KR101371235B1 - A pellet boiler with a brush cleaning grate and running method thereof - Google Patents

Abstract

The present invention relates to a pellet boiler having a brush for cleaning the combustion plate that can easily process the pellets remaining on the combustion plate after combustion to prevent the thermal efficiency is lowered, and a boiler operating method using the same.
The present invention for implementing this, is installed on the predetermined height from the bottom plate of the pellet boiler in the combustion chamber 140, the incision 142 of the size corresponding to the inner diameter of the combustion furnace 148 is formed in the incision 142 Combustion plate fixing plate 141 is installed on the combustion furnace 148; Under the cutout 142 of the burner plate fixing plate 141, the motor 146 and the moving rod 147 are driven to slide in contact with the burner plate fixing plate 141 so as to open and close the entire cutout 142. A combustion plate 144 installed therein and having a plurality of air inlets 145 formed therethrough; The cleaning brush is installed on the brush hole 143 formed in the place where the combustion plate 144 is moved when the combustion plate fixing plate 141 is opened, and cleans the pellets blocking the air inlet 145 by contact with the air inlet 145. 150; And an insulating surface connection pipe 171 communicating with the combustion chamber 140 and discharging the combustion smoke generated in the combustion chamber 140 to the outside.

Description

A pellet boiler with a brush for cleaning the combustion plate and a boiler operating method using the same {A PELLET BOILER WITH A BRUSH CLEANING GRATE AND RUNNING METHOD THEREOF}

The present invention relates to a pellet boiler having a brush for cleaning the combustion plate and a boiler operating method using the same, and more particularly, it is possible to easily reduce the thermal efficiency by treating the remaining pellets in the combustion plate after combustion in the combustion unit. The present invention relates to a pellet boiler having a brush for cleaning a combustion plate, and a boiler operating method using the same.

In general, boilers are classified into various types according to the structure of the main body, the location of the furnace, the water circulation method, the type of fuel used, etc. Among them, the boilers are classified according to the fuel used. It can be divided into gas boiler which uses gas as fuel, and firewood boiler which uses wood as fuel.

In addition, there are boilers that use waste gas and waste heat of blast furnace gas and coke blast gas in steel mills, heat of nuclear reactor fission, and solar heat.

Among the above-described boilers, oil boilers and gas boilers are mainly used in general households living in urban areas because of the smooth supply of fuel. In the case of oil boilers, thermal efficiency and safety are excellent, especially in urban areas. In the case of a gas boiler using gas (LNG) as a fuel, an advantage of low maintenance costs is added, and thus many homes are gradually being used.

However, the above-described gas boilers are installed and used only in the case of urban areas where many people live, and thus, the gas boilers are difficult to use in the remote areas with less authorization.

In other words, in most farming and fishing villages, where the population density is low or where there are not many people coming, the gas gas supply rate is relatively low compared to the urban areas, and thus, gas boilers using LNG fuel having a relatively low price cannot be used.

Moreover, since oil boilers are relatively expensive, there is a problem in farming and fishing villages that cannot be maintained.

Therefore, in order to reduce fuel costs, rural and rural areas may use wood such as briquettes or firewood as an alternative to oil, and pellet boilers may be used as fuel by pelletizing discarded waste wood.

Conventional pellet boilers are provided with a combustion chamber for burning pellets, a ash collection chamber for collecting the burned ash is installed in the lower portion of the combustion chamber, a discharge port and a water tank for exhausting the combustion gas, etc. are installed in the upper portion of the combustion chamber. In addition, the water in the water tank is to be used as living water, such as hot water for heating after being heated with high heat generated in the combustion chamber.

However, when pelletizing waste wood and using it as a fuel, there is a problem that a so-called slag, such as unburned impurities or plastic residues mixed in waste wood, accumulates on the bottom of the combustion chamber and the flame does not ignite well and is extinguished during combustion.

1 to 2 is a schematic view showing a side cross-sectional view of the combustion unit in the conventional pellet boiler combustion apparatus.

