KR101636410B1 - Method, server, terminal, system, and recording medium for diagnosing thermal insulation property of building - Google Patents

Abstract

The embodiments relate to a building heat insulation performance diagnosing method, a diagnosing server thereof, a mobile terminal thereof, a system thereof, and a recording medium thereof which accurately, efficiently, and easily diagnoses a performance of heat insulation with respect to a diagnosing target building. The system comprises: a diagnosing server configured to transmit diagnosis result data; and a mobile terminal configured to receive the diagnosis result data to output or store the diagnosis result data.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method for diagnosing a thermal insulation performance of a building, a diagnosis server, a mobile terminal, a system and a recording medium,

The present invention relates to a method for diagnosing a building's thermal insulation performance, a diagnosis server, a mobile terminal, a system, and a recording medium.

Conventionally, in order to diagnose the insulation performance of a building, the user directly visits the site where the building is located, and the insulation performance of the building is diagnosed by measuring the indoor temperature of the building and the outside temperature of the building.

When the insulation performance of the building is diagnosed, accurate diagnosis results can be obtained only when the climatic condition of the building having the building satisfies predetermined diagnosis conditions (outside air velocity condition, indoor / outdoor temperature difference condition, etc.).

Therefore, conventionally, after visiting a diagnostic site having a building and confirming whether the climatic condition of the diagnostic site satisfies a predefined diagnostic condition, only when the climatic condition of the diagnostic site satisfies the predefined diagnostic condition, Is actually proceeding.

If the condition of the diagnosis site does not satisfy the diagnosis condition for the insulation performance evaluation after the visit to the diagnosis site, the diagnosis site should be repeatedly visited when the condition of the diagnosis site satisfies the diagnosis condition .

Conventionally, it is inconvenient that the climatic condition of the diagnosis site does not know whether the diagnosis condition satisfies the predefined diagnosis condition without visiting the diagnostic site where the building is located, and the person has to visit the diagnosis site several times repeatedly I have been.

It is an object of the present embodiments to provide a method for diagnosing a heat insulation performance of a building, a diagnosis server, a mobile terminal, a system, and a recording medium, which can accurately, efficiently, and easily diagnose an insulation performance of a building to be diagnosed.

It is another object of the present invention to provide a method of diagnosing a building's insulation performance, which enables a remote diagnosis of a diagnosis site to be easily and conveniently performed without visiting a diagnostic site having a building subject to diagnosis of insulation performance, , A mobile terminal, a system, and a recording medium.

In one embodiment, it is determined whether or not the diagnosis condition for diagnosing the insulation performance of the target building is satisfied, based on the preset indoor reference temperature and the weather station data acquired from the weather station server. When the diagnosis condition is satisfied, When three pieces of temperature information are received, a temperature difference ratio (TDR) is calculated from the three pieces of temperature information, an insulation class corresponding to the calculated temperature variation rate is determined, A diagnostic server transmitting diagnostic result data including a temperature deviation rate and a determined thermal classification; And receiving the diagnosis timing alarm information from the diagnosis server and transmitting the three pieces of temperature information including the room temperature, the indoor surface temperature, and the ambient temperature average to the diagnosis server, receiving and outputting the diagnosis result data The present invention can provide a building thermal insulation performance diagnosis system including a mobile terminal for storing heat insulation performance.

According to another embodiment of the present invention, in a method for diagnosing a building's thermal insulation performance, a diagnosis server judges whether or not a diagnostic condition for diagnosing insulation performance of a target building is satisfied, based on a preset indoor reference temperature and weather station data acquired from a weather station server ; Transmitting the diagnostic timing alarm information when the diagnosis server satisfies the diagnosis condition; The mobile terminal acquiring three kinds of temperature information including the room temperature, the indoor surface temperature, and the outdoor air average temperature and transmitting the information to the diagnosis server; Wherein the diagnosis server calculates a temperature deviation rate from the three types of temperature information and determines an adiabatic grade corresponding to the calculated temperature deviation rate; The diagnostic server transmitting diagnosis result data including the calculated temperature deviation rate and the determined thermal classification; And a step of receiving, outputting or storing the diagnosis result data by the mobile terminal.

Yet another embodiment provides a weather station data obtaining unit for obtaining weather station data from a weather station server; A diagnosis condition judging unit for judging whether or not a diagnosis condition for diagnosing a thermal insulation performance of a building to be diagnosed is satisfied, based on a preset indoor reference temperature and weather station data acquired from the weather station server; A diagnostic timing alarm unit for transmitting diagnosis timing alarm information when the diagnosis condition is satisfied; And three temperature information including the room temperature, the indoor surface temperature, and the outdoor air average temperature to calculate a temperature deviation rate, determine an adiabatic grade corresponding to the calculated temperature deviation rate, calculate the calculated temperature deviation rate, A diagnosis server for diagnosing thermal insulation performance of a building including a diagnosis processing unit for generating and transmitting diagnostic result data including an insulation grade can be provided.

