have been proposed.
[0003]
However, since these layout diagrams or floor plans are represented as two-dimensional plan views, the viewpoint cannot be changed, and it is necessary to create a layout diagram or floor plan from the required viewpoint separately. there were.
[0004]
In order to eliminate such a necessity, a system that provides a three-dimensionally expressed layout has been proposed (see, for example, Patent Documents 1 and 2).
[0005]
[Patent Document 1]
JP-A-8-36592
[0006]
[Patent Document 2]
JP 2002-202999 A
[0007]
[Problems to be solved by the invention]
However, these systems use only the floor area of a space (or a room) where equipment and furniture are installed as data for creating a 3D layout diagram. That is, although the layout diagram to be finally created is expressed as a three-dimensional one, in reality, only the floor area data that is two-dimensional data is used. There was a drawback that the balance of the arrangement could not be confirmed.
[0008]
The present invention has been made in view of the above points, and can provide installation conditions that are three-dimensionally considered when an apparatus or furniture is installed in a predetermined space.Layout creating apparatus, layout creating method, program, and layout creating systemThe purpose is to provide.
[0009]
[Means for Solving the Problems]
In order to achieve this object, the present invention provides:Enter the vertical, horizontal and height dimensions of the device installed in the layout space, the amount of heat generated by the device, and the identification information of the air-conditioning equipment installed in the space and performing air-conditioning processing near the device The air conditioning processing is performed on the heat quantity with predetermined capacity, input means for identifying the air conditioning equipment, vertical, horizontal and height dimensions of the air conditioning equipment, the amount of heat generated by the device, and preset capacity. Based on the identification information and heat quantity input by the input means, the identification information and heat quantity that can be performed, and associated and stored the longest distance from the air conditioning equipment to the device The size and distance of the air conditioning equipment corresponding to the amount of heat is acquired from the air conditioning equipment information storage means, and the acquired size and distance of the air conditioning equipment and the dimensions of the device input by the input meansOn the basis of the,AboveapparatusAnd the air conditioning equipmentofAboveCreate a 3D layout diagram showing the most suitable installation situation in the spaceAnd a layout creating device comprising:I will provide a.
[0010]
Further, the present invention further comprises device information storage means for associating and storing the identification information of the device and the amount of heat generated by the device, and the input means accepts input of the identification information of the device from the outside, The amount of heat corresponding to the identification information that has received the input is acquired from the device information storage means, and the amount of heat is input.It is preferable.
[0011]
Also,The present invention further comprises cable information storage means for associating and storing data relating to the type of cable used for the device, the limit length, and the bending limit, and the input means is configured to input the type of cable from the outside. Accepts input, obtains the data regarding the limit length of the cables and the limit of bending of the cables corresponding to the type of the input received from the cable information storage means and acquires the limit length and the limit of bending And the creation means calculates the optimum cable length of the cables based on the limit length and the data on the bending limit input by the input means and the dimensions of the device. Create the 3D layout diagramIt is preferable.
[0012]
Further, the present invention preferably includes space information storage means for storing 3D data indicating the space, and the creation means creates the 3D layout diagram based on the 3D data stored by the space information storage means. .
[0013]
The apparatus information storage means of the present invention further stores data relating to the area of maintenance space required for the maintenance work of the apparatus, and the creation means is necessary for the maintenance work stored in the apparatus information storage means. Create the 3D layout diagram based on the data regarding the area of the maintenance spaceIt is preferable.
[0014]
Further, for example, a computer can be selected as an apparatus that is a target of the layout creation apparatus according to the present invention.
[0015]
Further, the present invention provides the air conditioning processing for the heat quantity with the identification information of the air conditioning equipment, the vertical, horizontal and height dimensions of the air conditioning equipment, the heat amount generated by the device, and the preset capacity. A layout creation method using a layout creation device comprising an air conditioning equipment information storage means that associates and stores the longest distance from the air conditioning equipment to the device, wherein the input means The vertical, horizontal and height dimensions of the device installed in the space, the amount of heat generated by the device, and the identification information of the air-conditioning equipment installed in the space and performing the air-conditioning process in the vicinity of the device, Based on the identification information and the heat quantity input by the input means, the creating means acquires the size and distance of the air conditioning equipment corresponding to the identification information and the heat quantity from the air conditioning equipment information storage means, and takes them. Based on the dimensions and distance of the air-conditioning equipment and the dimensions of the device input by the input means, a 3D layout diagram showing the most suitable installation status of the device and the air-conditioning equipment in the space is created. A layout creation method is provided.
