WO2013168897A1

WO2013168897A1 - Boiler having exhaust gas temperature control unit using temperature sensor and method for controlling same

Info

Publication number: WO2013168897A1
Application number: PCT/KR2013/002832
Authority: WO
Inventors: 허창회
Original assignee: 주식회사 경동나비엔
Priority date: 2012-05-10
Filing date: 2013-04-05
Publication date: 2013-11-14
Also published as: US20150114314A1; KR20130126116A; CA2872880A1; EP2868994A4; KR101337203B1; EP2868994A1

Abstract

The present invention provides a boiler having an exhaust gas temperature control unit using a temperature sensor, the boiler comprising: a combustion and exhaust unit having a burner for combusting fuel to generate heat, an exhaust port for discharging the combustion residue outside the boiler, and an exhaust pipe connected to the exhaust port, for guiding the combustion residue into the open air; a circulation unit for circulating hot water to provide hot water and heat for the user; a heat exchange unit for absorbing the heat generated from the burner to make hot water and for supplying the hot water to the circulation part, with both ends of the heat exchange part being connected to the circulation part; and a control unit including an outlet temperature sensor arranged in the outlet of the heat exchange unit, for measuring the temperature of the hot water, an inlet temperature sensor arranged in the inlet of the heat exchange unit, for measuring the temperature of the cold water introduced from the circulation unit, and a controller for calculating the temperatures measured by the inlet and outlet temperature sensors so as to control whether to operate the boiler or not. Thus the exhaust pipe may be made of cheap PVC and the use of PVC facilitates installation. Further, the existing temperature sensors may be used to control the boiler and thus an additional control device is not needed, thereby reducing installation costs.

Description

Boiler with exhaust gas temperature control device using temperature sensor and its control method

The present invention relates to a boiler that can use the exhaust pipe made of PVC material, specifically, by controlling the temperature of the exhaust gas using a temperature sensor mounted inside the combustion device such as a boiler or a water heater to exhaust the exhaust pipe made of PVC material The present invention relates to a boiler having an exhaust gas temperature control device using a mountable temperature sensor and a control method thereof.

Combustion equipment is a collective term for a boiler or water heater, and supplies water to rooms, offices, greenhouses by heating water with combustion heat generated by burning gas or oil, and supplies warm hot water by heating cold water.

The combustion chamber of such a combustion apparatus is equipped with an exhaust pipe that serves to discharge the exhaust gas discharged after being combusted in the combustion chamber. In the case of houses built in North America such as Canada or the United States, the house is relatively large and the boiler or water heater is installed mainly in the basement or remote place, so that the outside of the house is connected by connecting a plurality of PVC pipes to take out the supply and exhaust ports to the outside. Is pulling out. This is because when using the exhaust pipe made of stainless steel takes a lot of installation cost, there is a problem that the economy is inferior.

In this case, the exhaust pipe was mainly made of stainless steel because the product was not licensed as a single product in Korea.However, since April 2012, PVC can be used when installed as a composite exhaust box due to a change in related regulations. The product will be changed to enable the use of PVC.

Therefore, in order to reduce the installation cost, if the exhaust pipe of the combustor is mainly used as a PVC pipe, each pipe should be bonded to each other using a bond (PVC cement) to each other.

In the case of the above-mentioned PVC pipe, the exhaust gas of the combustion device is allowed only in the products below 65 ° C. However, there are some households that use a water heater for heating, and the exhaust gas is frequently generated when the exhaust gas exceeds 65 ° C. As described above, when the exhaust gas exceeds 65 ° C., the PVC pipe or the coupling portion of the pipe melts, and the exhaust gas leaks, thereby causing a safety accident.

Therefore, in order to compensate for these disadvantages, if the set temperature of the water heater and the boiler is limited, a separate control device must be provided to increase the cost due to the complicated structure and to use the CPVC pipe that is safe even when the exhaust gas rises to about 90 ° C. This also has a problem that the installation cost increases.

The present invention was invented to solve the above problems, by measuring the inlet temperature of the heat exchanger and the outlet temperature of the heat exchanger by controlling the temperature of the exhaust gas below 65 ℃ temperature sensor that can use the PVC pipe in the exhaust port It is an object of the present invention to provide a boiler and a method of controlling the exhaust gas temperature control apparatus using the same.

The boiler having an exhaust gas temperature control apparatus using the temperature sensor of the present invention for achieving the above technical problem, the exhaust port for discharging the burner and the burned combustion residues and the like to burn the fuel to the outside of the boiler and the A combustion exhaust portion connected to an exhaust port, the combustion exhaust portion configured to exhaust the combustion residues into the atmosphere; A circulation unit circulating hot water to provide hot water and heating to the user; A heat exchanger which absorbs heat generated from the burner to make hot water and is connected to both ends of the circulation part to supply hot water to the circulation part; An outlet temperature sensor formed at an outlet of the heat exchanger to measure a temperature of hot water and an inlet temperature sensor formed at an inlet of the heat exchanger to measure a temperature of cold water flowing from the circulation part, and at the outlet temperature sensor and the inlet temperature sensor A controller configured to control the operation of the boiler by calculating the measured temperature value; Characterized in that it comprises a.