First, as shown in Fig. 1 (a), until the temperature of the boiler reaches the temperature set by the user, the pellet is continuously supplied through the pellet conveying path 10 is seated on the combustion plate 20 and burned Then, air for combustion is supplied through the air inlet 21 at the bottom of the combustion plate. When the temperature of the boiler rises to a certain temperature, the supply of pellets is stopped, and the pellets remaining in the combustion plate 20 are completely burned, and pellets are placed on the combustion plate 20 as shown in FIG. Ash builds up.

As shown in (a) of FIG. 2, when the pellet is completely burned, it is checked whether it is extinguished by a heat sensor, and then coupled to the motor 40 and the combustion plate 20 by the operation of the motor 40. The combustion plate 20 is moved by the rotation of the movable rod 41. As the combustion plate 20 moves, the surface of the combustion plate 20 is scraped by the partition wall 50 formed on the side of the combustion furnace, and the scraped pellet material is returned to the ash tray 60 at the end of the combustion plate 20. Will fall.

However, as shown in Figure 2 (b), the pelletized ash is completely burned in the gap between the air inlet 21 without falling completely to the bottom during the scraping process, and also the air inlet 21 If cleaning is not done by blocking the temperature, thermal efficiency will be reduced, resulting in inconvenience.

Accordingly, there is a continuing need for a combustion chamber of an improved structure capable of removing pellet ash to continuously burn while using pellet-type sawdust and a new sawdust pellet boiler using the same.

SUMMARY OF THE INVENTION An object of the present invention is to provide a pellet boiler having a combustion unit having a structure capable of continuously burning pellets and having a brush for cleaning a combustion plate capable of cleaning residues generated during combustion of a pellet and a boiler operating method using the same. .

The present invention for achieving the above technical problem, a fuel supply unit for supplying pellets to the boiler from the outside, a transfer unit for controlling the amount of pellets supplied to the fuel supply unit and transported to the combustion unit formed inside the boiler, and the transfer unit An ignition unit for igniting the pellets transferred to the combustion unit, a heat exchanger for absorbing heat generated by the combustion unit, and one side thereof is coupled to the transfer unit and installed at a predetermined height at the bottom and movable in a horizontal direction. And a cleaning brush installed at the rear end of the combustion plate for cleaning the pellet material blocking the air inlet and the combustion plate having the air inlet formed therein and cleaning the slide when the upper part is opened. Combustion unit composed of a cover, and pellet combustion smoke generated in the combustion unit other than the boiler Including the exhaust and the pellet due to the material pellets combustion fumes discharged to the ash pan for collecting portion is removed from the boiler is characterized in that formed.

In addition, the combustion plate is characterized in that the moving rod and the motor is coupled to the horizontal movement.

Another aspect of the present invention for achieving the above technical problem, the step of burning the pellets by supplying and igniting the pellets in the combustion plate of the combustion unit, and stopping the supply of the pellets when the temperature of the combustion unit reaches the setting temperature When the pellet is completely burned, when the pellet is completely burned, the combustion plate is horizontally moved, scraping the pellet material on the surface, and the combustion plate is scraped, and the air inlet is also cleaned by a cleaning brush. Cleaning, and after the scraping, the combustion plate is returned to its original position, and when the temperature of the combustion unit decreases, supplying pellets to the combustion plate again.

According to a pellet boiler having a brush for cleaning a combustion plate of the present invention and a boiler operating method using the same, an air inlet is formed inside the combustion plate to help the combustion of the pellets stacked on the top, and after the pellet is completely burned, It horizontally moves to clean the pellets remaining in the combustion section by dropping them back to the ash tray and cleans the pellets stuck in the air inlet inside the combustion plate through the cleaning brush to provide convenience and to efficiently burn pellets. You can proceed.

