KR101489772B1 - boiler cost automatic maintenance system using smart phone app - Google Patents

Abstract

The present invention relates to an automatic boiler cost managing system using a smartphone application which automatically manages the temperature or a room such that, when a consumer inputs a desired amount and basic information, a central server interlocks with an amount processing system, a weather processing system, and a management processing system in order to operate a boiler of the consumer in accordance to the amount inputted. The automatic boiler cost managing system comprises: a smartphone application which receives input of a residential area, a square meter of a residential space, a boiler operation time, and user′s boiler costs; a boiler which is a heat source to heat the residential space; a room controller connected with the boiler, and installed in the inner wall surface of the residential space; and a central server connected with the room controller through a wireless Wi-Fi communication, receives the current temperature, boiler status information, and cumulative calories from the room controller, transmits the operating cycle and operating intensity of the boiler to the room controller, receives the residential area, the square meter of a residential space, the boiler operation time, and the boiler costs from the smartphone application, and transmits the calories used in the boiler, the number of additional control, and the predicted boiler costs to the smartphone application. In addition, when the central server transmits the operating cycle and operating intensity of the boiler to the room controller in accordance to the desired boiler costs during the boiler operation time through the smartphone application, the room controller controls the boiler.

Description

[0001] The present invention relates to a boiler cost automatic maintenance system using a smartphone application,

The present invention relates to an automatic management system for a boiler cost using a smartphone application, and more particularly, to a system for automatically managing a boiler cost using a smartphone application, And a system for automatically managing a boiler cost using a smartphone application that automatically manages a temperature of a house by operating a consumer's boiler in accordance with an input amount in cooperation with a management processing system.

According to the publication No. 10-2004-0041714 ("Donghae Heating System of Apartment House Utilizing Effective Thermal Efficiency Improvement Technology"), "the centralized heating system and the individual heating system, The improvement of the technology has improved much more than the previous one, but the individual heating system has a slow heating rate and heat loss due to the centralized heating type piping, corrosion loss leakage maintenance cost, higher pipe replacement cost than boiler replacement cost, There is no problem such as heating unevenness by floor, but boiler operation noise due to boiler operation noise which is neglected or watched, which is not satisfactory at the same time in two places such as shower or hot water use, Maintenance, and the risk of gas safety accidents. And the occupant who does not have the responsibility to take responsibility. The existing technology and the heating method can solve many disadvantages and problems that can not be solved, and furthermore, the heating cost is reduced, In order to achieve the above object, the present invention has been applied to heating and heating of 25 central heating apartment buildings in the past two years, From the results of the survey on fuel consumption, six types of effective thermal efficiency improvement design techniques that can reduce heating energy by eliminating or improving all possible heat loss factors appearing in the centralized heating system were quantified, , It is about 1/5 of the volume of the existing equivalent capacity and 68 cm in width It is applied to compact boiler which can be installed by passing free entrance through general door, so that it is installed in each building of apartment house, and excellent heating hot water effect and 20 ~ 30㎥ / year per 45 ~ 60% (500 won / ㎥), it is economical heating system that can recover the heating cost (KRW 40,000 / pyeong) in 2.7 ~ 4 years when operating the fuel cost of LNG fuel of 500 won / One controller manages a convenient Dongbu heating system that can control and control the whole Dongbu heating. In addition, six types of effective thermal efficiency enhancement technology and surveying technique that are utilized to realize this are the effective thermal efficiency and fuel efficiency of different types of heating systems, It is possible to compare and evaluate the whole status of heating in a single standard of consumption, so it can be seen that the energy consulting technique for evaluation and selection of difficult heating system is diverse and complicated. So that it can be utilized in various aspects of energy saving. "

Patent Document No. 10-2004-0041714 (Heating system for the dong of the apartment house utilizing the effective thermal efficiency improvement technology)

However, when the boiler is used, the consumer can be limited in using the boiler because it can not measure the boiler cost for a month, and economic difficulties arise because the boiler cost in winter can not be kept constant. In addition, unnecessary power consumption can be prevented, and energy can be efficiently and deliberately used.

The present invention solves the above-mentioned problems. When a desired amount and basic information of a consumer are inputted using a smartphone application (APP), the central server operates in cooperation with an amount processing system, weather processing system, It is possible to maintain the temperature of the house by operating the consumer's boiler according to the amount of money, and the consumer can maintain the desired temperature of the house, thereby eliminating the burden of the boiler cost. The present invention also provides a system for automatically managing a boiler cost using a smartphone application that allows a current state of a consumer to be checked and further control is possible.

In order to achieve the above object, the present invention provides a smartphone app that receives a user's residence area, residential property, boiler operation period, and boiler cost from a user; A boiler that is a heat source for heating a living space; A room controller connected to the boiler and installed on an indoor wall surface of the residence space; A controller for receiving the current temperature, the boiler state information, and the accumulated heat amount from the room controller, transmitting the boiler operation cycle and the boiler operation intensity to the room controller, A central server for receiving the occupancy rate, the boiler operation period, and the boiler cost, and transmitting the boiler usage calories, additional control times, and expected boiler costs to the smartphone app; The controller controls the boiler in the room controller when the central server transmits the boiler operation cycle and the boiler operation intensity to the room controller according to a desired boiler cost during the operation period of the boiler through the smartphone app.

In the embodiment, the central server further includes a weather processing module for predicting daytime weather information and monthly weather information using weather information received from the weather information system.

In an embodiment, the central server receives an accumulated heat quantity of the boiler, calculates an average fuel unit price for each region, calculates a monthly estimated boiler cost, and calculates an average predicted value for the intensity and the cycle of the boiler More included.