In addition, the exhaust pipe, characterized in that formed of PVC material.

In addition, the method for controlling the exhaust gas temperature using the temperature sensor of the present invention initializes the exhaust gas temperature calculation value of the controller when the boiler is in operation and performs combustion for the first time. Measuring and storing an inlet temperature and an outlet temperature of the heat exchanger, calculating a temperature of the exhaust gas in the controller, and determining whether the calculated exhaust gas temperature in the controller exceeds a meltable temperature of the exhaust pipe Stopping and controlling the combustion operation when the exhaust gas temperature calculated by the controller exceeds the meltable temperature of the exhaust pipe, and when the exhaust gas temperature calculated by the controller is below the meltable temperature of the exhaust pipe, Including the step of controlling the combustion operation to proceed It features.

In addition, the meltable temperature of the exhaust pipe is characterized in that 65 ℃.

According to the boiler and the method of controlling the exhaust gas temperature control device using the temperature sensor of the present invention, the material of the exhaust pipe can be used as a low-cost PVC, the installation is easy by the use of PVC, and controlled by the existing temperature sensor It is possible to reduce the installation cost because there is no need for a separate control device.

1 is a configuration diagram of a boiler having an exhaust gas temperature control apparatus using a temperature sensor according to the present invention;

2 is a flowchart illustrating a method for controlling exhaust gas temperature using a temperature sensor according to the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiment of the present invention may be modified in various forms, the scope of the invention should not be construed as limited to the embodiments described in detail below. This embodiment is provided to more completely explain the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings and the like may be exaggerated to emphasize a more clear description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention are omitted.

First, referring to Figure 1, the boiler having an exhaust gas temperature control apparatus using the temperature sensor of the present invention is a combustion exhaust unit 100 for burning the supplied fuel and discharge the burnt smoke or combustion residues to the outside of the boiler and A heat exchanger 200 for absorbing heat generated by the combustion exhaust unit 100 to supply hot water, and a circulation unit 300 for providing hot water and heating to the user by circulating the hot water supplied from the heat exchanger 200 and a boiler. It is configured to include a control unit 400 for controlling the operation of the.

The combustion exhaust unit 100 is an inlet 110 for sucking air necessary for combustion and a burner 120 for generating heat by burning fuel and an exhaust port for discharging the residues of the combustion from the burner 120 to the outside of the boiler ( 130 and an exhaust pipe 140 connected to the exhaust port 130 to discharge the exhaust gas into the atmosphere.

Therefore, the air required for combustion is delivered to the burner 120 through the inlet port 110, and passes through the exhaust port 130 and the exhaust pipe 140 through the heat exchange part 200 and is discharged to the atmosphere.

The heat exchanger 200 absorbs heat generated from the burner 120 to make hot water, and the circulation unit 300 is connected to both ends to supply hot water to the circulation unit 300.

The circulation unit 300 receives hot water from the heat exchanger 200 and provides a user with heating and hot water. In this case, the circulation part 300 is configured to include a circulation pump 310 for circulating the remaining relatively cold water back to the heat exchanger 200 again.

The control unit 400 is installed at the outlet of the heat exchange unit 200 and is installed at the inlet of the outlet temperature sensor 410 and the heat exchange unit 200 to measure the temperature of the hot water flowing from the circulation unit 300. Inlet temperature sensor 420 for measuring the temperature of the cold water, and the controller 430 for controlling the operation of the boiler by calculating the temperature value measured by the outlet temperature sensor 410 and the inlet temperature sensor 420. It is configured by.

Therefore, the temperature of the hot water absorbing the heat generated by the burner 120 and the temperature of the relatively cold water used by the user may be calculated to detect the temperature of the exhaust gas discharged through the exhaust port 130.

The temperature of the exhaust gas can be calculated by the following formula.

Exhaust gas temperature = (heat exchanger inlet temperature + heat exchanger outlet temperature) / 2

The exhaust pipe 140 connected to the exhaust port 130 to discharge the exhaust gas into the atmosphere is allowed to be used within the meltable temperature of the exhaust pipe when the material is PVC. Taking this into account, current is permitted when the exhaust gases of combustion apparatus are below about 65 ° C. If the exhaust gas exceeds 65 ° C, the PVC pipe or the coupling part melts and the exhaust gas leaks, resulting in a safety accident.