Yet another embodiment includes a diagnostic timing alarm receiving unit for performing reception processing of diagnostic timing alarm information; A temperature measuring unit for obtaining three types of temperature information including room temperature, indoor surface temperature, and outdoor air average temperature and controlling the temperature information to be transmitted to the diagnosis server; And a diagnosis result control unit for controlling the diagnostic server to store or output the diagnostic result data when the diagnostic result data including the temperature error rate calculated based on the three temperature information and the thermal classification degree determined by the temperature error rate are received from the diagnostic server The present invention can provide a mobile terminal for diagnosing thermal insulation performance of a building including a processing unit.

Yet another embodiment is a method for diagnosing building adiabatic performance of a mobile terminal, the method comprising: receiving diagnostic timing alarm information; Obtaining three pieces of temperature information including a room temperature, an indoor surface temperature, and an average outdoor temperature, and transmitting the information to a diagnosis server; Receiving diagnosis result data including a temperature deviation rate calculated based on the three pieces of temperature information from the diagnosis server and an insulation class determined by the temperature deviation rate; And outputting the diagnosis result data to the mobile terminal.

According to another embodiment of the present invention, there is provided a recording medium having recorded thereon a program for executing a method for diagnosing a building's thermal insulation performance of a mobile terminal, the method comprising the steps of: receiving diagnostic timing alarm information; The method of claim 1, further comprising the steps of: acquiring temperature information of a branch and transmitting the temperature information to a diagnosis server; receiving diagnostic result data including a temperature deviation rate calculated based on the three temperature information and an adiabatic grade determined by the temperature deviation rate And outputting or storing the diagnostic result data. The computer readable recording medium records the program for executing the step of outputting or storing the diagnostic result data.

According to the embodiments as described above, it is possible to provide a method for diagnosing heat insulation performance of a building, a diagnosis server, a mobile terminal, a system, and a recording medium that can accurately, efficiently, and easily diagnose the heat insulation performance of a building to be diagnosed .

Further, according to the embodiments, it is possible to diagnose a building's insulation performance and diagnose it easily and remotely so that the diagnosis site meets diagnostic conditions without visiting the diagnostic site where the building to be diagnosed as the insulation performance is directly visited A server, a mobile terminal, a system, and a recording medium.

FIG. 1 is a block diagram of a building thermal insulation performance diagnosis system according to the present embodiments.
2 is a flowchart of a method for diagnosing a building's thermal insulation performance according to the present embodiments.
3 is a block diagram of a diagnosis server for diagnosing the insulation performance of a building according to the present embodiments.
4 is a block diagram of a mobile terminal for diagnosing a building's insulation performance according to the present embodiments.
5 is an internal configuration diagram of a temperature measuring unit included in a mobile terminal for diagnosing insulation performance of a building according to the present embodiments.
FIG. 6 is an exemplary view of a thermal imaging camera mounted on a mobile terminal for the purpose of acquiring indoor surface temperature in diagnosing a building's thermal insulation performance according to the present embodiments.
7 is a flowchart of a method for diagnosing a building's insulation performance according to the present embodiments.
FIG. 8 is a graph showing the number of days that can be diagnosed to be able to diagnose the insulation performance of buildings according to the present embodiments in each area.
9 is a diagram conceptually showing an image overlay display mode in order to allow a user to intuitively grasp the wall insulation performance of a building to be diagnosed at the time of diagnosing a building's insulation performance according to the present embodiments.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. In the drawings, like reference numerals are used to denote like elements throughout the drawings, even if they are shown on different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the components from other components, and the terms do not limit the nature, order, order, or number of the components. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; intervening "or that each component may be" connected, "" coupled, "or " connected" through other components.

FIG. 1 is a configuration diagram of a building heat insulation performance diagnosis system 100 according to the present embodiments.

Referring to FIG. 1, a building thermal insulation performance diagnosis system 100 according to the present embodiment includes a diagnosis server 110, a mobile terminal 120, and the like.

The diagnosis server 110 monitors the diagnosis timing for diagnosis of building insulation performance, notifies the diagnosis timing to the mobile terminal 120, receives temperature information necessary for diagnosing the insulation performance of the building from the mobile terminal 120, For example, calculation of the temperature difference ratio (TDR), determination of the thermal insulation class, and the like), and the diagnostic processing result can be provided to the mobile terminal 120.