[0016]
According to the present invention, the cable information storage means stores the type of cables used for the device, the limit length of the cables, and data relating to the bending limit of the cables in association with each other, and the input means Receives the input of the type of the cable from the outside, and obtains the limit length of the cable and the data regarding the bending limit of the cable from the cable information storage unit corresponding to the type of the input received. Then, the obtained limit length and the data regarding the bending limit are input, and the creating means is based on the limit length and the data regarding the bending limit input by the input means, and the dimensions of the device, An optimal cable length of the cables is calculated, and the 3D layout diagram is created.
[0017]
Further, according to the present invention, the layout creation device is installed in the space for the layout, and the vertical, horizontal and height dimensions of the device, the heat generated by the device, and the air conditioning in the vicinity of the device. Input means for inputting the identification information of the air conditioning equipment to be processed, the identification information of the air conditioning equipment, the vertical, horizontal and height dimensions of the air conditioning equipment, the amount of heat generated by the device, and the preset capability The air conditioning equipment information storage means for storing the air conditioning process in association with the longest distance from the air conditioning equipment to the apparatus, the identification information and the heat quantity input by the input means. Based on the above, the size and distance of the air conditioning equipment corresponding to the identification information and the amount of heat are acquired from the air conditioning equipment information storage means, and the acquired dimensions and distance of the air conditioning equipment are input by the input means. Based on the dimensions of the the apparatus, it provides a program for operating the forming means, for creating a 3D layout diagram showing a most suitable installation conditions into the space between the device and the air-conditioning equipment.
[0018]
Also, the present invention provides a cable information storage means for storing the layout creation device in association with the types of cables used for the device, the limit length of the cables, and data relating to the bending limit of the cables. The input means receives the input of the type of the cable from the outside, and the data regarding the limit length of the cable and the bending limit of the cable corresponding to the type that has received the input The data obtained from the cable information storage means and the obtained limit length and the data relating to the bending limit are input, and the creation means includes the data relating to the limit length and the bending limit inputted by the input means, and the device The optimal cable length of the cables is calculated based on the dimensions of the cable, and the 3D layout diagram is created. It is a program that.
[0019]
Furthermore, the present invention is a layout creation system including a terminal device used by a user and a layout creation device, wherein the terminal device has vertical, horizontal, and height dimensions of a device installed in a layout space. Input means for inputting the amount of heat generated by the device and identification information of an air conditioner installed in the space and performing air conditioning processing in the vicinity of the device; andOn the other hand, the vertical, horizontal, and height dimensions of the device installed in the layout space input by the input means, the amount of heat generated by the device, and the air conditioning treatment in the vicinity of the device are installed in the space. Identification information of air conditioning equipment to beTransmitting means for receiving the information, and receiving means for receiving a 3D layout diagram from the layout creation device, wherein the layout creation device has vertical, horizontal and height dimensions of a device installed in a layout space. , The amount of heat generated by the device, and identification information of an air conditioner installed in the space and performing air conditioning processing in the vicinity of the device.Receiving means for receivingIt is possible to perform the air conditioning process with the identification information of the air conditioner, the vertical, horizontal and height dimensions of the air conditioner, the amount of heat generated by the device, and the capacity preset for the amount of heat. In addition, air conditioning equipment information storage means for storing the longest distance from the air conditioning equipment to the device in association with each other,Received by the receiving meansBased on the identification information and the amount of heat, the size and distance of the air conditioner corresponding to the identification information and the amount of heat are acquired from the air conditioner information storage means, and the acquired size and distance of the air conditioner areReceived by the receiving meansBased on the dimensions of the device, a creating means for creating a 3D layout diagram showing the most suitable installation status of the device and the air conditioner in the space, and transmitting the created 3D layout diagram to the terminal device A layout creation system comprising: a transmission means;
[0023]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a conceptual diagram showing a configuration of an apparatus layout distribution system 100 according to an embodiment of the present invention.
