KR102088790B1 - Method for Correcting of Gas Amount of Gas Boiler - Google Patents

Abstract

The present invention relates to a method for correcting a gas usage amount of a gas boiler, which calculates a corrected gas usage amount by obtaining the corrected heating value of gas or temperature, pressure, etc. on the basis of location information as well as the average heating value of the supplied gas, thereby calculating more accurate gas usage amount.

Description

Method for correcting gas consumption of gas boilers {Method for Correcting of Gas Amount of Gas Boiler}

The present invention relates to a method for calculating gas consumption, and more specifically, the gas consumption is more accurate by referring to external factors such as the calorific value, temperature, pressure, etc., as well as the average calorific value of supply gas in the gas boiler system. It relates to a gas boiler correction method for calculating the gas consumption.

In general, when the gas consumption is calculated from the consumed heat and consumption efficiency calculated from the gas boiler using the connected loads such as FAN, gas proportional valve, temperature sensor, etc., and the calorific value of the supplied gas, the calorific value of the supplied gas is the normal value of the supplied gas. Since a fixed value is used as the phosphorus heating value, an error occurs when the heating value of the actual supply gas changes.

In addition to the change in the volume of supply gas due to temperature and pressure, the heat generation of the city gas is not constant due to the introduction of the city gas calorific system in the global trend of low calorific value. Since the composition ratio of the gas to be different is different from the average calorific value, as a result, a difference occurs in the calculated gas consumption.

In addition, there is a problem in that additional costs are incurred when a gas component meter, a gas pressure gauge, etc. are installed to accurately check the calorific value of the supply gas.

In order to improve this problem, a method for calculating and displaying a gas amount for displaying gas consumption of a boiler is disclosed in Korean Patent Registration No. 10-1758812.

1 is a flow chart of a gas amount calculation and display process for displaying the gas consumption of a boiler according to the prior art. If the combustion command signal is determined as a result of the control device, checking the type of gas and detecting the outside temperature (Tout) And calculating a correction multiple (Tgas) according to the type of gas used, using the calculation formula stored in the memory device, and detecting the current value of the rotational speed or the proportional valve of the current blowing fan, Calculating the amount of heat gas (kW; Q1) corresponding to the current value of the rotational speed or the proportional valve of the current fan, and multiplying the amount of heat gas (Q1) by a correction multiple (Tgas) to correct the amount of heat gas (kW; Q2) It comprises a step of calculating, and displaying the calculated amount of calorific gas (Q2) as the amount of gas in the display unit provided in the temperature control device, and then returning to the step of detecting the outside temperature (Tout).

Through each of the above steps, the prior art calculates the standard gas amount according to the number of revolutions of the blower fan or the proportional valve to supply gas to the burner of the boiler, and then uses the outside air temperature detected by the outside temperature detecting device to determine the gas amount ( That is, by correcting and providing the gas amount calculated based on the gas temperature of 15 ° C to the consumer, it was possible to improve the accuracy according to the display of the gas consumption of the boiler.

However, the gas amount calculation and display method for displaying the gas consumption of the boiler according to the prior art only refers to the outside temperature as a correction factor for accurate gas consumption calculation, and the exact gas heat amount of the gas supplier is not referenced, thereby more accurate gas There was a problem calculating the usage.

Domestic registered patent No. 10-1758812 (announcement date 2017.07.19)

Therefore, in order to improve the problems of the prior art, the present invention calculates the corrected gas consumption by obtaining the corrected calorific value or temperature, pressure, etc. based on location information, as well as the average calorific value of the supply gas of the gas boiler. An object of the present invention is to provide a method for calibrating the gas usage of a gas boiler to calculate the usage amount.

In the gas boiler calibration process for achieving the object of the present invention, in the gas consumption correction method for calculating the gas consumption according to the amount of gas generated by the gas boiler, the controller controls the gas consumption. A first process of obtaining information from an external device; A second process of obtaining a gas-corrected heat generation amount (K ') from the gas information obtained in the first process; And a third process of calculating the corrected gas usage amount G 'using the gas corrected heat generation amount K' in the second process.