The mobile terminal 120 can calculate the temperature deviation rate indicating the thermal insulation performance of the target building to be diagnosed so that the diagnosis server 110 can diagnose the thermal insulation performance of the building to be diagnosed and determine the thermal insulation rating corresponding thereto And provides the diagnostic information to the diagnostic server 110. The diagnostic server 110 may receive the diagnostic information from the diagnostic server 110 and store or output or transmit the diagnostic information.

Referring to FIG. 1, the diagnosis server 110 determines whether or not a diagnosis target building is to be diagnosed based on a predetermined indoor reference temperature (for example, 15 占 폚) and weather station data acquired from the weather station server 150 It is determined whether or not the diagnosis condition for diagnosing the adiabatic performance is satisfied and the diagnosis timing alarm information is transmitted to the mobile terminal 120 when the diagnosis condition is satisfied.

Here, the weather station data acquired from the weather station server 150 is data for a specific period of the ambient temperature at the location where the building to be diagnosed exists for diagnosing thermal insulation performance. For example, it may be the data on the outdoor temperature for three days at the location where the building to be diagnosed is intended to diagnose the insulation performance.

In addition, the above-described diagnostic condition may be information previously set as a suitable condition for diagnosing the heat insulation performance. For example, when the outside air velocity at the location of the diagnostic target building to be diagnosed with the heat insulation performance is 3 m / s or less , The temperature difference between the average temperature of the outside air and the indoor reference temperature corresponding to the average temperature of the outside temperature for 3 days at the location where the diagnostic target is to be diagnosed is 10 ° C or more.

After transmitting the diagnostic timing alarm information, when the three types of temperature information are received from the mobile terminal 120, the diagnostic server 110 calculates a temperature difference ratio (TDR) from the three types of temperature information , Determines an adiabatic grade corresponding to the calculated temperature deviation rate, and transmits diagnostic result data including the calculated temperature deviation rate and the determined adiabatic grade to the mobile terminal 120.

1, the mobile terminal 120 receives diagnostic timing alarm information from the diagnosis server 110 and transmits three types of temperature information including the room temperature, the indoor surface temperature, and the ambient temperature average to the diagnosis server 110 ), And the diagnostic result data can be received, output or stored.

The mobile terminal 120 may generate a diagnostic result report according to a predetermined document frame using the received or stored diagnostic result data and transmit the diagnostic result report to another device.

Referring to FIG. 1, the mobile terminal 120 may further include a temperature measuring unit 140 for measuring the room temperature of the building to be diagnosed and providing the room temperature information to the mobile terminal 120.

The temperature measuring device 140 outputs information about a room temperature to an input / output module of a mobile terminal 120 connected to a cable or a connector, or communicates with the mobile terminal 120 through a wireless communication method such as Bluetooth By transmitting information about the room temperature to the module, information on the room temperature can be provided to the mobile terminal 120.

Referring to FIG. 1, a thermal imaging camera 130 may be further included for capturing a thermal image of a wall of a building to be diagnosed and transmitting thermal image data to the mobile terminal 120.

Accordingly, the mobile terminal 120 obtains the indoor surface temperature by averaging the temperatures at all the points of the wall of the building to be diagnosed, in which the thermal image is photographed, based on the thermal image data received from the thermal imaging camera 130 .

The mobile terminal 120 transmits a temperature information request including the GPS coordinates obtained through the GPS module to the diagnostic server 110 or the meteorology service server 150 to acquire the average temperature of the outside air, Temperature information on the outside temperature during a certain period of time from the diagnostic server 110 or the meteorological service server 150 and averages the outside temperature during a certain period of time to calculate and obtain the average outside temperature.

When the above-described diagnosis server 110 receives three pieces of temperature information including the room temperature Ti, the indoor surface temperature Tis and the outdoor air average temperature To from the mobile terminal 120, , It is possible to calculate the temperature deviation rate (TDR), which is an index showing the heat insulating performance of the building to be diagnosed. That is, the above-described diagnosis server 110 divides the difference value between the room temperature Ti and the indoor surface temperature Tis by the temperature difference rate TDR by dividing the difference value between the room temperature Ti and the outdoor air average temperature To, Can be calculated.

The above-described diagnosis server 110 can determine the thermal insulation rating of the building to be diagnosed corresponding to the temperature deviation rate (TDR) calculated using Equation (1).

The above-described diagnostic server 110 may provide diagnostic result data to the mobile terminal 120, including the calculated temperature deviation rate (TDR) and the determined adiabatic rating.

2 is a flowchart of a method for diagnosing a building's thermal insulation performance according to the present embodiments.

