KR20150106745A - Remote Checking System and Method for Integrating Calorimeter - Google Patents

Abstract

The present invention relates to remote checking system and method for an integrating calorimeter. A remote checking system for an integrating calorimeter may include: the integrating calorimeter which includes temperature information detected in a supplying pipe and a collecting pipe, flowrate information flowing along the supplying pipe and the collecting pipe, and a sub memory which stores an integrating calorie value calculated by receiving the temperature information and the flowrate information; and a management server which monitors the integrating calorimeter by receiving information calculated and collected in the integrating calorimeter, and provides a pattern analysis program which analyzes the calorie use pattern of households by using information stored in the sub memory. Therefore, a problem caused in the integrating calorimeter is easily detected. The analysis of the calorie use pattern for the households or each household can be carried out. A time zone where a user can conveniently use heat can be guided to improve the convenience of a user.

Description

[0001] The present invention relates to a remote checking system and method for integrating calorimeter,

More particularly, the present invention relates to an integrated calorimeter remote meter reading system and a method thereof. More particularly, the present invention relates to an integrated calorimeter remote meter reading system and a method thereof, The present invention relates to an integrated meter reading system and method for analyzing information stored in a memory by using a pattern analysis program to identify problems and usage patterns.

Generally, the integrated calorimeter is used to measure and manage the calorie consumption consumed in a district heating system installed in apartment houses, such as apartments.

The integrated calorimeter is provided with temperature information sensed by a temperature sensor provided on a supply side and a return side of a pipe through which heating water flows, and flow rate information measured by a flow rate measuring device installed in the piping, and uses the temperature on the supply side, And the instantaneous calorie value is calculated by accumulating the instantaneous calorie value.

In general, the integrated calorific value calculated by the remote meter reading integrated calorimeter is transmitted to a remote server and stored. If the communication with the server is unstable and the integrated calorie value can not be transmitted to the server or the common household generation does not use heat, In order to prevent unnecessary power consumption, the system has only a minimum memory capable of storing only the final calorific value calculated in the integrated calorimeter.

Such a current system is a system in which a meter reading person carries out meter reading automatically and transmits the meter reading to a management server. Recently, a technology capable of performing various remote control and bidirectional control such as home automation for controlling electronic products in a home is introduced It is not being able to cope with the technology environment.

In addition to the accumulated calorific value, more measured data may be required for various household services that can be provided in the present apartment house, but it is difficult to analyze data other than the accumulated calorific value each time. Due to the characteristics of heating, the patterns and problems that users use heat are not something that can be grasped in a short time. It is necessary to collect and analyze large amount of data for a long time. However, current remote meter reading integrated calorimeter continuously transmits such large amount of data impossible. This is because the communication line for remote meter reading has a low communication speed due to the hardware characteristics of the integrated calorimeter designed for transmitting data with a low power, and therefore, when the detailed data other than the integrated calorie value is sent through the communication line, the communication time becomes excessively long, And the like.

When a large amount of data is to be transmitted remotely, there is a problem that the measurement success rate and the timely reception rate are lowered due to an increase in communication cost and data loss and retransmission due to external noise, as the transmission amount increases.

Accordingly, only the values of the integrated calorific value calculated using the temperature of the supply side, the temperature of the water recirculation side, and the flow rate, which are sensed by the integrated calorimeter or requested by the management server, are transmitted and the remaining detailed data are stored in the integrated calorimeter, Stored in a memory for storing data, and if necessary, can be detached from a memory detachable by a manager or a user, or can be downloaded and analyzed at a high speed with a large amount of detailed data stored in a memory using a connection port, It is necessary to construct a system for providing the service.

According to one aspect of the present invention, there is provided an integrated meter reading system and method for analyzing data downloaded by a manager or a user using a pattern analysis program to identify problems or usage patterns, I suggest.

