KR102051229B1 - Control method for pellet heater - Google Patents

Abstract

The present invention relates to a control method of a pellet heater in which pellets do not waste ignition in the pellet heater, and the coal is separated and the pellets which are not ignited are stored separately. In particular, the combustion is performed by mutual heat generated during a combustion process in a combustion chamber, and the complete combustion is achieved. Moreover, combustion fire power is high as pellet fuel is not dispersed in the combustion chamber. In addition, during the discharge of burned ash, the pellet fuel which has not been burned is discharged to reduce waste of fuel.

Description

Control Method of Pellet Heater {CONTROL METHOD FOR PELLET HEATER}

The present invention relates to a method for controlling a pellet heater, and more particularly, to control a pellet heater in which pellets do not waste ignition in the pellet heater without separating coal ash and storing pellets which are not ignited separately. will be.

In general, the pellet heater is to use a pellet raw material that is compression molded to a constant size after crushing the raw material such as wood.

As described above, the pellet heater includes a pellet feeder for supplying pellet fuel stored in a pellet storage container, a combustion unit in which the supplied pellet fuel is combusted, a combustion chamber formed under the combustion unit, and ashes discharged from the roaster and the roaster provided in the combustion chamber. It consists of a reclosing container.

The pellet heater configured as described above is burned while the pellet fuel is automatically supplied to operate by unmanned management.

On the other hand, the conventional pellet heater as described above has a structure in which the roaster of the combustion chamber is fixed so that the ash of the burned pellet fuel is not discharged smoothly, so that combustion is not uniform and incomplete combustion occurs. As disclosed in 10-2010-0113927, it is equipped with a rotary screw to push the ash of the pellet fuel which has been burned out in the combustion chamber at regular intervals.

However, as described above, the conventional pellet heater equipped with a rotating screw has a combustion chamber horizontally so that the pellet fuel supplied to the combustion chamber is not burned and dispersed without being concentrated so that the combustion power of each other is not concentrated so that a clear combustion is not achieved. There was this.

Republic of Korea Patent Publication No. 10-2010-0113927

The present invention is to solve the problem that the combustion chamber is made horizontally so that the pellet fuel supplied to the combustion chamber is dispersed without being burned and thus the combustion power of each other is not concentrated so that a clear combustion is not achieved.

In addition, the present invention is to solve the problem that the waste of fuel is discharged to the pellet fuel that is not completed combustion in the discharge process of the burned ash.

The present invention provides a control method of a pellet heater, the control method of the pellet heater is an ignition operation process for the user to input the ignition signal to the heater control unit to the operation unit provided on the outside of the heater body, the heater control unit inputs the ignition operation signal of the user An exhaust process for controlling the exhaust fan according to the exhaust process; An ignition pellet supplying process of supplying pellets for ignition from the fuel tank to the combustion crucible of the combustion unit by controlling the pellet supply device configured as a screw conveyor according to the ignition operation signal input by the heater controller; The heating control unit controls the hot air ignition provided in the heater body by heating the ignition hot air to blow the ignition hot air to the pellets filled in the combustion crucible, the heater control unit pellets within a predetermined time through the ignition detection means during the heating ignition process Ignition determination process for determining the ignition of pellets by detecting the ignition of; If it is determined that the ignition of the pellets is not completed within a predetermined time through the ignition determination process, the heater control unit opens a sliding discharge door for sliding and opening and closing the lower opening of the combustion crucible by controlling the sliding opening and closing means provided at one side of the heater body. Pellet discharge re-ignition process to control the pellet supply process and heating ignition process to be re-executed, the heater control unit is determined that the pellet of the combustion crucible is not ignited more than two times through the ignition determination process. It characterized in that the pellet drying process for drying the pellets by blowing the temperature of the air blown from the hot air ignition before the ignition process to a temperature below the ignition of the pellets.

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The present invention further comprises a heating pellet supply process for supplying the pellets at regular intervals according to the user's operation by controlling the pellet supply device when the heater control unit detects combustion by ignition of the pellets of the combustion crucible through the ignition determination process. It is characterized by.

The present invention further includes a re-extracting process in which the radiator control part finely slides back and forth with the sliding opening and closing means so that the burned pellet material is smoothly discharged through the redistribution hole formed in the sliding discharge door in the heating pellet supplying process. Characterized in that made.

According to the present invention, when the user controls the operation unit to extinguish the pellet heater, the heater control unit controls the pellet supply device to stop the supply of the pellet, and when the temperature of the combustion unit falls below 50 ° C, the exhaust fan is controlled to perform the exhaust operation. Characterized in that it further comprises a digestion process to stop.