Referring to FIG. 2, in the method for diagnosing a building's thermal insulation performance according to the present embodiments,

The diagnostic server 110 determines whether the diagnostic condition for diagnosing the insulation performance of the target building is satisfied based on the preset indoor reference temperature and the weather station data acquired from the weather station server 150 at step S210.

If it is determined that the diagnostic condition is satisfied, the diagnostic server 110 transmits diagnostic timing alarm information (S220).

When the mobile terminal 120 receives the diagnostic timing alarm information, it outputs it.

Accordingly, the user knows that the site condition of the building to be diagnosed satisfies the diagnosis condition capable of diagnosing the insulation performance, and visits the site to confirm the site (the wall of the building to be diagnosed) to be diagnosed (S230) .

The mobile terminal 120 obtains three pieces of temperature information including the room temperature, the indoor surface temperature, and the ambient temperature average, and transmits the temperature information to the diagnosis server 110 (S240).

The diagnosis server 110 calculates the temperature deviation rate from the three kinds of temperature information, determines the adiabatic grade corresponding to the calculated temperature deviation rate, and transmits the diagnosis result data including the calculated temperature deviation rate and the determined adiabatic grade to the mobile To the terminal 120 (S250).

The mobile terminal 120 receives the diagnosis result data and outputs, stores or transmits the diagnosis result data (S260).

FIG. 3 is a block diagram of a diagnostic server 110 for diagnosing building insulation performance according to the present embodiments.

3, the diagnosis server 110 for diagnosing building insulation performance according to the present embodiment includes a meteorological station data acquisition unit 310 for acquiring weather station data from a weather station server 150, A diagnosis condition determination unit 320 for determining whether or not the diagnosis condition for diagnosis of the insulation performance of the target building to be satisfied is satisfied based on weather station data acquired from the weather station server 150, A diagnosis timing alarm unit 330 for transmitting information, and three types of temperature information including a room temperature, an indoor surface temperature, and an ambient temperature average, and calculates a temperature deviation rate, and calculates a temperature difference rate corresponding to the calculated temperature deviation rate And a diagnostic processing unit 340 for generating and transmitting diagnostic result data including the calculated temperature deviation rate and the determined adiabatic rating.

For example, the above-described diagnostic condition determination unit 320 may be configured to determine, based on the weather station data acquired from the weather station server 150, the outside air velocity at a location where the building to be diagnosed is located, (3 m / s) or less, and the average of the outside air temperature during the past period of time (for example, 3 m / s) If the temperature difference between the temperature and the preset reference temperature is equal to or greater than the reference temperature difference (e.g., 10 占 폚), it can be determined that the diagnostic condition is satisfied.

Fig. 8 shows the results of a survey on the number of days that can be diagnosed with a climate condition satisfying these diagnostic conditions, that is, the number of days that can diagnose a building's insulation performance.

As shown in FIG. 8, it is not easy to predict the feasibility of inspecting the insulation performance of each building, and it is not easy to predict when the insulation performance of buildings can be diagnosed.

Therefore, conventionally, a diagnosis is started after visiting a diagnosis site having a building and checking whether the condition of the diagnosis site satisfies a predefined diagnosis condition.

If, after the visit to the diagnostic site, the condition of the diagnosis site finds that the condition for diagnosing the insulation performance of the building does not satisfy the diagnostic condition, there is a need to visit the diagnosis site again later.

However, by using the embodiments, it is possible to easily and easily grasp whether or not the diagnosis can be made remotely, without having to visit the diagnosis site directly. Therefore, after remotely grasping that the condition of the diagnosis site satisfies the diagnostic condition, it visits the diagnosis site, thereby preventing the worker from unnecessarily frequently visiting the diagnosis site.

The diagnostic processing unit 340 calculates the temperature deviation rate (TDR) from the room temperature, the indoor surface temperature, and the ambient temperature average included in the three pieces of temperature information received from the mobile terminal 120 using Equation (1) Determines the adiabatic grade corresponding to the calculated temperature deviation rate, generates diagnostic result data including the calculated temperature deviation rate and the determined adiabatic grade, and provides the generated diagnostic result data to the mobile terminal 120.

4 is a block diagram of a mobile terminal 120 for diagnosing a building's insulation performance according to the present embodiments.

4, the mobile terminal 120 for diagnosing building insulation performance according to the present embodiments includes a control unit 410, a communication module 420, an input / output module 430, a memory 440, a display unit 450 ) And the like.

The control unit 410 performs main control functions related to diagnosis of building insulation performance.

