KR100905245B1 - A boiler by using flammability solid waste - Google Patents

Abstract

A boiler using flammable nature solid waste is provided to supply the nature solid fuel as the insufficient amount of the nature solid fuel automatically without passively injecting the nature solid fuel in case of completely burning the nature solid fuel in a combustion chamber. A boiler using flammable nature solid waste comprises a body housing(100), a storage(200), an combustion part(300), a fuel supply unit(400), a control unit(500), a belt unit(600), an auxiliary heating burner(700), a collection can(800) and a dust collection unit(900). The storage is equipped inside the body housing and stores the nature solid fuel. A combustion part is equipped at one side of the storage and burns the nature solid fuel and heats water with the heat of combustion. The fuel supply unit supplies the nature solid fuel as the amount of the nature solid fuel burnt in combustion part. The control unit is extended from the fuel supply unit to the body housing. The belt unit discharges the combustion waste of the burnt nature solid fuel to outside on a real-time basis. The auxiliary heating burner normally increases boiler inner temperature in case the boiler inner temperature lowers. The combustion waste ejected from the belt unit is collected to the collection can. The dust collection unit purifies the exhaust gas of the ejected nature solid fuel which is burnt from combustion part.

Description

A boiler by using flammability solid waste

The present invention relates to a boiler using a combustible natural solid waste as a fuel, and more particularly, in the combustion of natural combustible waste such as wood pellets, palm oil shells, sawdust, yulmu shells as a fuel source, natural solids In consideration of the combustion time of the waste fuel (hereinafter referred to as natural solid fuel), the combustion chamber is equipped with an image that rotates at a low speed at the time of complete combustion, and the natural solid fuel is automatically supplied according to the complete combustion of the natural solid fuel. The ash of natural solid fuel after combustion is automatically discharged in real time, and the internal temperature can be set by temperature sensing means when natural solid fuel such as wood pellets, palm oil shell, sawdust, and yulmu shell cannot be added normally. It detects and operates the oil-burner to keep the boiler functioning. The natural solid fuel injected into the burn is burned at the edge of the burn, so that the heat of combustion stays in the body for a longer time, thereby improving the thermal efficiency, thereby reducing the cost and management of the fuel. It relates to a boiler used as.

In general, the boiler is a device for generating steam by burning the fossil fuel such as petroleum, coal, and the heat generated during combustion to water, and is widely used in various industrial fields. Such a boiler is installed and used for heating of each generation in winter, or is commonly used as a power source using steam in various industrial fields.

In this case, the boiler is usually supplied to the combustion chamber and ignited automatically according to the operation of the temperature controller, and is formed to be used as a power source using heating, steam, etc. It is very convenient to use because it automatically repeats the process of ignition and combustion while maintaining the desired set temperature, and obtains a power source using heating and steam at the required temperature.

However, most of these boilers are fueled by oil or gas, and can be easily managed such as fuel input and temperature control, but the fuel itself is not only expensive but also consumes a considerable amount of fuel, so that heating is not small. There was a problem that the household burden caused by the cost. In addition, there is a problem that the combustion gas discharged during the combustion of the fuel pollutes the atmosphere, causing environmental damage.

Therefore, as a method for solving the problems caused by the high oil price of the conventional boiler as described above, a boiler using combustible natural fuel such as wood, wood pellets, grain husks, etc., which can be easily obtained at low cost in the surroundings, such as a firewood boiler. The spread of is increasing. Such a boiler using natural fuel can significantly reduce heating costs compared to a boiler using oil or gas fuel.

However, boilers using combustible combustible fuels such as wood, wood pellets and grain husks have significantly lower heating and maintenance costs than oil or gas, but wood, wood pellets and grains, which are solid fuels The combustible natural fuel, such as the shell of the waste, has a problem that it is quite difficult to continuously enter the fuel into the boiler. In addition, since the fuel is not continuously injected, the thermal efficiency of the combustion is considerably reduced, thereby incomplete combustion and incomplete combustion increase the generation of noxious gas, and cumbersome waste gas that has to be continuously collected and discharged even after combustion is completed. There was a problem.

Moreover, if natural fuel fails to be treated immediately after combustion, the resinous components contained in the natural fuel, such as rosin and plant essences, are mixed with the combustion waste and solidified to a significant size. Due to the problem that the natural fuel is not completely burned in the combustion chamber to reduce the combustibility, there is a problem that the thermal efficiency drops sharply, thereby failing to properly perform the function of the boiler. Furthermore, when the boilers are operated by stacking these solidified combustion wastes of substantial size without immediately processing them, there is a problem that the maintenance costs are considerable due to the serious problems such as breakdown and failure of the boilers due to the solidified combustion wastes. .

Therefore, the present invention has been created to solve the problems described above, by using natural solid fuels such as wood pellets, palm oil shells, sawdust, yulmu shells that can be easily obtained from the surroundings, to produce expensive oil, gas fuel It can reduce fuel costs by not using it, and it is possible to automatically supply only the amount of natural solid fuel that is insufficient due to the complete combustion of natural solid fuel in the combustion chamber without the user having to add natural solid fuel manually. The aim is to provide a boiler which uses combustible natural solid waste as fuel to achieve and to use and save energy.