1 is a configuration diagram schematically showing a combustion part of a conventional pellet boiler
Figure 2 is a block diagram showing a process for scraping the pellet ash in the combustion section of the conventional pellet boiler
3 is a schematic view of a pellet boiler according to the present invention
4 is an exploded perspective view of the combustion unit illustrated in FIG. 3;
5 is a configuration diagram schematically showing a combustion unit shown in FIG.
6 is a block diagram showing a process of scraping the pellets in the combustion unit shown in FIG.
7 (a) is a perspective view of the combustion unit shown in FIG.
7 (b) is a bottom view of the combustion unit shown in FIG.
8 is an enlarged view of the cleaning brush shown in FIG.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

As shown in FIG. 3, the pellet boiler 100 according to the present invention controls the amount of pellets supplied from the fuel supply unit 110 and the fuel supply unit 110 to supply pellets to the pellet boiler 100 from the outside. Transfer unit 120 to supply to the combustion chamber 140 in the pellet boiler 100, the combustion furnace 148 is installed on the central bottom of the combustion chamber 140 to burn the injected pellets, the pellets burning and remaining A combustion plate ash tray (184) for collecting the heat, a heat exchange pipe (162) for absorbing heat generated by the combustion of the pellets in the combustion furnace (148) through the heat exchange medium (161), and combustion generated in the combustion chamber (140). It is composed of an insulating surface pipe 171 is installed on the exhaust side for discharging the smoke to the outside of the pellet boiler 100, and the insulating surface pipe re- receiving 183 to receive and collect the ash generated by the combustion smoke.
Hereinafter will be described in more detail with respect to the configuration and operation of the present invention made as described above.

The fuel supply unit 110 is formed in a pipe shape and has a transfer screw (not shown) therein, and receives a pellet from an external storage device according to the rotation of the transfer screw, thereby rotating the rotary valve 121 on the inner transfer path 122 side. To pass).

The rotary valve 121 is to adjust the amount of pellets to be supplied to the combustion furnace 148, the plurality of rotary blades 121a is provided on the outer circumferential surface of the rotary valve 121, so that the rotary blades 121a are upwards When the rotary blade 121a is rotated downward after receiving the pellet supplied from the fuel supply unit 110, the pellets on the rotary blade 121a fall into the internal transfer path 122, thereby rotating the rotary valve. The amount of pellets dropped on the inner transfer path 122 is adjusted by adjusting the rotation speed of the 121.

The inner conveying path 122 in which the rotary valve 121 is installed at an upper side thereof is inclined so that its lower end penetrates the lower portion of the combustion chamber 140 and is coupled to the pellet inlet 148 of the combustion furnace 148. The pellets that are adjusted by the rotary valve 121 fall down to pass through the pellet inlet 149 of the combustion furnace 148 by the own weight and are seated on the combustion plate 144.

As shown in FIGS. 4 to 8, the combustion plate fixing plate 141 coupled to the boiler body at a predetermined height at the bottom of the pellet boiler 100 has a cut portion 142 which penetrates in a circular shape so that the pellet material falls therein. ) And a brush hole 143 is formed through the rectangular shape of the cleaning brush 150 is located at the top.

A combustion plate 144 may be installed below the cutout 142 of the combustion plate fixing plate 141 to open and close the entire cutout 142 by sliding in contact with the combustion plate fixing plate 141. The combustion plate 144 is provided with an air inlet 145 seated on the combustion plate 144 to supply air to the pellets being burned, one end of which is connected to the motor 146 through a moving rod 147 and a bearing. Coupled to the horizontal movement in the lower portion of the combustion plate fixing plate 141 in accordance with the rotation operation of the motor 146.