According to another aspect of the present invention, the measured detailed data is cumulatively stored in a detachable or built-in data storage memory provided in the integrated calorimeter, and when necessary, the detachable memory is detached by a manager or a user, It is possible to download large amount of detailed data stored at a high speed so as to minimize the transmission of unnecessary information to the remote server by the integrated calorimeter and to store the collected detailed information in order to securely store the information. Meter reading system and method therefor.

The object of the present invention can be achieved by an apparatus for measuring temperature information sensed by a supply-side pipe and a return-side pipe, flow rate information flowing along the supply-side pipe and the return pipe, and an assistant for storing the temperature information and the integrated calorific value calculated by receiving the flow rate information An integrated calorimeter including a memory; And a management server for receiving the information collected and calculated in the integrated calorimeter and monitoring the integrated calorimeter and providing a pattern analysis program for analyzing a plurality of calorie usage patterns using information stored in the auxiliary memory, Can be accomplished by an integrated calorimeter remote meter reading system.

The above object is achieved by a control method of an integrated calorimeter remote meter reading system including an integrated calorimeter for calculating an integrated calorific value using information collected and installed in each household and a management server at a remote site provided with information from the integrated calorimeter A storing step of storing the information collected and calculated in the integrated calorimeter in an auxiliary memory; A providing step of receiving a pattern analysis program for analyzing a calorie usage pattern of each household by using information collected in the integrated calorimeter from an external management server; And an analyzing step of analyzing the information stored in the auxiliary memory by the pattern analysis program and analyzing the calorie usage pattern of each generation.

According to the present invention, it is possible to securely retain a large amount of information measured by the integrated calorimeter by using detachable or built-in auxiliary memory, and it is easy to check stored information when necessary. Therefore, It is minimized and easy to identify when a problem occurs. In addition, it is possible to analyze heat capacity patterns not only for each household but also for a plurality of households by using a pattern analysis program, thereby optimizing the use of heat for households, It is possible to solve the problem and help the user to save money.

1 is a configuration diagram of an integrated calorimeter remote meter reading system according to the present invention,
2 is a configuration diagram of the integrated calorimeter of FIG. 1,
3 is a configuration diagram of the management server of FIG. 1,
FIG. 4 is a graph showing a usage pattern graph showing the analyzed results using the pattern analysis program according to the present invention,
FIG. 5 is a flowchart illustrating a process of analyzing a user's thermal capacity pattern in the integrated thermometer reading system according to the present invention.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in 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.

1 is a block diagram of an integrated meter reading system according to the present invention.

The integrated calorimeter remote meter reading system according to the present invention includes an integrated calorimeter 10 that is installed in each household and collects information generated by the execution of heating and a control unit 10 that receives essential information among the information collected by the integrated calorimeter 10 And a terminal 150 for analyzing the information collected by the integrated calorimeter 10 and analyzing the usage pattern of the user.

As shown in Fig. 2, the integrated calorimeter 10 includes a supply side temperature sensor 15 installed in the supply side pipe for sensing the temperature of the incoming hot water, a temperature sensor 15 installed in the return water pipe, A flow rate measuring unit 25 for measuring the flow rate of the incoming hot water and a temperature measuring unit 25 for receiving information from the temperature sensors 15 and 20 and the flow rate measuring unit 25 A main memory 35 built in the integrated calorimeter 10 for temporarily storing essential information necessary for calorific calculation and processing and a main memory 35 for storing detailed data collected and calculated in the integrated calorimeter 10, A memory 40, a wired communication unit 45 for supporting wired communication with an external management server 100, a wireless communication unit 50 for supporting wireless communication with the management server 100, And a control unit 55.