[0024]
The device layout distribution system 100 according to the present embodiment includes a user terminal device 10 used by a user, a 3D data generation system 20, the Internet 30 as a network connecting the user terminal device 10 and the 3D data generation system 20, It is composed of
[0025]
The user terminal device 10 is a terminal device that is used for a user to input necessary data, and includes, for example, an information processing terminal device represented by a personal computer.
[0026]
As will be described later, for example, when a user purchases a new computer or plans to purchase a computer, the dimensions of the machine room in which the computer is installed and the air conditioning equipment used for adjusting the temperature of the computer. Layout information including at least the model, installation position, and computer model information is input via the user terminal device 10 and transmitted to the 3D data generation system 20 via the network 30.
[0027]
As the network, for example, an intranet can be used instead of the Internet 30.
[0028]
The 3D data generation system 20 is a system that creates a 3D layout diagram based on the layout information transmitted from the user terminal device 10 and transmits the created layout diagram to the user terminal device 10 as described later.
[0029]
FIG. 2 is a block diagram showing the structure of the 3D data generation system 20.
[0030]
The 3D data generation system 20 includes a 3D data generation server 201, a machine room spatial information database 202, an air conditioner information database 203, a cable information database 204, and a computer information database 205.
[0031]
The 3D data generation server 201 includes, for example, an information processing device such as a server, receives layout information transmitted from the user terminal device 10 via the Internet 30, and receives the layout information (machine room dimensions, air conditioning equipment Based on the information stored in the four types of databases 202, 203, 204, and 205 held by the 3D data generation system 20 based on information including model / installation position and computer model) The 3D layout diagram is generated, and the 3D layout diagram is transmitted to the user terminal device 10.
[0032]
The machine room space information database 202 is a database in which the machine room space is stored as 3D data, and is used when creating the machine room space in the 3D layout diagram.
[0033]
The air conditioning equipment information database 203 stores the dimensions of the air conditioning equipment installed together with the computer in the machine room, the amount of heat generated for each computer model, the processing capacity for each air conditioning equipment model, and the 3D data for each air conditioning equipment. It is used when calculating the arrangement of the computer and when arranging the 3D data of the air conditioner on the 3D layout diagram.
[0034]
The cable information database 204 stores the type of cable to be connected to each computer, the limit length, the specification of the cable, the bending limit, and 3D data for each cable. Used when 3D data is arranged in a 3D layout diagram.
[0035]
The computer information database 205 stores computer dimensions, weight, tipping angle, maintenance work space, and computer 3D data. When calculating the computer arrangement, the computer 3D data is arranged in a 3D layout diagram. Used when doing.
[0036]
FIG. 3 is a flowchart showing the operation of the apparatus layout distribution system 100 according to the present embodiment. Hereinafter, the operation of the apparatus layout distribution system 100 will be described with reference to FIG.
[0037]
First, the user determines the dimensions of the machine room in which the computer is installed, the machine room together with the computer, and the type and installation position of the air conditioner used for temperature adjustment around the computer, and the computer type (step A1).
[0038]
When the user determines these, the user terminal device 10 accesses the 3D data generation system 20 via the Internet 30.
[0039]
When accessed from the user terminal device 10, the 3D data generation system 20 displays a data entry screen as shown in FIG. 4 on the display of the user terminal device 10 via the network 30.
[0040]
The user inputs layout information including the following items to the user terminal device 10 in accordance with the data entry screen shown in FIG.
(1) Machine room vertical, horizontal, height and floor height dimensions
(2) Air conditioner model name, for example, the installation position specified by the distance from north and east, the front direction of the air conditioner
(3) Computer model
The user inputs the layout information to the user terminal device 10 and then transmits it to the 3D data generation system 20 via the network 30 (step A2).
[0041]
When the 3D data generation server 201 of the 3D data generation system 20 receives the layout information from the user terminal device 10 (step A3), the 3D data of the machine room space that matches the dimensions of the machine room included in the layout information is stored in the machine room. 3D data is selected from the spatial information database 202 and the vertical, horizontal, height, and floor height are matched to the dimensional ratio of the machine room.
[0042]
FIG. 5 is a plan view showing an example of the 3D data generated in this way.
[0043]
The 3D data generation server 201 stores the 3D data generated in this way as a part of the 3D data layout diagram.
[0044]
Next, the 3D data generation server 201 reads out the dimensions of the air conditioning equipment that matches the layout information, the amount of heat generated by each computer, the processing capacity of the air conditioning equipment, and the information on the 3D data of the air conditioning equipment from the air conditioning equipment information database 203, and these information Is stored as a part of the 3D data layout diagram.