The upper end of the cutout 142 is formed in a cylindrical shape so as to correspond to the diameter of the cutout 142 and the upper combustion furnace 148 is coupled to the upper portion of the combustion plate fixing plate 141 by a screw.
Pellets inlet 149 is formed through the side of the combustion furnace 148 is coupled to communicate with the internal transfer path 122 as described above.
Heat generated when the pellets are burned on the combustion plate 144 in the combustion furnace 148 moves to the upper part of the combustion chamber 140 to exchange heat with the heat exchange pipe 132 through the heat exchange medium 161.
On the other hand, after the pellet is completely burned, it remains as a pellet ash on the combustion plate 144. The pellet ash is formed by the inner wall of the combustion furnace 148 when the combustion plate 144 is horizontally moved by the motor 146. As it is scraped, it falls to the combustion plate ash tray 184 under the cutout 142 that is opened according to the movement of the combustion plate 144.

A cleaning brush 150 having a plurality of brushes formed outside and corresponding to the length of the brush ball 143 is prevented from being separated by the brush cover 151 is installed on the upper side of the brush ball 143, the cleaning brush ( The outer circumferential surface end of 150 is installed to penetrate through the brush ball 143 to be exposed to the bottom surface of the brush ball 143. Thus, when the combustion plate 144 passes through the brush hole 143 while horizontally moving, the brushes of the cleaning brush 150 push out the pellets blocked by the air inlet 145 of the combustion plate 144. You can clean it.

The heat of combustion generated in the combustion chamber 140 exchanges heat with the heat medium in the heat exchange medium 161 and the heat exchange pipe 162 above or side of the combustion chamber 140. The heat exchange medium 161 is formed of a liquid having high thermal conductivity, and a plurality of heat exchange pipes 162 are provided in the heat exchange medium 161 to provide heating and hot water by heat exchange with the heat exchange medium 161. . In addition, a tubular circulation pump 163 is installed to increase the thermal efficiency by allowing the hot heat exchange medium 161 located at the upper portion of the combustion chamber 140 to circulate to the lower side.

The pellet combustion gas generated in the combustion chamber 140 is discharged to the outside of the pellet boiler 100 through the exhaust port 172, so that the hot combustion gas of the combustion chamber 140 does not directly escape to the outside. The insulating surface connection pipe 171 is installed between the 172.
The insulating surface pipe 171 has two cylindrical ducts connected in a U-shape, one end of which communicates with the uppermost side of the combustion chamber 120, and the other end of which communicates with the exhaust port 172, and the exhaust port 172. An exhaust fan 173 is installed on the pipeline to increase the pressure difference so that the pellet combustion smoke generated in the combustion chamber 140 passes through the insulating surface connection pipe 171 and is discharged to the exhaust port 172.

Inside the insulating surface connection pipe 171 is formed a spring shape of a size corresponding to the inner surface of the insulating surface connection pipe 171 is provided with a cleaning spring 182 in contact with the insulating surface connection pipe 171. The cleaning spring 182 is slid up and down by the cleaning motor 181 to scrape down and drop the pellets sticking to the inside of the insulating surface connection 171. And the lower surface of the insulating surface pipe 171 is provided with an insulating surface pipe re-receiving 183, separated by the cleaning spring 182 to accommodate the falling pellet material.
Hereinafter, an operation process of a pellet boiler having a brush for cleaning a combustion plate configured as described above and a boiler operating method using the same will be described.

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When the temperature of the boiler is lower than the temperature set by the user, the boiler is turned on, and the amount of pellets is controlled and supplied by the fuel supply unit 110 and the transfer unit to guide the pellets to the top of the combustion plate 144. The pellet ignited at the top of the combustion plate 144 generates heat and smoke, and the heat is absorbed by the heat exchanger to provide heating and hot water, and the smoke is discharged to the outside of the boiler through the exhaust port by the exhaust.

In addition, when the temperature inside the boiler is higher than the temperature set by the user or turned off, the pellets provided in the combustion unit are controlled by the transfer unit to stop the supply, and the existing pellets at the top of the combustion plate 144 are completely After the combustion, the combustion plate 144 is horizontally moved by the motor 146 and scraped with the combustion cover 148 so that the pellet ash falls into the combustion plate ash tray 184.