The supply side temperature sensor 15 is installed in the supply side heat distributor installed in the generation and senses the temperature of the heating water flowing into the generation and the supply side temperature information sensed by the supply side temperature sensor 15 is supplied to the operation unit 30 and the control unit 55). The control unit 55 can store the supply side temperature information in the main memory 35 or the auxiliary memory 40. [

The temperature-side temperature sensor 20 is installed in a heat-exchanger side heat distributor through which heating water is consumed and discharged from the household. The temperature-side temperature information sensed by the temperature-side sensor 20 is supplied to the calculation unit 30, And the control unit 55 can store the return temperature information in the main memory 35 or the auxiliary memory 40. [

The flow rate measuring unit 25 is installed in the return pipe, and it can calculate the flow rate by sensing the flow rate pulse generated when the flow rate of the certain flow rate is detected by using the impeller. The flow rate calculated by the flow rate measurement unit 25 is provided to the calculation unit 30 and the control unit 55 and the control unit 55 can store the flow rate in the main memory 35 or the auxiliary memory 40. [

When the information on the water temperature on the water-return side, the temperature on the supply side, and the flow rate is received from the supply side temperature sensor 15, the water temperature sensor 20, and the flow rate measurement unit 25 in the calculation unit 30, And the instantaneous calorie value is accumulated to calculate the integrated calorie value. The instantaneous calorific value and the accumulated calorific value calculated by the calculation unit 30 are stored in the main memory 35 or the auxiliary memory 40 via the control unit 55. [

The main memory 35 is used for data processing when calculating the instantaneous calorific value and the accumulated calorific value by using the return-side temperature, the supply-side temperature, and the flow rate in the calculation unit 30. [

When the auxiliary memory 40 is separated from the integrated calorimeter 10 in the main memory 35, the supply side temperature sensor 15, the return side temperature sensor 20, the flow rate measurement unit 25 Side temperature, flow rate, and the instantaneous calorie value and the accumulated calorie value calculated by the calculator 30 are stored. The information stored in the main memory 35 is transferred to the auxiliary memory 40 when the detached auxiliary memory 40 is mounted again. If the auxiliary memory 40 is connected to the terminal 150 via a connection port for downloading data at a high speed without being detached, the main memory 35 may not store the above-described information.

The auxiliary memory 40 may be mounted in the integrating calorimeter 10 in a detachable form or incorporated in the integrated calorimeter 10 so as not to be detachable. If the auxiliary memory 40 is not removable, the terminal 150 can be connected to the terminal 150 through a connection port capable of downloading stored data at a high speed.

The auxiliary memory 40 stores the instantaneous calorific value calculated by the calculation unit 30 together with the supply side temperature sensor 15, the return side temperature sensor 20, the return side temperature supplied from the flow rate measurement unit 25, , The accumulated calorific value is stored, and detailed time information in which the temperature on the water-return side, the temperature on the supply side, and the flow rate are detected is stored together. Since the capacity of the auxiliary memory 40 is limited, when the stored data reaches a predetermined capacity or more, the oldest data is sequentially deleted and new data is recorded.

The wired communication unit 45 supports wired communication with the management server 100 at a remote location and performs communications such as Power Line Communication (PLC), Recommend Standard number 485, and Public Switched Telephone Network (PSTN) Method can be used.

PLC is a technology for transmitting voice, character data, video, etc. by using power line. By sending frequency signal much higher than AC frequency to power line supplying AC power, PLC can transmit and receive information. RS-485, a serial communication method, is a half-duplex communication method capable of performing either transmission or reception at one time, and is characterized in that the transmission length of data is long. The PSTN is a landline telephone exchange system, which can provide a voice call or data exchange service to an unspecified number of subscribers through a public switched telephone network.

The wired communication unit 45 supports a wired communication with the management server 100 by providing a modem or the like that conforms to each communication method.

The wireless communication unit 50 supports wireless communication with the management server 100 at a remote location and can use a wireless personal area network (WPAN) or a wireless local area network (WPAN). WPAN is a wireless network technology that connects various electronic devices to the network. It includes Bluetooth, Zigbee, Wi-Fi, UWB (Ultra Wide Band) To communicate with each other. WLAN is a wireless network communication method that enables data to be transmitted and received using frequencies even for equipment not connected to a wired network.