[0045]
FIG. 6 is an example of a table showing the amount of heat generated by each part for each computer model, and FIG. 7 is an example of a table showing the processing capacity of each air conditioner.
[0046]
The 3D data generation server 201 stores the information read from the air conditioning equipment information database 203 in, for example, the table format illustrated in FIGS. 6 and 7.
[0047]
Next, the 3D data generation server 201 reads out the 3D data of the type of cable connected to the computer that matches the layout information, the limit length, the bending limit, and the 3D data of the cable from the cable information database 204, and stores these information in the 3D data layout diagram. Remember as part of it.
[0048]
FIG. 8 is an example of a table showing the types of cables used when connecting the parts, and FIG. 9 is an example of a table showing the limit length, cable designation, and bending limit for each cable.
[0049]
The 3D data generation server 201 stores the information read from the cable information database 204, for example, in the table format shown in FIGS.
[0050]
Further, the 3D data generation server 201 reads the computer dimensions, weight, falling angle, maintenance space, and computer 3D data that matches the layout information from the computer information database 205, and stores these information as part of the 3D data layout diagram. Remember as.
[0051]
FIG. 10 is an example of a table showing the size, weight, tipping angle, and maintenance work space of each part for each computer model.
[0052]
The 3D data generation server 201 stores the information read from the computer information database 205 in, for example, the table format shown in FIG.
[0053]
Next, the 3D data generation server 201 calculates the distance from the front surface of the air conditioner to the computer based on the processing capability of each air conditioner model shown in FIG.
[0054]
For example, the amount of heat generated by the A server shown in FIG. 6 is 100 kJ / h. According to the table shown in FIG. 7, when the D air conditioner is used for a device that generates a heat amount of 100 kJ / h, it can be installed within a radius of 20 m from the device that generates the heat amount. . Accordingly, when the D air conditioner is selected as the air conditioner, the A server is arranged to be located within a radius of 20 m from the D air conditioner.
[0055]
Similarly, when the E air conditioner is selected as the air conditioner, the A server is arranged within a radius of 10 m from the E air conditioner. When the F air conditioner is selected as the air conditioner, the A server is It arrange | positions so that it may be located within 20 m radius from F air-conditioning equipment.
[0056]
Further, the 3D data generation server 201 uses the information on the type of cable used between the computers shown in FIG. 8 and the information on the limit length and the bending limit for each type of cable shown in FIG. Calculate the distance.
[0057]
Based on the calculated distance from the front surface of the air conditioner to the computer, the distance between the computers, and the computer dimensions, weight, tipping angle, and maintenance work space information shown in FIG. A 3D layout diagram is completed by arranging each computer and cable on the layout diagram (step A4).
[0058]
11 and 12 are examples of the 3D layout diagram created in this way. FIG. 11 is a 3D layout diagram when viewed from diagonally above, and FIG. 12 is a 3D layout diagram when viewed from diagonally below.
[0059]
Next, the 3D data generation server 201 distributes the completed 3D layout diagram to the user terminal device 10 via the Internet 30 so that the user terminal device 10 can search. (Step A5).
[0060]
The distribution of the 3D layout diagram to the user terminal device 10 ends the operation of the 3D data generation system 20.
[0061]
The user terminal device 10 receives the 3D layout diagram from the 3D data generation system 20 (step A5), and ends the operation.
[0062]
Hereinafter, an example of calculating the distance between the computers will be described.
[0063]
First, a method for calculating the distance between the A server and the B client will be described.
[0064]
As a cable for connecting the A server and the B client, a G cable is used as shown in FIG.
[0065]
As shown in FIG. 9, there are three types of G cables with lengths of 1 m, 5 m, and 10 m. The length of the G cable should be at least twice as long as the floor raising height. That is, as shown in FIG. 9, since the limit radius of bending of the G cable is 1 m, a circumferential length of 2π × 1/2 (necessary to bend twice) ≈3 m is required as the minimum length of the G cable. Become.
[0066]
Accordingly, a G cable of 5 m or 10 m is selected.
[0067]
Next, the optimum cable length is determined in consideration of the size and maintenance space of each computer. If there are multiple types of selection candidates, the shortest cable length is selected.