The control unit 410 includes a diagnostic timing alarm receiving unit 411 for performing reception processing of the diagnostic timing alarm information and three types of temperature information including the room temperature, the indoor surface temperature and the ambient temperature average, 110), and diagnosis result data including an insulation class determined by the temperature deviation rate and the temperature deviation rate calculated based on the three kinds of temperature information from the diagnosis server 110 are received And a diagnosis result processing unit 413 for controlling the diagnosis result data to be stored in the memory 440 or outputted to the display unit 450 or transmitted to another apparatus through the communication module 420, and the like.

The communication module 420 communicates with the diagnosis server 110 and the weather station server 150 to transmit or receive various information or data or transmit control signals to the thermal imaging camera 130 and / Thermal image data, temperature information, and the like.

The communication module 420 includes a communication module for communication with the diagnosis server 110, the weather station server 150 and the like as well as a short-range communication module for communicating with the infrared camera 130 and / or the temperature meter 140 E.g., a Bluetooth module, etc.).

The control unit 410 can control the corresponding wall to be simultaneously photographed through the built-in camera at the time of thermal imaging.

On the other hand, in order to allow the user to intuitively grasp the wall insulation performance of the building to be diagnosed, the control unit 410 controls the camera image 910 and the thermal imager 910, The superimposed image 930 may be superimposed on the thermal image 920 represented by the thermal image data received from the display unit 130 and the generated superimposed image 930 may be displayed on the display unit 450. [

In FIG. 9, the camera image 910 and the thermal image 920 are conceptually schematized, wherein the hatch density on the thermal image 920 is proportional to the temperature.

The user can easily and accurately grasp the temperature distribution on the wall portion through the superimposed image 930 displayed on the display unit 450 of the mobile terminal 120. This allows the user to intuitively It can be measured.

5 is an internal configuration diagram of the temperature measuring unit 412 included in the mobile terminal 120 for diagnosing the insulation performance of buildings according to the present embodiments.

5, the temperature measuring unit 412 includes a room temperature obtaining unit 510 for obtaining temperature information on a room temperature, a room surface temperature obtaining unit 520 for obtaining temperature information on the room surface temperature, An outside air average temperature obtaining unit 530 for obtaining temperature information on the outside air average temperature, and the like.

Referring to FIG. 5, the room temperature acquiring unit 510 receives and acquires the room temperature Ti of the building to be diagnosed measured by the temperature measuring unit 140.

The indoor surface temperature obtaining unit 520 receives the thermal image data of the thermal image taken by the thermal imaging camera 130 and calculates the indoor surface temperature of the wall of the building to be diagnosed ), And obtains the indoor surface temperature (Tis) by averaging the identified temperatures.

On the other hand, the thermal imaging camera 130 confirms the temperature of all the points of the wall of the building to be diagnosed (thermal insulation performance diagnosis target) from which the thermal image has been taken from the thermal image data, To the indoor surface temperature acquisition unit 520 of the mobile terminal 120 or to the indoor surface temperature acquisition unit 520 of the mobile terminal 120 with information on the average indoor surface temperature Tis of the confirmed temperatures You can send it.

The ambient temperature average obtaining unit 530 transmits the current GPS coordinates obtained through the GPS module 500 built in the mobile terminal 120 to the diagnostic server 110 or the weather station server 150, Temperature information about the outside temperature (for example, three days outside temperature, To1, To2, ...) for a certain period of time from the diagnosis server 110 or the weather station server 150, To obtain the outdoor air average temperature To.

FIG. 6 is an exemplary view of the thermal imaging camera 130 mounted on the mobile terminal 120 for obtaining the indoor surface temperature Tis in the thermal insulation performance diagnosis of the building according to the present embodiments.

6, the thermal imaging camera 130 includes an infrared sensor 610 that acquires thermal image data through the sensing unit 611, a communication module 620 that transmits thermal image data, an infrared sensor A cylindrical case 630 for housing the communication module, and fixed holders 640a and 640b for fixing the cylindrical case to one side and the other side of the mobile terminal 120, and the like.

The above-described method for diagnosing the building's insulation performance of the mobile terminal 120 will be briefly described with reference to FIG.

7 is a flowchart of a method for diagnosing a building's thermal insulation performance of the mobile terminal 120 according to the present embodiments.

Referring to FIG. 7, the method for diagnosing heat insulation performance of a building of the mobile terminal 120 according to the present embodiment includes receiving S1710 diagnostic timing alarm information, and calculating the indoor temperature, indoor surface temperature, (S720) of obtaining three types of temperature information, which are determined based on the three temperature information from the diagnosis server 110, and a thermal insulation degree determined by the temperature deviation ratio (S730), and outputting, storing or transmitting the diagnostic result data (S740), and the like.