The present invention is characterized in that the heater control unit further comprises a non-ignition pallet storage process for separately discharged and stored pellets that are not ignited during the pellet discharge re-ignition process to the non-ignition pallet storage unit.

Therefore, in the present invention, the combustion is achieved by mutual heat generated in the combustion process in the combustion chamber, and thus complete combustion is achieved, and the combustion fuel is high because the pellet fuel is not dispersed in the combustion chamber.

In addition, the present invention reduces the waste of the fuel is discharged to the pellet fuel that is not completed combustion in the discharge process of burned ash.

1 is a view showing a pellet heater according to an embodiment of the present invention.
2 and 3 is a view showing a sliding opening and closing means of the pellet heater according to an embodiment of the present invention.
4 is a view showing a control method of a pellet heater according to an embodiment of the present invention.
5 is a view showing a control method of a pellet heater according to another embodiment of the present invention.
Figure 6 is a view showing a control method of a pellet heater according to another embodiment of the present invention.
7 is a view showing a control method of a pellet heater according to another embodiment of the present invention.
8 is a view showing a control method of a pellet heater according to another embodiment of the present invention.
9 is a view showing a control method of a pellet heater according to another embodiment of the present invention.
10 is a view showing a pellet heater according to another embodiment of the present invention.

Hereinafter, described in detail by the accompanying drawings as follows.

The scope of the present invention should not be construed as limited by the embodiments described in the text. That is, since the embodiments may be variously modified and may have various forms, the scope of the present invention should be understood to include equivalents capable of realizing the technical idea. In addition, the objects or effects presented in the present invention does not mean that a specific embodiment should include all or only such effects, the scope of the present invention should not be understood as being limited thereby.

Control method of the pellet heater according to an embodiment of the present invention with reference to Figures 1 to 3, in the control method of the pellet heater, the ignition operation (S10), the exhaust process (S20) and the ignition pellet supply process (S30) ), The heating ignition process (S40), the ignition determination process (S50), and the pellet discharge re-ignition process (S60), where the pellet drying process (S70) may be further included.

The exhaust process (S20) is a ignition operation (S10) for the user to input the ignition signal to the heater control unit to the operation unit 110 provided outside the heater body 100, the heater control unit to the user's ignition operation signal input Accordingly, the exhaust fan 410 is controlled to exhaust the process S20.

In the ignition pellet supplying process (S30), the heater control unit controls the pellet supply device 300 including the screw conveyor 320 according to a user's ignition operation signal input to burn pellets in the fuel tank 330 for ignition. It is supplied to the combustion crucible 210 of 200.

The ignition determination process (S50) is a heating ignition process of controlling the hot air ignition sphere 280 provided in the heater body 100 by the heater control unit blows the ignition hot air to the pellets filled in the combustion crucible 210 to ignite the ignition pellets In operation S40, the heater controller measures an internal temperature change within a predetermined time through an ignition detection means such as a temperature sensor during the heating ignition process S40 to detect the ignition of the pellet and determine whether the pellet is ignited.

The pellet discharge re-ignition process (S60) is a sliding opening and closing means provided on one side of the heater body 100, if it is determined that the ignition of the pellets within a predetermined time through the heater control unit ignition determination process (S50). ) To open the sliding discharge door 220 to open and close the lower opening of the combustion crucible 210 to discharge the unignited pellets and to control the pellet feeding process and the heating ignition process (S40) to be re-executed.

In the pellet drying process (S70), if it is determined that the pellet of the combustion crucible 210 is not ignited at least two times through the ignition determination process (S50), the hot air ignition apparatus 280 before the heating ignition process (S40). The temperature of the air blown in the air is blown to a temperature below the ignition of the pellet to dry the pellet. Thus, the pellets are dried to increase the likelihood of ignition.

In addition, referring to Figure 4 showing another embodiment, the heater control unit controls the pellet supply device 300 when the combustion by the ignition of the pellets of the combustion crucible 210 is detected through the ignition determination process (S50). The heating pellet supply process (S80) for supplying the pellets at regular intervals according to the user's operation is further included. The heating will be maintained continuously.

In addition, referring to Figure 5 showing another embodiment, the heater control unit smoothly discharged pellet material burned through the redistribution hole 221 formed in the sliding discharge door 220 in the heating pellet supply process (S80). The re-extraction process (S90) to allow the ash to be smoothly discharged by repeatedly sliding fine back and forth with the sliding opening and closing means 290 to be included. That is, by shaking the sliding discharge door 220 to shake off the burned pellet material to the ash tray 230 to form the ignition combustion conditions inside the crucible.