[0068]
Next, a method for calculating the distance between the A server and the C disk will be described.
[0069]
As a cable for connecting the A server and the C disk, an H cable is used as shown in FIG.
[0070]
As shown in FIG. 9, there are three types of H cables with lengths of 1 m, 3 m, and 5 m. The length of the H cable should be at least twice the floor raising height. That is, as shown in FIG. 9, since the limit radius of bending of the H cable is 0.5 m, the circumferential length 2π × 0.5 / 2 (necessary to bend twice) ≈1.5 m is the minimum of the H cable. Required as the length of.
[0071]
Therefore, a 3 m or 5 m cable is selected as the H cable.
[0072]
Next, the optimum cable length is determined in consideration of the size and maintenance space of each computer. If there are multiple types of selection candidates, the shortest cable length is selected.
[0073]
In the device layout distribution system 100 according to the above-described embodiment, the example in which the computer is arranged in a predetermined space based on the layout information transmitted from the user terminal device 10 has been shown. However, the device according to this embodiment The application target of the layout distribution system 100 is not limited to a computer. The present invention is also applicable when arranging various devices other than computers or furniture and other items.
[0074]
When measures for heat radiation and arrangement of cables are necessary like a computer, the layout information includes the amount of heat generated by each computer, the processing capacity of the air conditioner, the cable, as in the device layout distribution system 100 according to the above-described embodiment. However, it is not necessary to include such data in the layout information for devices that do not dissipate heat or devices that do not require connection with cables.
[0075]
The operation of the 3D data generation server 201 of the 3D data generation system 20 in the device layout distribution system 100 according to the above-described embodiment can also be executed by a computer program written in a language that can be read by a computer.
[0076]
When the 3D data generation server 201 is operated by a computer program, for example, a memory for storing a program is provided in the 3D data generation server 201, and the computer program is stored in the memory. The 3D data generation server 201 reads the computer program from the memory, and executes the operation as described above according to the computer program.
[0077]
Further, by setting a storage medium storing such a computer program in the 3D data generation server 201, the 3D data generation server 201 reads the computer program from the storage medium, and according to the computer program, It is also possible to execute the operation.
[0078]
Next, a storage medium storing a program for executing the functions of the above-described 3D data generation server 201 will be described below.
[0079]
The functions of the 3D data generation server 201 described above can be realized as a program including various commands, and can be provided via a computer-readable storage medium.
[0080]
In this specification, the term “storage medium” includes any medium that can record data.
[0081]
Examples of the storage medium include disk-type storage media such as CD-ROM (Compact Disk-ROM) and PD, magnetic tape, MO (Magneto Optical Disk), DVD-ROM (Digital Video Disk-Read Only Memory), and DVD. -RAM (Digital Video Disk-Random Access Memory), flexible disk 402, memory chip such as RAM (Random Access Memory Memory) and ROM (Read Only Memory Memory), EPROM (Erasable Programmable Readable Memory EP) There are rewritable card types such as ad only memory), smart media (registered trademark), flash memory, compact flash (registered trademark) card, and hard disk. Any other means can be used as long as it is suitable for storing programs. it can.
[0082]
This storage medium is created by programming each function of the above-mentioned 3D data generation server 201 using a computer-readable program language and recording the program in the above-described storage medium capable of recording the program. can do.
[0083]
Alternatively, a hard disk provided in the 3D data generation server 201 can be used as a storage medium.
[0084]
The above storage medium can also be created by storing the above computer program in the above storage medium and reading the computer program by another computer via a network.
[0085]
【The invention's effect】
As described above, according to the apparatus layout distribution system and the apparatus layout distribution method according to the present invention, the following effects can be obtained.
[0086]
First, since the layout diagram is a 3D display, the viewpoint can be freely changed. Therefore, unlike the conventional method, there is no need to newly create a layout diagram with a different viewpoint.
[0087]
Second, the layout of computers and other devices can be determined taking into account each environmental condition. In particular, in the conventional method, the arrangement state in the height direction could not be confirmed. However, in the device layout distribution system and the device layout distribution method according to the present invention, only the vertical and horizontal directions of the space in which the device is installed. In addition, since the height and the height of the floor can be taken into consideration, it is possible to check not only the vertical and horizontal directions but also the balance of the arrangement in the height direction.
