KR20100091360A - Boiler with double temperature sensor and method of determining temperature sensor - Google Patents

Abstract

PURPOSE: A boiler with a double-temperature sensor and a temperature sensor determining method are provided to facilitate the installation of pipes and reduce installation time because a pipe adapter can be positioned at a left side and a right side. CONSTITUTION: A boiler(100) comprises pipe adapters(120,130), temperature sensors(140,150), and a controller(160). The pipe adapter is connected to the upper and lower parts of the left side and the right side of the boiler. The temperature sensor is installed in the left and right lower pipe adapters. The temperature sensor senses the temperature of supplied water or circulating water. The controller receives the signals of the temperature sensor and controls the boiler.

Description

Boiler with double temperature sensor and Method of determining temperature sensor

The present invention relates to a boiler having a double temperature sensor and a temperature sensor determination method, and more particularly, having a double temperature sensor that can conveniently install the boiler by determining the temperature sensor regardless of the pipe direction when installing the boiler. A method for determining a boiler and a temperature sensor.

A boiler is a device for heating water with combustion heat generated by burning fuel, and then supplying the heated water to a necessary place such as heating. In particular, a boiler is widely used as a basic heating and hot water supply facility in a general household. Boilers are classified in various ways according to the criteria such as the heat source for heating the heating water and the fuel used.For example, depending on the fuel used, a boiler and a gas boiler using LPG or LNG are used as fuel. It is classified as oil boiler using kerosene as fuel.

Looking at the configuration of a general boiler, the boiler is a gas burner provided to burn the gas introduced through the gas supply pipe in the combustion chamber to generate combustion heat and is installed on the gas burner to receive the heat of combustion of the gas burner to heat the heating water. It is equipped with a main heat exchanger and a main controller that controls the series of combustion processes and the operation of the boiler by receiving input signals from the room cone operated by the user.

At this time, a lower part of the gas burner is provided with a blower for supplying air to promote combustion, one side of the gas burner is provided with an ignition plug for igniting the gas burner, and the upper part of the combustion chamber has a series of combustion processes. There is provided an exhaust port provided for exhausting the combustion gas generated in the.

One side of the blower is provided with a wind pressure sensor for measuring the pressure of the air flowing into the blower for proportional control of the boiler.

In addition, a water transfer pipe for sending the heating water heated from the main heat exchanger to the heating water supply pipe or the hot water supply pipe is connected to the main heat exchanger, and the water transfer pipe is branched into the heating water supply pipe and the hot water supply pipe at the point of heating line and A three-way valve is provided to selectively open and close the hot water line.

In the boiler, a water storage tank is provided on the heating return pipe to temporarily heat the room and keep the water (heated water) returned in a constant state at all times, and the water stored in the water storage tank is supplied through the water supply pipe. A circulation pump for supplying the main heat exchanger is provided.

In particular, the boiler is a direct water inlet pipe for supplying direct water (cold water) in accordance with an increase in the amount of hot water required to supply hot water according to a user's need, and connected to the direct water inlet pipe and at the same time water is supplied from the water storage tank. The hot water supply heat exchanger is provided to dilute the hot water supplied to the water transfer pipe and to supply the hot water supply pipe.

In addition, the room cone may not only input the set temperature by the user, but also operate the boiler, and have a function of displaying the state of the boiler.

In the boiler having such a configuration, when the boiler is operated, the spark is splashed by the spark plug to ignite a gas burner to combust the gas supplied to the gas supply pipe. Supply to burner to promote combustion.

Then, the water stored in the water storage tank is operated to supply the main heat exchanger installed in the combustion chamber through a water supply pipe by operating a circulation pump to heat the water flowing into the combustion heat of the gas burner.

At this time, the combustion gas generated inside the combustion chamber is discharged to the outside through the exhaust port. Then, the water (heated water) heated through the main heat exchanger is supplied through the water transfer pipe.

At this time, when the user wants to use the heating water for heating, the three-way valve operates to supply the heating water through the heating water supply pipe to perform indoor heating. After the heating is performed, the heating water is supplied through the heating return pipe. It is returned and temporarily stored in the water storage tank.

In general, there are two types of boiler installation: a wall-mounted type installed on the wall and a floor-type mounted on the floor. When the boiler is installed, the wall-mounted pipe is made at the bottom of the boiler in one direction, so that the problem of moving the temperature sensor according to the pipe direction does not occur.

However, since the floor type can not be the bottom pipe of the wall-hung type is provided with a pipe adapter on both the left and right side to the left or right pipe according to the direction to be piped.

In this case, the boiler installs a temperature sensor on the connected pipe adapter on the left or right side of the boiler to detect the supply or return temperature.If you want to pipe on the other side where the temperature sensor is installed, move the temperature sensor. In addition to the inconvenience of having to finish and there is a problem that may occur during the temperature sensor reinstallation process.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a boiler having a dual temperature sensor that does not need to be installed by moving the temperature sensor according to the pipe direction when installing the boiler.

Another object of the present invention is to provide a method for determining a temperature sensor used to detect the actual supply or return temperature in the boiler having a dual temperature sensor.