In the embodiment, the central server performs connection management when the room controller and the smartphone application are connected, notifies the smartphone application of an alarm when a special situation exceeding a preset reference value occurs, And a management processing module for managing the operation time and the operation intensity.

According to a preferred embodiment of the present invention, when a desired amount and information of a consumer are inputted by using a smartphone APP, the central server interworks with the money processing system, the weather processing system, and the management processing system algorithm, Keep the temperature automatically. Consumers can keep the temperature of the house at a desired amount, thereby relieving the burden of the boiler cost. The smartphone application (APP) using the remote control system can also check the status of the current consumer and check the current state of the house.

1 is a block diagram showing a configuration of a system for automatically managing a boiler cost using a smartphone application according to the present invention.
2 is a flowchart showing a weather processing flow in an automatic management system for boiler costs according to the present invention;
3 is a flow chart showing a flow of money processing in an automatic management system for boiler costs according to the present invention.
4 is a flowchart showing a management processing flow in an automatic management system for boiler costs according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a configuration of a system for automatically managing a boiler cost using a smartphone application according to the present invention. The system includes a boiler 11 installed in a house where a user is residing and performing heating, And a room controller 12 connected to the external central server 13 through the internet via a WIFI router provided in the house and controlled on the wall of the room so as to control the boiler 11.

A central server 13 connected to the room controller 12 through a WIFI for transmitting a boiler operation cycle and a boiler operation intensity and receiving current room temperature, boiler present state information, and accumulated calorie information from the room controller 12; , The central server 13 is connected to the wireless data communication network, that is, the 3G or 4G, and receives information on the boiler usage heat quantity, additional control times, and estimated boiler costs from the central server 13, And a smartphone application 14 for transmitting information on the operating period and the boiler cost.

The central server 13 is provided with a controller 134 for controlling the automatic management system as a whole, a controller 134 for performing TCP / IP communication with the room controller 12 and performing 3G or 4G wireless communication with the smartphone application 14 A weather processing module 131 for processing weather information, an amount-of-money processing module 132 for processing boiler cost information, an apparatus for managing devices to be connected, an alarm is notified to the user, And a management processing module 133 for executing the management processing module 133.

At this time, the user selects and inputs the residence area, the residential property, the boiler operation period, and the boiler cost by using the smartphone APP 14, which is for automatically operating the boiler by the cost of the boiler inputted from the user.

The input information is stored in the DB server 16 through the central server 13, and the history of each house is managed and the statistics of the used data are extracted.

3, the money amount processing module 132 receives the accumulated calories (calories) of the boiler 11 (S31), calculates an average unit price for each region (S32), calculates an estimated amount of one month S34) The intensity and the operating time of the boiler 11 to be operated on an average every day are calculated (S34).

2, the weather processing module 131 collects the current forecast weather of the region that the user has input using the weather station weather information system 15 (S21), anticipates the weather of the month to be applied (S22) , The weather error is calculated on a weekly basis through the weekly weekday (S23), and the monthly weather is extracted and applied (S24) while reducing the error. Several kinds of prediction algorithms can be used in this process.

4, the management processing module 133 manages the status of currently connected devices including the room controller 12 and the smartphone application 14 (S41) To the control unit 134 in step S42.

The heating intensity of the boiler is automatically adjusted and transmitted by intervals such as, for example, medium, heavy, and heavy (S43). When the cold weather is continued, Generates customer alarm information at the time of continuation and confirms whether the customer alarm is continued or not (S44)

When the cold day is continued, the remaining two weeks are calculated, and the lowest temperature and the set temperature are recalculated and reflected (S45). When the customer changes, the change algorithm is applied to reflect the setting after the recalculation (S46)

In the smartphone APP 14, the status of the boiler data used every month is displayed in a graph, and additional information such as the number of times the customer is added to the boiler is additionally provided.

11; Boiler 12; Room Controller
13; A central server 14; App (APP)
15; Meteorological Information System 16; DB server
131; Weather processing module 132; Amount Processing Module
133; Management processing module 134; The control unit
135; Communication section

Claims (4)

A smartphone application (APP) 14 for receiving the user's location, residential area, boiler operation period, and boiler cost from the user;
A boiler 11 as a heat source for heating the living space;
A room controller (12) connected to the boiler (11) and installed on an indoor wall surface of the residence space;
The controller 12 is connected to the room controller 12 through WIFI wireless communication and receives the current temperature, boiler state information, and cumulative heat amount from the room controller 12 and transmits the boiler operation cycle and the boiler operation intensity to the room controller 12 A central server 13 for receiving the residence area, residential property, boiler operation period and boiler cost from the smartphone application 14 and transmitting the boiler usage heat quantity, additional control frequency, and estimated boiler cost to the smartphone application 14 );
When the central server 13 transmits the boiler operation cycle and the boiler operation intensity to the room controller 12 according to a desired boiler cost during the operation period of the boiler through the smartphone application (APP) 14, Wherein the control unit controls the boiler (11) in the automatic management system of the boiler using the smartphone application.
The method according to claim 1,
The central server (13) is further provided with a weather processing module (131) for predicting daytime weather information and monthly weather information by using weather information received from the weather information system (15) Cost automatic management system.
The method according to claim 1,
The central server 13 receives the accumulated heat quantity of the boiler 11, calculates an average fuel unit price for each region, calculates a monthly estimated boiler cost, and calculates an average estimate of the intensity and the cycle of the boiler 11 And an amount management module (132) for managing the amount of money to be provided to the boiler.
The method according to claim 1,
The central server 13 performs connection management when the room controller 12 and the smartphone application 14 are connected to the central server 13. When a special situation exceeding a preset reference value occurs in advance, Further comprising a management processing module (133) for notifying an alarm of the boiler (11) and controlling the operation time and the operation intensity of the boiler (11).

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