[0088]
Third, even the forming position of the cable route when the cable is arranged can be specified.
[0089]
Fourthly, when an air conditioner is arranged, a layout diagram in which the air flow from the air conditioner is calculated can be created.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram showing a configuration of a device layout distribution system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a 3D data generation system in the apparatus layout distribution system shown in FIG.
FIG. 3 is a flowchart showing an operation of the apparatus layout distribution system shown in FIG. 1;
4 is an example of a data input screen used when sending layout information from a user terminal device to a 3D data generation system in the device layout distribution system shown in FIG. 1; FIG.
FIG. 5 is an example of 3D data showing a machine room three-dimensionally.
FIG. 6 is an example of a table indicating the amount of generated heat for each computer model.
FIG. 7 is an example of a table showing the processing capacity for each air conditioner model;
FIG. 8 is an example of a table indicating the type of cable used for each model of computer.
FIG. 9 is an example of a table showing cable specifications.
FIG. 10 is an example of a table showing dimensions, weights, falling angles, and maintenance work spaces for each computer model.
11 is a 3D layout diagram when the 3D layout diagram created by the 3D data generation system in the apparatus layout distribution system shown in FIG. 1 is viewed obliquely from above. FIG.
12 is a 3D layout diagram when the 3D layout diagram created by the 3D data generation system in the apparatus layout distribution system shown in FIG. 1 is viewed obliquely from below. FIG.
[Explanation of symbols]
100 Apparatus layout distribution system according to an embodiment of the present invention
10 User terminal device
20 3D data generation system
30 Internet
201 3D data generation server
202 Spatial information database of machine room
203 Air-conditioning equipment information database
204 Cable information database
205 Computer Information Database

Claims (11)

Enter the vertical, horizontal and height dimensions of the device installed in the layout space, the amount of heat generated by the device, and the identification information of the air-conditioning equipment installed in the space and performing air-conditioning processing near the device Input means to
It is possible to perform the air conditioning process on the heat quantity with the preset information, the identification information of the air conditioner, the vertical, horizontal and height dimensions of the air conditioner, the amount of heat generated by the device, and the preset capacity. , Air conditioner information storage means for storing the longest distance from the air conditioner to the device in association with each other;
Based on the identification information and heat quantity input by the input means, the size and distance of the air conditioning equipment corresponding to the identification information and heat quantity are obtained from the air conditioning equipment information storage means, and the obtained size and distance of the air conditioning equipment are obtained. Creating means for creating a 3D layout diagram showing the most suitable installation situation in the space between the apparatus and the air conditioner based on the dimensions of the apparatus input by the input means;
A layout creation device comprising:   A device information storage unit that stores the identification information of the device in association with the amount of heat generated by the device;
  The input means accepts input of identification information of the apparatus from the outside, acquires the heat quantity corresponding to the identification information accepted from the input from the apparatus information storage means, and inputs the heat quantity.
  The layout creation apparatus according to claim 1. Types of cables used for the previous SL device, further comprising constraint length, the cable information storage means for storing in association with data relating to limits of bending,
The input means receives an input of the type of the cable from the outside, and the cable information storage means stores data on a limit length of the cable corresponding to the type of the input and a bending limit of the cable. And input the obtained limit length and bending limit data,
The creation means calculates the optimum cable length of the cables based on the limit length input by the input means, data on the bending limit, and the dimensions of the device, and creates the 3D layout diagram. To
Layout creating apparatus according to claim 1 or 2, characterized in that. Comprising space information storage means for storing 3D data indicating the space;
The creation means creates the 3D layout diagram based on 3D data stored in the space information storage means.