In addition, the present invention maintains the combustion waste generated during the combustion of the natural solid fuel after a certain time, the user in the combustion chamber is rotated at a low speed without the need for separate discharge by the manual operation to automatically discharge the combustion waste to the outside Another object is to provide a boiler that uses combustible natural solid waste as fuel, which is easy to manage and thereby reduces maintenance costs.

Boiler using a combustible natural solid waste according to the present invention for solving the object as described above as a fuel body and a housing (100); A storage unit 200 provided inside the main body housing 100 and configured to store and supply natural solid fuel; A combustion unit 300 provided at one side of the storage unit 200 and configured to heat water by combustion heat by burning natural solid fuel; Fuel supply means (400) extending from the storage unit to the combustion unit to supply the natural solid fuel stored in the storage unit (200) to the combustion unit (300); The fuel supply means 400 is controlled to supply only the combustion amount of the natural solid fuel combusted by the combustion part 300, and is extended from one end of the fuel supply means 400 to the outside of the main body housing 100 to be coupled. Control means 500; Burn belt means 600 provided under the combustion unit 300 so that the natural solid fuel supplied by the fuel supply means 400 is combusted, and the combustion waste of the combusted natural solid fuel is discharged to the outside in real time. )and; It is provided on one side of the burn belt means (600), and performs a boiler function by the first ignition according to the natural solid fuel input; When the natural solid fuel is continuously burned by the burn belt means 600, if the internal temperature of the boiler is lowered because it is not normally burned, the natural solid fuel is burned normally with oil as the fuel and the internal temperature of the boiler is increased. Auxiliary heating burner 700 provided to maintain the function of the boiler to rise normally; A bin 800 provided below the burn belt means 600 and arranged to collect combustion waste discharged from the burn belt means 600; And a dust collecting means 900 provided in a cyclone on the upper side of the main body housing 100 to purify and discharge the exhaust gas of the natural solid fuel that is combusted and discharged from the combustion unit, wherein the fuel supply means 400 once A horizontal transfer tube 410 formed in communication with the storage unit 200 and communicating with the other end into the combustion unit 300; The horizontal transfer pipe 410 is standing vertically in communication with the other end, and the coupling groove 422 is formed in the upper outer edge is coupled to the control means 500, the natural solid fuel is stacked on the lower side of the natural according to the amount of combustion A vertical conveying pipe 420 formed to be proximate to the image belt means 600 so that solid fuel is transferred to the lower portion of the image belt means 600; A transfer screw 430 provided inside the horizontal transfer pipe 410 and configured to transfer natural solid fuel from the storage part 200 to the vertical transfer pipe 420 to be combusted in the combustion part 300; The transfer screw 430 is rotated is provided to transfer the natural solid fuel, the transfer motor 440 is provided to be operated by the control means 500; is formed of, the combustion unit 300 is the storage unit The natural solid fuel stored in the 200 is supplied by the fuel supply means 400 controlled by the control means 500, and the natural solid fuel supplied is burned to generate combustion heat to heat the heating water. It is provided in the main body housing 100, and is configured to be sealed in a cylindrical shape, one closed water compartment body 310 formed with a heating water inlet 312 and the heating water outlet 314 in the upper and lower sides; It is formed in a cylindrical shape is provided inside the chamber body 310, the inclined combustion portion 322 is communicated to the image belt means 600 side to be discharged with the natural solid fuel is burned on the lower side, the combustion gas to the upper side A heating chamber 320 in which a gas outlet 324 is formed so that the gas is discharged to the outside; And a plurality of water pipes 330 communicating with the water chamber body 310 at the outer circumference of the heating chamber 320 and extending into the heating chamber 320 so as to conduct combustion heat of the natural solid fuel. It is done.

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Furthermore, the control means 500 has one end protruding outward from the main body housing 100 and the other end of the support pivot bearing coupled to the chamber body 310 and the heating chamber 320 of the combustion part 300. 510; One side is placed in the coupling groove 422 of the vertical transfer pipe 420, the other side is coupled to the support pivot bearing 510, the vertical transfer pipe by the natural solid fuel supply of the fuel supply means 400 A combustion detection operation bar 520 which is rotated according to the combustion and the supply amount of the natural solid fuel laminated in the 420; A fixed bracket 530 coupled to one side of the support pivot bearing 510 protruding outward from the main body housing 100; And a limit switch 540 fixedly coupled to the fixed bracket 530 and provided to control the operation of the transfer motor 440 according to the swing operation of the combustion detection operation bar 520.

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Here, the combustion detection operation bar 520 has a return portion 522 bent downward so that one end is downward; An operation unit 524 which is horizontally bent so that the other end thereof is horizontal and controls the limit switch 540 according to a turning operation; And a pressure turning plate 526 downwardly formed at one side of the return unit 522 and extending into the vertical transfer pipe 420 to be rotated according to the combustion and supply of the natural solid fuel.