The wired communication unit 45 and the wireless communication unit 50 are turned on and off according to a control signal from the control unit 55. The wireless communication unit 50 is turned off while the wired communication unit 45 is operating, When the communication is not smooth or an error occurs, the wireless communication unit 50 can be turned on and used.

The control unit 55 uses the main memory 35 to process the information collected by the integrated calorimeter 10 and stores the information collected and calculated in the integrated calorimeter 10 in the auxiliary memory 40. [ The control unit 55 operates the wired communication unit 45 or the wireless communication unit 50 only with the integrated calorie value among the information collected in the integrated calorimeter 10 and the prime number required by the management server 100, ).

When the auxiliary memory 40 is detached from the integrated calorimeter 10, the control unit 55 determines whether the auxiliary memory 40 is detached or not. When the auxiliary memory 35 is detached from the integrated calorimeter 10, Side temperature and the flow rate detected by the temperature sensor 20 and the flow rate measuring unit 25 and the instantaneous calorie value and the cumulative calorie value calculated by the calculating unit 30 to the main memory 35 . When the auxiliary memory 40 is mounted again, the control unit 55 transfers the information stored in the main memory 35 to the auxiliary memory 40 and stores the information.

3, the management server 100 includes a calorie database 105 for storing information including the integrated calorie value transmitted from the integrated calorimeter 10, A wireless communication module 120 for wireless communication with the integrated calorimeter 10 and the terminal 150 and a wireless communication module 120 for wireless communication with the integrated calorimeter 10 and the terminal 150. [ A wired communication module 115 for wired communication with the terminal 150 and a controller for controlling the operations of the wireless communication module 120 and the wired communication module 115 by inputting and outputting information to the calorie database 105 and the program database 110, And a control module 125 for controlling the display device.

In the calorific value database 105, the integrated calorific value transferred from the integrated calorimeter 10 of each household is stored in real time, and the integrated calorific value is an ID of the integrated calorimeter 10 installed in each household, a time at which the integrated calorific value is calculated It is stored with matching minimum information. In addition, the analysis result calculated by the pattern analysis program may be transmitted from the terminal 150 and stored in the calorie database 105.

The program database 110 stores a pattern analysis program provided to the user or the terminal 150 of the probe. The pattern analysis program may be downloaded and installed in the terminal 150 of the user who is connected to the management server 100 or the metering probe 100 or may be downloaded and used while the terminal 150 of the user or the metering probe is connected to the management server 100. [ Lt; / RTI >

The pattern analysis program analyzes the temperature on the water-return side, the temperature on the supply side, the flow rate, the instantaneous calorie value, and the accumulated calorific value and the time stored in the auxiliary memory 40 of the integrated calorimeter 10, The usage pattern such as the difference between the supply side temperature and the water return side temperature, the time flow rate, and the relationship between the supply side temperature and the water temperature side difference and the flow rate by time can be outputted. At this time, since the information stored in the auxiliary memory 40 is stored in a storage format that can be directly used by the pattern analysis program, if the information stored in the auxiliary memory 40 is loaded in the pattern analysis program, do.

By using the results analyzed by the pattern analysis program, it is possible to automatically grasp the usage pattern of the user. In addition, when the user has a question about the thermo-capacitance of the generation, it is compared with the supply-side temperature or the water-return-side temperature held by the management server 100 to determine whether the temperature of the supply side or the return- , And it is possible to prevent unnecessary disputes between the manager and the user by analyzing whether or not there is a problem on the supply side temperature or the water temperature side, but the flow rate is not normally measured, .

In addition, the pattern analysis program may receive analysis results stored in the calorie database 105 and may perform new analysis using analysis results of several generations. For example, by using the results of analyzing one apartment building, one apartment complex, and multiple apartment complexes, it can be seen that the usage pattern in the apartment building, the usage patterns in the apartment complex, The usage pattern can be calculated.