In addition, by removing the pellets accumulated in the air inlet 145 formed in the combustion plate 144 by the cleaning brush 150 installed at the rear end of the scraped combustion plate 144 to provide user convenience and thermal efficiency The fall can be prevented.

In addition, some of the pellets that are generated together with the smoke from the burning pellets and are not discharged to the outside of the boiler are attached to the insulation surface pipe 171 and are removed by the upper and lower slides of the cleaning spring 182 to the insulation surface pipe ash tray 183. Will fall. The pellet ash accumulated in the combustion plate ash tray 184 and the insulation surface tube ash tray 183 is then emptied by the user.

The embodiment of the pellet boiler having a brush for cleaning the combustion plate of the present invention described above and the boiler operating method using the same are merely exemplary, and those skilled in the art to which the present invention pertains It will be appreciated that other variations and equivalent embodiments are possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

110: fuel supply unit 121: rotary valve
122: internal transfer path 141: combustion plate fixing plate
142: incision 143: brush ball
144: combustion plate 145: air inlet
146: motor 147: moving bar
148: combustion cover 149: pellet transport
150: cleaning brush 151: brush cover
161: heat exchange medium 162: heat exchange pipe
163: pipe circulation pump 171: insulated pipe
172: exhaust port 173: exhaust fan
181: insulating surface cleaning motor 182: cleaning spring
183: insulated surface pipe ash tray 184: combustion plate ash tray

Claims (3)

Combustion chamber 140 made of a tubular body, the combustion furnace 148 is installed to burn the pellets in the inner lower portion;
A heat exchange medium 161 and a heat exchange pipe 162 installed on sidewalls of the combustion chamber 140 to absorb heat generated by the combustion furnace 148;
In the combustion chamber 140 is installed on a predetermined height from the bottom plate of the pellet boiler, a cutout portion 142 of a size corresponding to the inner diameter of the combustion furnace 148 is formed, the combustion furnace 148 on the cutout 142 Combustion plate fixing plate 141 is installed;
The combustion plate fixing plate is coupled to the motor 146 through the moving bar 147 at the lower portion of the cutting plate fixing plate 141 through the moving bar 147 to open and close the entire cutting unit 142 by the driving of the motor 146. A combustion plate 144 which is installed to slide in contact with 141 and has a plurality of air inlets 145 formed therethrough;
The cleaning brush is installed on the brush hole 143 formed in the place where the combustion plate 144 is moved when the combustion plate fixing plate 141 is opened, and cleans the pellets blocking the air inlet 145 by contact with the air inlet 145. 150;
An insulated surface pipe 171 communicating with the combustion chamber 140 and discharging combustion smoke generated in the combustion chamber 140 to the outside;
And a combustion plate ash tray 184 installed under the combustion plate fixing plate 141 to collect pellet material falling upon opening of the combustion plate 144. Pellet boiler. The method of claim 1,
A fuel supply unit 110 having a conveying screw inside the pipe to convey and supply pellets according to the rotation of the conveying screw;
One end communicates with the fuel supply unit 110, and the other end communicates with the pellet inlet 149 of the combustion furnace 148 installed in the combustion chamber 140 in the lower portion through the obliquely penetrating the combustion chamber 140. An inner conveying path 122 dropping the pellets conveyed from the 110 by its own weight and into the combustion furnace 148;
It is installed at the upper end of the inner conveying path 122, and a plurality of rotary blades 121a are installed on the outer circumferential surface to receive pellets supplied from the fuel supply unit 110 when the rotary blades 121a are positioned upward. When the rotary blade 121a rotates in the downward direction, the pellets on the rotary blade 121a fall into the internal feed path 122, so that the amount of pellets injected into the combustion furnace 148 according to the rotational speed of the rotary blades. Rotary valve (121) for adjusting the; is further provided with a pellet boiler having a brush for cleaning the combustion plate, characterized in that configured to supply the pellets to be burned in the combustion furnace 148 of the pellet boiler. delete

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