Comparing the average heat generation amount (K) of the gas embedded in the control unit with the corrected heat generation amount (K ') obtained in the first process in addition to the second process; And performing the third process when the gas average heat generation amount (K) and the gas corrected heat generation amount (K ') are different.

The gas boiler correction method of the gas boiler according to the present invention does not need to analyze the gas component using an additional device such as a gas component analyzer to calculate the gas consumption of the supplied gas, and obtains the gas correction heat generation amount through an external server to use the gas Since it calculates, there is an effect that can reduce the additional installation cost.

In addition, it is possible to obtain a change in the calorific value of the supply gas, and thus has an effect of automatically correcting an error in gas usage, and an error in gas usage can be automatically corrected according to changes in gas temperature and gas pressure. It has the effect of calculating the exact gas consumption.

1 is a flow chart of a gas amount calculation and display process for displaying the gas consumption of a boiler according to the prior art,
2 is a schematic configuration diagram of a gas consumption correction system of a gas boiler for implementing the present invention,
Figure 3 is a flow chart of the gas consumption correction process of the temperature control device according to an embodiment of the present invention,
4 is a flow chart of the gas usage calculation process according to the acquisition path of the gas correction heat generation amount and the correction coefficient in FIG. 3,
5 is a flow chart of a process for calculating the gas usage and gas calibration usage between a gas boiler and a temperature control device according to an embodiment of the present invention.

The above-described features and effects of the present invention will become more apparent through the following detailed description in connection with the accompanying drawings, and accordingly, those skilled in the art to which the present invention pertains can easily implement the technical spirit of the present invention. Will be able to.

The present invention can be applied to various changes and may have various forms, and is intended to illustrate specific embodiments and to explain in detail in the text.

However, this is not intended to limit the present invention to specific disclosure forms, and it should be understood that all modifications, equivalents, and substitutes included in the spirit and scope of the present invention are included.

Terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention.

Referring to the accompanying drawings, a gas boiler correction system for a gas boiler according to a preferred embodiment of the present invention will be described in detail as follows.

2 is a configuration diagram of a gas boiler correction system for gas boilers for implementing the present invention, a temperature detection sensor 102 for detecting heating temperature, hot water temperature, and outside temperature, a gas usage detection device 103, and a flame The detection device 104, the blower fan driving device 105, the ignition device 106, the gas supply driving device 107, and the signals of the respective sensors and devices 102 to 107 are input to receive gas consumption. The control unit 110 that calculates, and the server 120 that provides gas information including the amount of gas generated by the control unit 110, communicates with the control unit 110 and the server 120, and generates gas to the control unit 110. It is composed of a user terminal 130 that provides information, but it is also possible to additionally configure the IoT terminal provided to the server 130 by detecting outside temperature / pressure of location information in addition to the user terminal 130.

The control unit 110 calculates the gas consumption G using the heat quantity Q and the gas average heat generation K, or the calculation unit 111 for calculating the corrected consumption G 'as the gas corrected heat generation K' W, a storage unit 112 that stores the average gas heat generation amount (K), the heat quantity (Q), and stores the calculated gas consumption (G) and the corrected consumption (G '), and the user's temperature setting, gas heat generation, etc. Input unit 113 for setting, a display unit 114 for displaying the current state of the gas boiler, gas usage (G) or gas calibration usage (G '), and the server 120 or the user terminal 130 It is configured as a communication unit 115 for communication, and may be selectively configured in a gas boiler or a temperature control device, or may be configured respectively.

The server 120 provides gas information remotely by using an application, and the gas boiler app server 121 for managing and controlling the gas boiler and the gas calorific value K 'supplied to each region periodically Or a gas supplier server 122 provided in real time and a weather server 123 providing weather information such as temperature, air pressure, and humidity for each region.