Here, the sliding opening and closing means 290 may be a device for changing the rotational movement of the cam method to the horizontal movement so that the sliding discharge door 220 is sliding.

In addition, the sliding opening and closing means 290 may be slid by using a solenoid device.

In addition, referring to FIG. 6, which shows another embodiment, when the user controls the operation unit 110 to extinguish the pellet heater, the heater control unit controls the pellet supply device 300 to stop supply of the pellets, and burns. When the temperature of the unit 200 is lowered below 50 ℃ further comprises a fire extinguishing process (S100) for controlling the exhaust fan 410 to stop the exhaust operation.

In addition, referring to Figures 7 and 8 showing another embodiment, the non-ignition pellet storage process in which the heater control unit separately discharged and stored in the non-ignition pellet storage unit pellets not ignited in the pellet discharge re-ignition process (S60). It further includes (S110).

Here, the non-ignition pellet storage process (S110) forms the lower opening of the combustion crucible 210 with an inclined slope, and the heater control part opens and closes the sliding opening / closing means 290 only to open the non-ignition pellet, and the non-ignition pellet continues to the end. It is moved to the storage unit and stored separately. Therefore, it is stored separately from ash and stored to reduce fuel waste.

100: heater body
110: control panel
200: combustion unit
210: combustion crucible
220: sliding discharge door 221: cultivation construction
230: ashtray
240: non-ignition pellet storage unit
270 combustion air suction hole
280: hot air ignition
290: sliding opening and closing means
300: pellet supply device 310: fuel supply pipe
320: screw conveyor 330: fuel tank
400: exhaust part 410: exhaust fan
S10: ignition process S20: exhaust process
S30: Ignition pellet supply process S40: Heating ignition process
S50: Ignition judgment process S60: Pellet discharge re-ignition process
S70: Pellet drying process S80: Heating pellet supply process
S90: Reprocessing Process S100: Digestion Process
S110: non-ignition pellet storage process

Claims (5)

In the control method of the pellet heater,
The control method of the pellet heater includes an ignition operation process in which a user inputs an ignition signal to a radiator control unit by an operation unit provided outside the radiator body;
An exhaust process in which the radiator control unit controls the exhaust fan according to a user's ignition operation signal input to perform an exhaust process;
An ignition pellet supplying process for supplying pellets for ignition from the fuel tank to the combustion crucible of the combustion unit by controlling the pellet supply device configured as a screw conveyor according to the ignition operation signal input by the heater controller;
The heating control unit controls the hot air ignition provided in the heater body by heating the ignition hot air to blow the ignition hot air to the pellets filled in the combustion crucible, the heater control unit pellets within a predetermined time through the ignition detection means during the heating ignition process Ignition determination process for determining the ignition of pellets by detecting the ignition of;
If it is determined that the ignition of the pellets is not completed within a predetermined time through the ignition determination process, the heater control unit opens a sliding discharge door for sliding and opening and closing the lower opening of the combustion crucible by controlling the sliding opening and closing means provided at one side of the heater body. Pellet discharge re-ignition process to discharge the unignited pellets to control the pellet supply process and the heating ignition process to be rerun;
If it is determined that the pellet of the combustion crucible is not ignited more than two times through the ignition determination process, the heater control unit blows the temperature of the air blown from the hot air ignition to a temperature below the ignition of the pellet before the heating ignition process to dry the pellet. Pellet drying process and laminating;
When the heater controller detects combustion by ignition of the pellets of the combustion crucible through the ignition determination process, the pellet is characterized in that the heating pellet supply process for controlling the pellet supply device to supply the pellets at regular intervals according to the user's operation Radiator control method.
The method of claim 1,
The radiator control unit further comprises a re-extracting process for smoothly discharging the ashes by finely sliding sliding back and forth with the sliding opening / closing means to smoothly discharge the burned pellet material through the redistribution hole formed in the sliding discharge door in the heating pellet supply process. Pellet heater control method characterized in that.
The method of claim 1,
When the user operates the operation unit to extinguish the pellet heater, the heater control unit controls the pellet supply device to stop the supply of the pellets, and when the temperature of the combustion unit falls below 50 ° C, the extinguishing system stops the exhaust operation by controlling the exhaust fan. Pellet heater control method characterized in that it further comprises a process.
The method of claim 1,
The heater control unit further comprises a non-ignition pallet storage process for storing the discharged pellets that are not ignited in the pellet discharge re-ignition process to the non-ignition pallet storage unit.
The method of claim 1,
Sliding switch
Consisting of a device that changes the rotational movement of the cam method into a horizontal movement so that the sliding discharge door is slid.
Pellet heater control method characterized in that consisting of any one of the configuration consisting of a solenoid device.

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