For example, as shown in FIG. 4, according to the usage pattern in the apartment building to which the user belongs, the usage amount is the largest from 7:00 am to 10:00 am, and from 10:00 am to 11:00 pm and from 2:00 pm to 4:00 pm The pattern analysis program recommends the user to use the heating water between 10:00 and 11:00 and between 2:00 and 4:00 pm and the user is advised to use hot water such as bath or laundry You can perform housework.

Such a pattern analysis program can recommend a preferable supply method to an administrator from usage patterns of several generations. That is, the pattern analysis program analyzes the supply side temperature, the water temperature side, and the outside air temperature of the management server 100 in an apartment building or a multi-use housing complex to which a plurality of users belong, have. According to such a prediction, the management server 100 can increase the supply water temperature in advance so that the user can preliminarily maintain the supply side temperature or the flow rate to a predetermined level or higher even if the usage amount increases in a short time. In addition, the management server 100 can optimize operations such as minimizing the heat loss by lowering the temperature and flow rate on the supply side when there are not many users.

For example, when the management server 100 determines that the supply water temperature or flow rate received by the user is suddenly falling at 7:00 am and 6:00 pm according to the use pattern of the apartment house, By increasing the supply side temperature and flow rate so that high temperature can be supplied, it is possible to take precautions so that there is no trouble in heating. Also, the management server 100 analyzes the outside temperature and humidity data and the usage pattern measured in the third place or received from the Korea Meteorological Administration in order to prevent heat loss due to unnecessarily high supply side temperature, and provides appropriate timely heating Can be done.

In addition, the management server 100 verifies whether the household calorimeter is malfunctioning by comparing generation between data analysis and similar environments (top-floor generation, side wall generation, co-generation generation, etc.) so that the user can use excessive or insufficient heat It can easily confirm whether or not a fee is charged.

In addition, the management server 100 confirms the temperature of the supply side and the flow rate side of the user generation and the profile of the flow rate of the user side, and compares the profile with another profile of the same condition, Is not suitable to the appropriate level, it is possible to confirm whether or not the heating is supplied which can not be grasped only by the supplied calorie. In addition, the flow profile may be compared with other generations to determine whether there is a problem with the heating supply by clogging the supply piping within the household by the current scale or the like.

As shown in FIG. 4, the analysis result output by the pattern analysis program is displayed as a graph, so that it is possible to provide intuitive information to a user who is not familiar with numerical analysis.

The wired communication module 115 operates to transmit and receive information to and from the integrated calorimeter 10 and the terminal 150 in a wired communication manner and the wireless communication module 120 performs wireless communication with the integrated calorimeter 10 and the terminal 150 Lt; RTI ID = 0.0 > and / or < / RTI >

The control module 125 stores the information provided from the integrated calorimeter 10 in the calorie database 105 and transmits the pattern analysis program stored in the program database 110 to the terminal 150 in response to a request from the terminal 150 Or provide the information stored in the calorific value database 105 to the terminal 150. In addition, the control module 125 may store the analysis result analyzed through the pattern analysis program in the calorie database 105 in the terminal 150. [

A process of analyzing a user's thermo-volatile pattern in the integrated meter reading system according to the present invention will be described with reference to FIG.

The information on the return temperature, the supply temperature and the flow rate is collected in real time from the supply side temperature sensor 15, the return temperature sensor 20 and the flow rate measurement unit 25 in the integrated calorimeter 10 (S500) 55 stores the collected information in the auxiliary memory 40 and provides the instantaneous calorific value and the accumulated calorific value to the calculation unit 30 at operation S510. The control unit 55 stores the instantaneous calorific value and the calculated calorific value in the auxiliary memory 40. [

When the auxiliary memory 40 is separated from the integrated calorimeter 10 for analysis of the information stored in the auxiliary memory 40 at step S530 the control unit 55 compares the information collected by the integrated calorimeter 10 with the information stored in the calculation unit 30. [ And temporarily stores the instantaneous calorific value and the accumulated calorific value in the main memory 35 (S540). If the integrated calorimeter 10 is connected to the terminal 150 via a connection port for downloading data at high speed (S535), the data may be stored directly in the auxiliary memory 40. [

When the terminal 150 accesses the management server 100 and requests the management server 100, the management server 100 downloads or executes the pattern analysis program (S550), and the pattern analysis program analyzes the information stored in the auxiliary memory 40 (S560). The analysis result is displayed on the screen of the terminal 150, and is transmitted to the management server 100 and stored in the calorie database 105.