In addition, the gas-corrected heat generation amount K 'is obtained by a user's direct input through a user terminal or an input unit communicating with the control unit 110, and the gas supplier server 122 receives gas supplier information of the region. It is provided to the user terminal 130 and provides a gas-corrected calorific value (K ') of gas supplied by a gas supplier corresponding to the location information selected and input through the user terminal 130.

The gas consumption correction process of the gas boiler according to the embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 2 to 5 as follows.

First, FIGS. 3 and 4 are flow charts of a gas boiler correction process of a gas boiler according to an embodiment of the present invention.

When the Internet is connected, the control unit 110 receives the current position of the gas boiler through the communication unit 115 through the user terminal 130 or the IoT terminal and stores it in the storage unit 112.

The control unit 110 includes a gas-corrected heat generation amount K 'for the current region of the gas boiler from the gas boiler app server 121 or the gas provider server 122 through the communication unit 115 to calculate gas usage. Gas information is obtained by requesting the gas information.

Gas consumption is calculated by using the gas information obtained from the operation unit 111 of the control unit 110.

That is, the calculation unit 111 calculates the gas correction usage amount G 'by the following equation (1) using the gas corrected heat generation amount K' included in the gas information.

   Here, Q is the heat amount, K 'gas corrected heat generation amount, and E is the thermal efficiency.

On the other hand, if there is a gas average heat generation amount (K) of the gas pre-stored in the storage unit 12, it is possible to calculate the gas consumption (G) by the following equation (2).

If the gas consumption (G) is calculated, the gas corrected consumption (G ') can be calculated by the following equation (3) using the gas corrected calorific value (K') and the average gas calorific value (K).

Here, if the gas corrected calorific value (K ') and the average gas calorific value (K) are the same, the gas consumption (G) is displayed on the display unit 114, and if it is different, it is calculated by Equation 1 or Equation 3. The calculated gas correction usage amount G 'is calculated and displayed on the display unit 114.

In addition, the calculated gas correction usage amount G 'is influenced by the gas temperature T and the gas pressure P, so if it is higher than the reference value, it is set as the correction coefficient Y and the second gas correction usage amount G " Can be calculated.

Here, the gas temperature T may be provided with the local weather temperature through the gas boiler app server 121 or the weather server 123, or the user may be directly provided through the input unit 113 or the user terminal 130. have.

The gas pressure P may be provided through the gas boiler app server 121 or the gas supplier server 122.

Using the obtained gas temperature (T) and gas pressure (P), the second gas correction usage amount (G ") may be calculated through Equation 4 below.

4 is a detailed flowchart of a process of calculating gas consumption according to a route for obtaining weather information, and when the control unit 110 is connected to the Internet, the gas corrected heat generation amount K through the communication unit 115 in real time. '), Gas temperature (T), gas pressure (P), such as gas information obtained in real time through the server 120 through the calculation unit 111 through the gas calibration capacity (G') and the second gas calibration capacity ( G ") is displayed through the calculation and display unit 114.

However, when the user is not connected to the Internet, when the user directly inputs through the user terminal 130 or the input unit 113, the input gas heating amount is used, otherwise the average gas heating amount K is used.

If there is no request for input of gas information from the user terminal 130, the storage unit 112 uses the gas correction heat generation amount K 'recently updated and stored through the Internet or the user terminal 130 to correct the gas usage amount (G ') Is calculated using Equation 1 or Equation 3.

In addition, the gas temperature T, which is the correction coefficient Y, is inputted by the user through the user terminal 130 or the temperature value is input from the temperature detection sensor 102 when the control unit 110 is not connected to the Internet. One temperature value is used, the Internet stored in the storage unit 112, or a recently updated gas temperature T input by the user, or a normal room temperature is determined as the gas temperature T value.

The second gas correction usage amount G "is calculated by using Equation 4 using the gas corrected heat generation amount K 'and gas temperature T determined through the above process.

5 is a flow chart of a gas consumption correction process when the control unit is provided in each of the gas boiler and the temperature control device. Referring to this, the control unit built in the gas boiler 100 calculates the heat amount Q when the gas is burned. Using this, the gas usage (G) is calculated through Equation (2), and the gas usage (G) is accumulated, but the calorific value (Q) and gas usage (G) are calculated and accumulated until a preset update cycle. Repeatedly, the calculated cumulative gas consumption (G) is transmitted to the temperature controller 200.