The method for diagnosing building insulation performance of the mobile terminal 120 according to the embodiments described above can be applied to a case where an application installed in the mobile terminal 120 (which is included in a platform that is basically installed in the mobile terminal 120, Or may be implemented and executed by a user that is compatible with the operating system of the mobile terminal 120 via an application provision server, an application or an application provision server such as a web server associated with the service (I.e., a program) that can be installed directly on the mobile terminal 120 and executed. Here, the operating system of the mobile terminal 120 may be an operating system such as a window installed on a general PC such as a desktop or a Macintosh, an iOS installed on a mobile terminal such as a smart phone or a tablet PC, Android) and other mobile-specific operating systems.

That is, the method for diagnosing the building's thermal insulation performance of the mobile terminal 120 according to the present embodiments may be implemented in an application (i.e., a program) installed in the mobile terminal 120 or directly installed by a user, (120), a desktop, or the like.

The program that implements the method for diagnosing the building's thermal insulation performance of the mobile terminal 120 according to the present embodiments includes a function of receiving the diagnostic timing alarm information and a function of receiving three kinds of temperatures including the room temperature, And a function of receiving diagnosis result data including the temperature deviation rate calculated based on the three pieces of temperature information from the diagnosis server 110 and the insulation class determined by the temperature deviation rate And a function of outputting or storing the diagnosis result data. In addition to the above, all the functions corresponding to the method for diagnosing building insulation performance of the mobile terminal 120 according to the above-described embodiments can be executed.

Such a program may be recorded on a recording medium readable by a computer such as the mobile terminal 120 and executed by a computer so that the above-described functions can be executed.

In order to allow the computer to read the program recorded on the recording medium and to execute the method of diagnosing the thermal insulation performance of the building implemented as a program, the above-mentioned program may be stored in a computer readable medium such as C, C ++, JAVA, And may include a code encoded in a computer language of the computer.

The code may include a function code related to a function or the like that defines the functions described above and may include an execution procedure related control code necessary for the processor of the computer to execute the functions described above according to a predetermined procedure.

In addition, such code may further include memory reference related code as to what additional information or media needed to cause the processor of the computer to execute the aforementioned functions should be referenced at any location (address) of the internal or external memory of the computer .

In addition, when a processor of a computer needs to communicate with any other computer or server, etc., to perform the above-described functions, the code may be stored in a computer's communication module (e.g., a wired and / ) May be used to further include communication related codes such as how to communicate with any other computer or server in the remote, and what information or media should be transmitted or received during communication.

The functional program for implementing the embodiments and the code and code segment related thereto can be implemented by a programmer of the technical field to which the present invention pertains in consideration of the system environment of the computer that reads the recording medium and executes the program Lt; RTI ID = 0.0 > and / or < / RTI >

Also, the computer-readable recording medium on which the above-described program is recorded may be distributed to a computer system connected via a network so that computer-readable codes can be stored and executed in a distributed manner. In this case, one or more of the plurality of distributed computers may execute some of the functions presented above and send the results of the execution to one or more of the other distributed computers, The computer may also perform some of the functions described above and provide the results to other distributed computers as well.

As described above, the computer-readable recording medium on which the program for executing the method for diagnosing the building's thermal insulation performance of the mobile terminal 120 according to the present embodiments is recorded includes a ROM, a RAM, a CD-ROM , Magnetic tapes, floppy disks, optical media storage devices, and the like.

In addition, a computer-readable recording medium on which an application, which is a program for executing a method for diagnosing a building's thermal insulation performance of the mobile terminal 120 according to the present embodiments, is recorded includes an application store server, (For example, a hard disk) included in an application provider server including a Web server associated with the application server or the application providing server itself, Or a storage medium.

A computer capable of reading a recording medium on which an application, which is a program for executing a method for diagnosing a building's thermal insulation performance of the mobile terminal 120 according to the present embodiments, can be read is a mobile terminal 120, A mobile terminal such as a smart phone, a tablet PC, a PDA (Personal Digital Assistants), and a mobile communication terminal, as well as a general PC of a mobile communication terminal.

If a computer capable of reading a recording medium on which an application, which is a program for executing a method for diagnosing a building's insulation adherence performance of the mobile terminal 120 according to the present embodiments, is read is a smart phone, a tablet PC, a PDA (Personal Digital Assistants) In the case of a mobile terminal such as a communication terminal, the mobile terminal can download and install the application from an application providing server including an application store server and a web server, and in some cases, , Or may be installed in the mobile terminal via a synchronization program.

The diagnosis server 110, the mobile terminal 120, and the system 100 (see FIG. 1), which are capable of accurately, efficiently, and easily diagnosing the heat insulation performance of the building to be diagnosed as described above, ) And a recording medium.