In addition, the pattern analysis program displays analysis results obtained by adding a current generation usage pattern to usage patterns of a plurality of generations stored in the calorific value database 105 on the screen, and allows the user to conveniently use the columns together with the analysis result A graph indicating the optimum recommended time zone is displayed (S570).

As described above, according to the integrated meter reading system 10 of the present invention, all the information collected in the integrated calorimeter 10 is stored in the auxiliary memory 40 which is detachable or built in the integrated calorimeter 10, The information collected in the integrated calorimeter 10 can be confirmed. Therefore, when a problem occurs in the integrated calorimeter 10, it is easy to grasp the problem. For example, if the user is dissatisfied with the impossibility of imposing the thermal capacity, the information collected in the integrated calorimeter 10 can be confirmed, thereby preventing conflicts in advance.

In the present invention, the patterns of thermal capacity can be determined by analyzing the collected information of each household using the pattern analysis program, and it is also possible to analyze the thermal capacity patterns not only for each household but also for a plurality of households. Accordingly, the user can be guided to the time zone in which the user can conveniently use the heat, thereby facilitating the user's convenience. In addition, the management server 100 predicts the time and the desired temperature at which the amount of usage increases sharply in advance, and raises the flow rate and the feed water temperature in advance, thereby preventing the heating from occurring. To minimize the heat loss, and so on.

The standard content or standard documents referred to in the above-mentioned embodiments constitute a part of this specification, for the sake of simplicity of description of the specification. Therefore, it is to be understood that the content of the above standard content and portions of the standard documents are added to or contained in the scope of the present invention.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. 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.

10: Integrated calorimeter 15: Supply side temperature sensor
20: water temperature sensor 25: flow rate measuring unit
30: operation unit 35: main memory
40: auxiliary memory 45: wired communication unit
50: wireless communication unit 55:
100: management server 105: calorie database
110: program database 115: wired communication module
120: wireless communication module 125: control module

Claims (21)