The temperature control device 200 compares the gas calibrated calorific value K 'obtained from the built-in control unit with the average gas calorific value K received from the gas boiler 100, and when the same is the same, the gas boiler 100 The received gas consumption (G) is determined as the current gas consumption, and if different, the obtained gas corrected heat generation (K ') is applied to Equation 3 to calculate the gas corrected usage (G').

 As described above, although the gas usage correction method of the gas boiler system according to the embodiment of the present invention has been described by the limited embodiments and the drawings, it is not limited by the embodiments, and has ordinary knowledge in the technical field to which the present invention pertains. Of course, various modifications and variations are possible within the scope of the technical spirit of the present invention and equivalents of the claims to be described below by a person having a problem.

100: gas boiler 200: temperature control device
102: temperature detection sensor 103: gas consumption detection device
104: flame detection device 105: blowing fan driving device
106: ignition device 107: gas supply driving device
110: control unit 111: operation unit
112: storage unit 113: input unit
114: display unit 115: communication unit
120: server 121: gas boiler app server
122 Gas provider server 123: Weather server
130: user terminal

Claims (10)

In the gas consumption correction method for calculating the gas consumption according to the gas heating amount in the control unit for controlling the gas boiler,
The control unit includes a first process of obtaining gas information affecting gas consumption measurement from an external device;
A second process of obtaining a gas-corrected heat generation amount (K ') from the gas information obtained in the first process; And
Including a third process for calculating the corrected gas consumption (G ') using the gas-corrected heat generation amount (K') in the second process;
In the first process, the gas information includes a gas calorific value (K ') of the region, and is provided from a gas boiler app server or a gas supplier server for managing and providing the gas boiler. Gas boiler correction method. According to claim 1,
The control unit is provided in one of the gas boiler or the temperature control device, the gas usage correction method of the gas boiler, characterized in that each provided. According to claim 1,
Comparing the gas average heat generation amount (K) preset in the control unit with the gas corrected heat generation amount (K ') obtained in the second process in addition to the second process; And
And performing the third process when the gas average heat generation amount (K) and the gas corrected heat generation amount (K ') are different from each other. delete According to claim 1,
The gas correction heat generation amount (K ') is obtained by the user's direct input through a user terminal or an input unit communicating with the control unit, the gas boiler correction method of gas consumption. According to claim 1,
The gas supplier server provides gas supplier information of a local area to a user terminal, and provides a gas-corrected calorific value (K ') of gas supplied by a gas supplier corresponding to location information selected and input through the user terminal. Gas boiler gas consumption correction method. The method of claim 1 or 5,
Using the gas-corrected calorific value (K ') to calculate the gas corrected consumption (G'),
The gas correction usage amount G 'is calculated as "G' = Q / (K '* E)",
Here, Q is the amount of heat, E is the gas consumption correction method of the gas boiler, characterized in that the thermal efficiency. The method of claim 1 or 5,
Using the gas-corrected calorific value (K ') to calculate the gas corrected consumption (G'),
The gas correction usage amount (G ') is calculated as "G' = K * G / K '",
Here, K is the average heating value of gas, and G is the gas usage correction method of the gas boiler, characterized in that the gas consumption. According to claim 1,
The second gas correction usage amount (G ") according to the gas temperature (T) and the gas pressure (P) is calculated as the correction coefficient (Y) to the gas correction usage amount (G ') of the third process,
The second gas corrected usage amount (G ") G" = G '* Y is a fourth process for calculating; further comprising a gas boiler correction method of the gas consumption. The method of claim 9.
The gas temperature (T) is provided from the gas boiler app server, or is provided through an input unit or a user terminal by the user,
The gas pressure (P) is a gas boiler method of calibrating the gas usage of the gas boiler, characterized in that provided through an app server or a gas provider server.

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