Further, according to the embodiments, it is possible to diagnose a building's insulation performance and diagnose it easily and remotely so that the diagnosis site meets diagnostic conditions without visiting the diagnostic site where the building to be diagnosed as the insulation performance is directly visited A server 110, a mobile terminal 120, a system 100, and a recording medium.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. , Separation, substitution, and alteration of the invention will be apparent to those skilled in the art. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: Building Thermal Insulation Performance Diagnosis System
110: Diagnostic server
120: mobile terminal
130: Thermal camera
140: Temperature meter

Claims (15)

Determining whether the diagnosis condition for diagnosing the insulation performance of the target building is satisfied or not, and transmitting the diagnosis timing alarm information when the diagnosis condition is satisfied, based on the preset indoor reference temperature and the weather station data acquired from the weather station server, When the branch temperature information is received, a temperature difference ratio (TDR) is calculated from the three pieces of temperature information, an adiabatic grade corresponding to the calculated temperature deviation rate is determined, and the calculated temperature deviation rate and the determined A diagnostic server for transmitting diagnosis result data including an insulation grade; And
Receiving the diagnosis timing alarm information from the diagnosis server and transmitting the three pieces of temperature information including the room temperature, the indoor surface temperature, and the ambient temperature average to the diagnosis server, receiving the diagnostic result data, The mobile terminal comprising:
The diagnostic server,
From the meteorological office data acquired from the weather station server, the outside air velocity at the location where the building to be diagnosed is located and the outside air temperature during the past predetermined period at the location where the building to be diagnosed is located,
When the outside air velocity at the location of the building to be diagnosed is less than or equal to a predefined reference ambient air velocity and the temperature difference between the average temperature of the outside air temperature during the past certain period and the preset room reference temperature is equal to or greater than the reference temperature difference, A system for evaluating the insulation performance of a building. The method according to claim 1,
The diagnostic server,
Wherein the temperature deviation rate is calculated by dividing the difference value between the room temperature and the indoor surface temperature by the difference value between the room temperature and the ambient air average temperature. The method according to claim 1,
Further comprising: a thermal imaging camera that takes a thermal image of the wall of the building to be diagnosed and transmits thermal image data to the mobile terminal,
The mobile terminal comprises:
And acquiring the indoor surface temperature by averaging the temperatures of all the points of the wall based on the thermal image data received from the thermal imaging camera. The method of claim 3,
The thermal imager comprises:
An infrared sensor for obtaining the thermal image data;
A communication module for transmitting the thermal image data;
A cylindrical case for housing the infrared sensor and the communication module; And
And a fixed holder for fixing the cylindrical case to the mobile terminal. The method according to claim 1,
And a temperature measuring unit for measuring the room temperature and providing the information about the room temperature to the mobile terminal. 6. The method of claim 5,
The temperature measuring device includes:
Outputting the information on the room temperature to the input / output module of the mobile terminal or transmitting the information to the communication module of the mobile terminal. The method according to claim 1,
The mobile terminal comprises:
GPS coordinates obtained through the GPS module are transmitted to the diagnosis server or the weather station server to receive temperature information about the outside temperature for a certain period from the current date from the diagnosis server or the weather agency server, To calculate the average temperature of the outside air. delete In the method for diagnosing thermal insulation performance of a building,
Determining whether the diagnostic condition for diagnosing the insulation performance of the target building is satisfied based on a preset indoor reference temperature and meteorological data acquired from a weather station server;
Transmitting the diagnostic timing alarm information when the diagnosis server satisfies the diagnosis condition;
The mobile terminal acquiring three kinds of temperature information including the room temperature, the indoor surface temperature, and the outdoor air average temperature and transmitting the information to the diagnosis server;
Wherein the diagnosis server calculates a temperature deviation rate from the three types of temperature information and determines an adiabatic grade corresponding to the calculated temperature deviation rate;
The diagnostic server transmitting diagnosis result data including the calculated temperature deviation rate and the determined thermal classification; And
The mobile terminal receiving, outputting or storing the diagnostic result data,
In the step of determining whether the diagnostic condition is satisfied,
From the meteorological office data acquired from the weather station server, the outside air velocity at the location where the building to be diagnosed is located and the outside air temperature during the past predetermined period at the location where the building to be diagnosed is located,
When the outside air velocity at the location of the building to be diagnosed is less than or equal to a predefined reference ambient air velocity and the temperature difference between the average temperature of the outside air temperature during the past certain period and the preset room reference temperature is equal to or greater than the reference temperature difference, A method for evaluating the insulation performance of a building which is judged to satisfy the condition. A weather station data acquisition unit for acquiring weather station data from a weather station server;