And an auxiliary memory for storing temperature information sensed by the supply side pipe and the return pipe, flow rate information flowing along the supply side pipe and the return pipe, and an integrated calorie value calculated by receiving the temperature information and the flow rate information, Integrated calorimeter; And
And a management server for receiving the information collected and calculated in the integrated calorimeter and monitoring the integrated calorimeter and providing a pattern analysis program for analyzing a plurality of calorie usage patterns using information stored in the auxiliary memory, Calorimeter remote meter reading system. The method according to claim 1,
In the integrated calorimeter,
Further comprising an operation unit for calculating an instantaneous calorie value by receiving the temperature information and the flow rate information, and calculating an integrated calorie value by accumulating the instantaneous calorie value. The method according to claim 1,
Wherein the auxiliary memory stores the temperature of the supply side of the pipe, the temperature of the pipe on the water return side, the flow rate, the integrated calorific value and the instantaneous calorie value calculated by the calculator, and the measurement time. The method according to claim 1,
Wherein the management server comprises a program database for storing the pattern analysis program and a calorie database for storing an integrated calorie value received from the integrated calorie meter. The method according to claim 1,
Wherein the management server further comprises a control module for providing the pattern analysis program to a terminal connected to the management server. The method according to claim 1,
The pattern analyzing program analyzes information stored in the auxiliary memory and calculates at least one of a cumulative usage amount per hour, a difference between a supply side temperature and a water temperature on a time basis, a flow amount per hour, and a relation between a supply side temperature and a water- And outputting the measured data. The method according to claim 1,
The pattern analysis program may use at least one of a cumulative amount of time for a plurality of generations, a difference between a supply-side temperature and a return-water-side temperature for each hour, a flow rate per hour, and a relation between a supply- And automatically provides analysis of thermo-ablation patterns for generations to provide pre-operational guidance information on the supply temperature and flow rate of the machine room. 8. The method of claim 7,
The pattern analysis program compares the supply temperature of household and machine room at the same time using the detailed data and the machine room measurement data received from other neighboring similar location households in the complex, Wherein the comparison of the supply side temperature and the return side temperature difference with respect to the flow rate is automatically performed to analyze the problem and provide information on the problem. 6. The method of claim 5,
Wherein the terminal is at least one of a user's terminal capable of being connected to the management server or a meter reading device held by a meter reading unit of the integrated calorimeter. The method according to claim 1,
Wherein the auxiliary memory is detachable from the integrated calorimeter. The method according to claim 1,
Wherein the integrated calorimeter further comprises a main memory for processing the collected information;
And a controller for storing the information collected and calculated by the integrated calorimeter in the main memory when the auxiliary memory is detached and for transferring information stored in the main memory to the auxiliary memory when the auxiliary memory is mounted Integrated meter reading system with integrated calorimeter. The method according to claim 1,
Wherein the auxiliary memory is incorporated in the integrated calorimeter and is connected to an external terminal through a connection port capable of downloading data at high speed. A method for remote meter reading of an integrated calorimeter for calculating integrated calorific value using information collected and installed in each household,
A storage step of storing the information collected and calculated in the integrated calorimeter in an auxiliary memory; And
And analyzing information stored in the auxiliary memory by using a pattern analysis program for analyzing a calorie usage pattern of each household, and analyzing the calorie usage pattern of each household and a plurality of generations. 14. The method of claim 13,
Wherein,
Collecting the temperature information on the supply side temperature and the temperature on the water return side detected by the supply side piping and the return side piping, and the flow rate information flowing along the supply side piping and the return side piping,
Calculating an instantaneous calorie value using the temperature information and the flow rate information, and calculating an integrated calorie value by accumulating the instantaneous calorie value,
And storing the accumulated calorific value, instantaneous calorie value, supply side temperature, return side temperature, flow rate and time in the auxiliary memory. 14. The method of claim 13,
The method of claim 1, further comprising: after the storing step, separating the auxiliary memory from the integrated calorimeter and mounting it in an external terminal; and temporarily storing the information collected in the integrated calorimeter in a main memory provided in the integrated calorimeter ;
And transmitting information stored in the main memory to the auxiliary memory when the auxiliary memory is installed in the integrated calorimeter after the analyzing step. 14. The method of claim 13,
The analyzing step analyzes the information stored in the auxiliary memory and calculates at least one of the cumulative usage amount per hour, the difference between the supply side temperature and the water temperature on the hour, the flow rate per hour, and the relation between the supply side temperature and the water temperature side difference and the flow rate, Wherein said step of measuring the temperature of the integrated calorimeter comprises the steps of: 14. The method of claim 13,
The analysis step may be performed by using at least one of a cumulative amount of use over time, a difference between a supply-side temperature and a return-air-side temperature in time, a flow rate by time, and a relation between a supply- And analyzing the integrated calorimeter remote meter reading method. 18. The method of claim 17,
Wherein the analyzing step includes extracting information on a use time zone suitable for the user to use hot water according to the calorie usage patterns of the plurality of generations. 14. The method of claim 13,
Further comprising the step of connecting the connection port to the integrated calorimeter and downloading data to an external terminal at a high speed after the storing step. 13. The method of claim 12,
Further comprising the step of, after the analyzing step, transmitting the calorie usage patterns of each household and a plurality of generations calculated in the analyzing step to a management server at a remote site to be stored. 16. The method of claim 15,
Wherein the terminal is at least one of a terminal having the household or a meter reading device held by a meter reading unit of the integrated calorimeter.

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