The layout creation apparatus according to any one of claims 1 to 3, wherein The device information storage unit further stores data relating to the area of the maintenance space required maintenance work of the apparatus,
The creating means creates the 3D layout diagram based on data relating to an area of maintenance space necessary for the maintenance work stored in the device information storage means;
Layout creating apparatus according to any one of claims 1 to 5, characterized in that. Layout creating apparatus according to any one of claims 1 to 5, wherein the device is a computer. It is possible to perform the air conditioning process on the heat quantity with the preset information, the identification information of the air conditioner, the vertical, horizontal and height dimensions of the air conditioner, the amount of heat generated by the device, and the preset capacity. A layout creation method using a layout creation device comprising an air conditioning equipment information storage means for storing the air conditioning equipment in association with the longest distance from the equipment,
The input means includes the vertical, horizontal, and height dimensions of the device installed in the layout space, the amount of heat generated by the device, and the identification of the air-conditioning equipment that is installed in the space and performs air-conditioning processing in the vicinity of the device. Enter information and
Based on the identification information and the amount of heat input by the input unit, the creation unit acquires the size and distance of the air conditioning device corresponding to the identification information and the amount of heat from the air conditioning unit information storage unit, and acquires the acquired air conditioning unit Creating a 3D layout diagram showing the most suitable installation situation of the device and the air conditioner in the space based on the size and distance of the device and the size of the device input by the input means ;
A layout creation method characterized by that . The cable information storage means stores the type of cables used for the device , the limit length of the cables, and data related to the bending limit of the cables in association with each other,
The input means receives an input of the type of the cable from the outside, and stores the cable length information and data regarding the bending limit of the cable corresponding to the type of the input that has received the input. Enter the data obtained from the means and the obtained limit length and bending limit data,
The creation means calculates the optimum cable length of the cables based on the limit length input by the input means, data on the bending limit, and the dimensions of the device, and creates the 3D layout diagram. To
The layout creation method according to claim 7 . Layout creation device
Enter the vertical, horizontal and height dimensions of the device installed in the layout space, the amount of heat generated by the device, and the identification information of the air-conditioning equipment installed in the space and performing air-conditioning processing near the device Input means to
It is possible to perform the air conditioning process on the heat quantity with the preset information, the identification information of the air conditioner, the vertical, horizontal and height dimensions of the air conditioner, the amount of heat generated by the device, and the preset capacity. , Air conditioner information storage means for storing the longest distance from the air conditioner to the device in association with each other,
Based on the identification information and heat quantity input by the input means, the size and distance of the air conditioning equipment corresponding to the identification information and heat quantity are obtained from the air conditioning equipment information storage means, and the obtained size and distance of the air conditioning equipment are obtained. Creating means for creating a 3D layout diagram showing the most suitable installation status of the apparatus and the air conditioner in the space based on the dimensions of the apparatus input by the input means;
Program to operate as . The layout creation device;
Operate as cable information storage means for storing the data relating to the type of cables used for the device , the limit length of the cables, and the bending limit of the cables,
The input means receives an input of the type of the cable from the outside, and stores the cable length information and data regarding the bending limit of the cable corresponding to the type of the input that has received the input. Enter the data obtained from the means and the obtained limit length and bending limit data,
The creation means calculates the optimum cable length of the cables based on the limit length input by the input means, data on the bending limit, and the dimensions of the device, and creates the 3D layout diagram. To
The program according to claim 9 . A layout creation system comprising a terminal device used by a user and a layout creation device,
The terminal device
Enter the vertical, horizontal and height dimensions of the device installed in the layout space, the amount of heat generated by the device, and the identification information of the air-conditioning equipment installed in the space and performing air-conditioning processing near the device Input means to
The against the layout generation device, the vertical device installed in the space for the inputted layout by the input unit, the dimensions of the lateral and height, and the amount of heat the device occurs, is installed in the space, the device Transmitting means for transmitting identification information of an air conditioner that performs air conditioning processing in the vicinity ;
Receiving means for receiving a 3D layout diagram from the layout creation device;
With
The layout creation device includes:
Receiving vertical device installed in the space for the layout, and size of the transverse and height, and the amount of heat the device occurs, it is installed in the space, and identification information of the air conditioner performing air conditioning process of the device near Receiving means for
It is possible to perform the air conditioning process on the heat quantity with the preset information, the identification information of the air conditioner, the vertical, horizontal and height dimensions of the air conditioner and the amount of heat generated by the device. Air conditioning equipment information storage means for storing the longest distance from the air conditioning equipment in association with the device;
Based on the identification information and the amount of heat received by the receiving means, the size and distance of the air conditioning equipment corresponding to the identification information and the amount of heat is acquired from the air conditioning equipment information storage means, and the acquired size and distance of the air conditioning equipment Creating means for creating a 3D layout diagram showing the most suitable installation status of the apparatus and the air conditioner in the space based on the dimensions of the apparatus received by the receiving means ;
Transmitting means for transmitting the created 3D layout diagram to the terminal device;
A layout creation system comprising:

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