A diagnosis condition judging unit for judging whether or not a diagnosis condition for diagnosing a thermal insulation performance of a building to be diagnosed is satisfied, based on a preset indoor reference temperature and weather station data acquired from the weather station server;
A diagnostic timing alarm unit for transmitting diagnosis timing alarm information when the diagnosis condition is satisfied; And
The indoor temperature, the indoor surface temperature, and the outdoor air average temperature to calculate a temperature deviation rate, determine an adiabatic grade corresponding to the calculated temperature deviation rate, calculate the calculated temperature deviation rate, And a diagnostic processing unit for generating and transmitting diagnostic result data including a grade,
The diagnostic condition determination unit may determine,
From the meteorological office data acquired from the weather station server, the outside air velocity at the location where the building to be diagnosed is located and the outside air temperature during the past predetermined period at the location where the building to be diagnosed is located,
When the outside air velocity at the location of the building to be diagnosed is less than or equal to a predefined reference ambient air velocity and the temperature difference between the average temperature of the outside air temperature during the past certain period and the preset room reference temperature is equal to or greater than the reference temperature difference, Diagnosis server for diagnosis of building insulation performance judged to satisfy the condition. A diagnostic timing alarm receiving unit for performing reception processing of the diagnostic timing alarm information;
A temperature measuring unit for obtaining three types of temperature information including room temperature, indoor surface temperature, and outdoor air average temperature and controlling the temperature information to be transmitted to the diagnosis server; And
And a diagnosis result processing unit for controlling the diagnosis result data to be stored or output when the diagnosis result data including the temperature deviation rate calculated based on the three pieces of temperature information and the insulation class determined by the temperature deviation rate are received from the diagnosis server,
, ≪ / RTI &
The diagnostic server,
Judging whether or not the diagnostic condition for diagnosing the insulation performance of the target building to be satisfied is satisfied based on the preset indoor reference temperature and the weather station data acquired from the weather station server and transmitting the diagnosis timing alarm information when the diagnosis condition is satisfied,
From the meteorological office data acquired from the weather station server, the outside air velocity at the location where the building to be diagnosed is located and the outside air temperature during the past predetermined period at the location where the building to be diagnosed is located,
When the outside air velocity at the location of the building to be diagnosed is less than or equal to a predefined reference ambient air velocity and the temperature difference between the average temperature of the outside air temperature during the past certain period and the preset room reference temperature is equal to or greater than the reference temperature difference, Wherein the determination unit determines that the condition is satisfied. 12. The method of claim 11,
The temperature measuring unit includes:
A room temperature acquiring unit for acquiring temperature information on the room temperature;
An indoor surface temperature acquiring unit for acquiring temperature information on the indoor surface temperature; And
And an outdoor air average temperature acquisition unit for acquiring temperature information on the outdoor air average temperature. 13. The method of claim 12,
Wherein the room temperature acquiring unit receives and acquires the room temperature measured by the temperature measuring device,
Wherein the indoor surface temperature obtaining unit obtains the indoor surface temperature by averaging the temperatures of all the points of the wall of the building to be diagnosed based on the thermal image data of the thermal image taken by the thermal imaging camera,
The outdoor air average temperature obtaining unit transmits the GPS coordinates obtained through the GPS module to a diagnostic server or a weather station server to receive temperature information on the outdoor temperature for a predetermined period from the present date from the diagnosis server or the weather agency server, A mobile terminal for diagnosing a building insulation performance by averaging the outside temperature during a certain period of time and calculating the average temperature of the outside air. A method for diagnosing a building's insulation performance of a mobile terminal,
Receiving diagnostic timing alarm information;
Obtaining three pieces of temperature information including a room temperature, an indoor surface temperature, and an average outdoor temperature, and transmitting the information to a diagnosis server;
Receiving diagnosis result data including a temperature deviation rate calculated based on the three pieces of temperature information from the diagnosis server and an insulation class determined by the temperature deviation rate; And
And outputting the diagnosis result data,
The diagnostic server,
Judging whether or not the diagnostic condition for diagnosing the insulation performance of the target building to be satisfied is satisfied based on the preset indoor reference temperature and the weather station data acquired from the weather station server and transmitting the diagnosis timing alarm information when the diagnosis condition is satisfied,
From the meteorological office data acquired from the weather station server, the outside air velocity at the location where the building to be diagnosed is located and the outside air temperature during the past predetermined period at the location where the building to be diagnosed is located,
When the outside air velocity at the location of the building to be diagnosed is less than or equal to a predefined reference ambient air velocity and the temperature difference between the average temperature of the outside air temperature during the past certain period and the preset room reference temperature is equal to or greater than the reference temperature difference, And determining that the condition is satisfied. delete

Images