Boiler equipped with a dual temperature sensor of the present invention for realizing the object as described above is installed in the pipe adapter is connected to the upper and lower left and right of the boiler, the pipe adapter of the lower left and right sides of the supply water or return temperature It is characterized in that it comprises a temperature sensor for detecting, and a controller for controlling the boiler to determine the temperature sensor currently being used to receive the signal output from the temperature sensor.

Method for determining the temperature sensor in the boiler with a dual temperature sensor of the present invention for realizing another object of the present invention comprises the steps of measuring the temperature using a temperature sensor installed in the pipe adapter connected to both sides of the lower boiler before operation of the circulation pump, Measuring temperature using the temperature sensor installed in the pipe adapter connected to both sides of the boiler lower after the operation of the circulation pump, determining the temperature sensor with a temperature change of the two temperature sensors and the temperature sensor with the temperature change present Characterized in that it comprises the step of determining with the temperature sensor being used.

According to the boiler and the temperature sensor determination method having a double temperature sensor according to the present invention, the direction of the pipe adapter can be in either the left or the right direction when the floor boiler is installed. Not only does it eliminate the inconvenience and time waste of dismantling, reassembling and finishing the temperature sensor, but it also prevents damage or malfunction of the product by additional work.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram showing a boiler having a dual temperature sensor according to the present invention.

The boiler 100 having the dual temperature sensor of the present invention is installed in the pipe adapters 120 and 130 connected to the upper and lower left and right sides of the boiler, and installed in the pipe adapters at both the left and right lower sides to detect the supply water or the return temperature. It includes a temperature sensor (140,150), and a controller 160 for receiving a signal output from the temperature sensor to determine the temperature sensor currently used and to control the boiler.

The present invention in order to solve the problem that the breakage may occur in the process of reinstalling the temperature sensor and the process of reinstalling the temperature sensor in accordance with the pipe direction when installing the floor boiler in the left side of the pipe adapter 130 The temperature sensor 140 is installed in the lower pipe adapter to detect the supply water or the return temperature. Likewise, the temperature sensor 150 is installed in the lower pipe adapter of the right pipe adapter 140.

Therefore, it is not necessary to reinstall the temperature sensor regardless of the pipe direction when installing the boiler by installing the temperature sensor in the pipe adapter double. The configuration of the installation of the temperature sensor and the internal configuration of the boiler are obvious to those skilled in the art and will be omitted here.

2 is a flow chart illustrating a temperature sensor determination method in a boiler having a dual temperature sensor according to the present invention.

Method for determining the temperature sensor in the boiler with a dual temperature sensor of the present invention is to measure the temperature using a temperature sensor installed in the pipe adapter connected to both sides of the boiler before the operation of the circulation pump (S10), both sides of the boiler lower after the operation of the circulation pump Measuring a temperature using a temperature sensor installed in the pipe adapter connected to (S20), determining the temperature sensor with a temperature change of the two temperature sensors (S30) and the temperature sensor with the temperature change is currently used Determining by the temperature sensor which is present (S40).

The two temperature sensors 140 and 150 are connected to the controller 160 for controlling the boiler. When the driving power is input to the controller 160, the controller 160 continuously receives the inputs of the two temperature sensors 140 and 150. The memory is stored in the internal memory and the temperature change amount of each temperature sensor is calculated using the input data before and after the operation of the circulation pump 110 (S10 and S20).

The controller 160 compares the calculated temperature change with each other, and when the temperature change of one of the temperature sensors is greater than a predetermined temperature and larger than the temperature change of the other, the boiler is mounted in a direction in which the temperature sensor has a large temperature change. It is determined that the piping is made (S30).

Therefore, the temperature sensor having a large amount of temperature change is determined as the temperature sensor of the boiler, and then temperature control is performed (S40).

Therefore, when installing the floor boiler, the direction of the pipe adapter can be in either the left or the right direction, so even if the pipe is installed in the direction without the temperature sensor, the inconvenience and time wasted to disassemble, reassemble and finish the additional temperature sensor. Not only can it be removed, but it can also prevent damage or malfunction of the product by additional work.

It is apparent to those skilled in the art that the present invention is not limited to the above embodiments and can be practiced in various ways without departing from the technical spirit of the present invention. will be.

1 is a block diagram showing a boiler having a dual temperature sensor according to the present invention.

2 is a flow chart illustrating a temperature sensor determination method in a boiler having a dual temperature sensor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: boiler 110: circulation pump

120: right piping adapter 130: left piping adapter

140: left temperature sensor 150: right temperature sensor

160: controller

Claims (2)

Piping adapter connected to the upper and lower left and right of the boiler, A temperature sensor installed in the pipe adapters on both the left and right lower sides to detect a supply water or a return temperature; A boiler having a dual temperature sensor comprising a controller for receiving a signal output from the temperature sensor to determine the temperature sensor currently used and to control the boiler. Measuring a temperature by using a temperature sensor installed in a pipe adapter connected to both sides of the lower part of the boiler before operation of the circulation pump; Measuring a temperature by using a temperature sensor installed in a pipe adapter connected to both sides of a boiler after the circulation pump is operated; Determining a temperature sensor having a temperature change among the two temperature sensors; And And determining the temperature sensor having the temperature change as a temperature sensor currently used.

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