Accordingly, the controller 430 calculates the temperature values of the outlet temperature sensor 410 and the inlet temperature sensor 420 to always monitor the current exhaust gas temperature, and the exhaust gas temperature can melt the exhaust pipe 140 made of PVC. When the temperature exceeds about 65 ° C., the burner 120 may be turned off to stop the combustion, and thus the temperature of the exhaust gas may be controlled to prevent the occurrence of a safety accident.

In addition, when the temperature of the exhaust gas is about 65 ° C. or less, re-combustion is performed, and consequently, the installation of the PVC exhaust pipe 140 is possible, thereby simplifying installation, and using a conventional temperature sensor and a low-cost controller. Installation cost is low because no expensive control device is required.

Hereinafter, an exhaust gas temperature control method using the temperature sensor of the present invention will be described with reference to FIG. 2.

When the boiler is in an operating condition and performs a combustion operation for the first time, that is, when the circulation pump 310 configured in the boiler is operated, the controller 430 in the boiler initializes the exhaust gas temperature calculation. (See S10)

The controller 430 measures and stores the inlet temperature T1 and the outlet temperature T2 of the heat exchanger through the outlet temperature sensor 410 and the inlet temperature sensor 420. (See S20 ~ S30)

In the next step, the controller 430 calculates the temperature of the exhaust gas using the following equation. (See S40)

() Heat exchanger inlet temperature (T2) + heat exchanger outlet temperature (T1)) / 2

Accordingly, the controller 430 determines whether the calculated exhaust gas temperature exceeds the meltable temperature of the exhaust pipe 140, and stops the combustion operation when the exhaust pipe 140 exceeds the meltable temperature to adjust the temperature of the exhaust gas. The exhaust pipe 140 is always kept below the meltable temperature so that the exhaust pipe 140 made of PVC can be used. (See S60 ~ S70)

Meanwhile, in the step of determining whether the exhaust gas temperature exceeds the meltable temperature of the exhaust pipe 140, a series of combustion operations, that is, ignition and combustion processes, are performed when the exhaust pipe 140 is lower than the meltable temperature. (See S80)

The embodiment of the boiler and the control method having an exhaust gas temperature control apparatus using the temperature sensor of the present invention described above is merely illustrative, and those skilled in the art to which the present invention pertains It will be appreciated that various modifications and other equivalent embodiments are possible. Therefore, it will be understood that the present invention is not limited to the forms mentioned in the above detailed description. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims. It is also to be understood that the present invention includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims.

[Description of the code]

110: combustion exhaust

110: intake vent

120: burner

130: exhaust port

140: exhaust pipe

200: heat exchanger

300: circulation

310: circulation pump

400: control unit

410: outlet temperature sensor

420: inlet temperature sensor

430: controller

Claims

A burner 120 that burns fuel to generate heat and an exhaust port 130 for discharging the burned combustion residue to the outside of the boiler and an exhaust pipe 140 connected to the exhaust port 130 to discharge the combustion residue to the atmosphere. Combustion exhaust portion 100 is composed of;

A circulation unit 300 circulating hot water to provide hot water and heating to a user;

A heat exchanger 200 absorbing heat generated from the burner 120 to make hot water, and connected to the circulation unit 300 at both ends to supply hot water to the circulation unit 300;

Installed at the outlet of the heat exchanger 200 to measure the temperature of the hot water outlet temperature sensor 410 and the inlet of the heat exchanger 200 to measure the temperature of the cold water flowing from the circulation 300 A controller 400 comprising a controller 430 for controlling the operation of the boiler by calculating a temperature value measured by the inlet temperature sensor 420, the outlet temperature sensor 410, and the inlet temperature sensor 420;

Boiler having an exhaust gas temperature control device using a temperature sensor characterized in that it comprises a.
The method of claim 1,

The exhaust pipe 140,

Boiler having an exhaust gas temperature control device using a temperature sensor, characterized in that formed of PVC material.
Initializing the exhaust gas temperature calculation of the controller 430 when the boiler is in an operating condition and performs the first combustion operation (S10);

Measuring and storing the inlet temperature T1 and the outlet temperature T2 of the heat exchanger through the outlet temperature sensor 410 and the inlet temperature sensor 420 in the controller 430 (S20 to S30);

Calculating a temperature of the exhaust gas in the controller 430 (S40);

Determining whether the calculated exhaust gas temperature in the controller 430 exceeds a meltable temperature of the exhaust pipe 140 (S60);

Stopping and controlling the combustion operation when the exhaust gas temperature calculated by the controller 430 exceeds the meltable temperature of the exhaust pipe 140 (S70);

When the temperature of the exhaust gas calculated by the controller 430 is lower than the exhaust pipe 140 at a meltable temperature, controlling a series of combustion operations and controlling them (S80);

Exhaust gas temperature control method using a temperature sensor, characterized in that consisting of
The method of claim 3,

The exhaust pipe 140 meltable temperature is,

Exhaust gas temperature control method using a temperature sensor, characterized in that 65 ℃