On the other hand, the image belt means 600 is formed to be discharged to the outside in real time to the natural solid fuel burned close to the combustion unit 300, the discharge motor 610 to rotate at a low speed; A main sprocket 620 rotated at a low speed by receiving the rotational force of the discharge motor 610; A first driven sprocket 630 axially coupled to the main sprocket 620 and symmetrically formed; A second driven sprocket 640 provided rearward to the first driven sprocket 630 and axially coupled to form a left-right symmetry; Before and after the first and second driven sprockets 630 and 640 are chain-coupled by the belt chain 652 to form the left and right symmetry, the image 654 provided to burn the natural solid fuel in the center of the belt chain 652 formed symmetrically integrally It is characterized in that it is provided as;

 The present invention by using a natural solid fuel, such as wood pellets, palm oil shells, sawdust, yulmu shells that can be easily obtained from the surroundings, it is possible to reduce fuel costs without using expensive oil, gas fuel, users of natural solid fuels It is possible to save energy as it can achieve continuous thermal efficiency and use by automatically supplying only the amount of natural solid fuel which is insufficient due to the complete combustion of natural solid fuel in the combustion chamber without the need for manual input.

In addition, the present invention maintains the combustion waste generated during the combustion of the natural solid fuel after a certain time, the user in the combustion chamber is rotated at a low speed without the need for separate discharge by the manual operation to automatically discharge the combustion waste to the outside Easy to manage, thereby reducing the maintenance cost.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of the boiler using a combustible natural solid waste according to the invention as a fuel.

1 is an overall perspective view of a boiler using a combustible natural solid waste according to the present invention, Figure 2 is a full front sectional view of a boiler using a combustible natural solid waste according to the present invention, Figure 3 4 is a side cross-sectional view of a boiler using combustible natural solid waste as a fuel, and FIG. 4 is a perspective view of main parts of a fuel supply means and a control means of a boiler using combustible natural solid waste as a fuel, and FIG. Fig. 6 is an enlarged side cross-sectional view of a control means of a boiler using a combustible natural solid waste as a fuel according to the present invention, and Fig. 6 is an enlarged side sectional view of the control means of a boiler using a combustible natural solid waste as a fuel. Fig. 8 is a perspective view of main parts of a burn belt means of a boiler using combustible natural solid waste according to the present invention. An image belt unit main portion sectional view of a boiler using a soft solid waste as a fuel.

The boiler using the combustible natural solid waste according to the present invention uses oil and gas by using combustible natural waste (hereinafter referred to as a natural solid fuel) obtained from nature such as wood pellets, palm oil shells, sawdust and yulmu shells as a fuel source. In addition, through this, it is possible to prevent environmental pollution through the reduction of fuel cost and waste treatment, and to continuously supply natural solid fuel to the combustion unit according to the combustion amount of natural solid fuel, thereby forming more excellent thermal efficiency. 3, the main body housing 100, the storage unit 200, the combustion unit 300, the fuel supply unit 400, the control unit 500, the image belt unit 600, and the auxiliary heating burner. 700, the container 800, and the dust collecting means (900).

The main body housing 100 has a storage unit 200, a combustion unit 300, a fuel supply unit 400, a control unit 500, an image belt unit 600, an auxiliary heating burner 700, and a container (to be described later). It is designed to improve the productability by designing so that the 800 is not exposed to the outside and the appearance is beautiful. Here, the main body housing 100 is preferably provided to be exposed to the storage unit 200, the combustion unit 300, and the container 800 to be described later to consider the convenience of use.

The storage unit 200 stores the combustible natural solid fuel obtained in nature, such as wood pellets, palm oil shells, sawdust, yulmu husks, and the fuel described below as much as the combustion amount of the natural solid fuel burned in the combustion unit 300 to be described later It is provided in the main body housing 100 so as to be supplied by the supply means 400, is formed in a rectangular shape is an injection hole (not shown) to enable the injection of natural solid fuel to the upper side of the main body housing 100 described above On the lower side, an ordinary hopper-shaped taper surface is formed to communicate with the fuel supply means 400 described later.

The combustion unit 300 is provided at one side of the storage unit 200 described above and is provided in the main body housing 100. In addition, the combustion unit 300 is transported into the combustion unit 300 by the fuel supply means 400 controlled by the control means 500 to be described later, the natural solid fuel stored in the storage unit 200 is burned and In addition, the heating water is heated by the combustion heat generated by the combustion of the natural solid fuel so that the heating and hot water are transferred to the required place. Here, the combustion unit 300 is formed of a water chamber body 310, a heating chamber 320, a plurality of water pipes 330.

The water chamber body 310 is sealed in a cylindrical shape so that the heating water is filled inside, the heating water inlet 312 and the heating water discharge port 314 is formed on the upper and lower sides of the cylindrical body.

The heating chamber 320 is internally formed in the chamber body 310 described above and is formed in a cylindrical shape. In addition, the inclined combustion unit 322 connected to the image belt means 600 to be described later is formed below the heating chamber 320 so that the natural solid fuel is burned and discharged. In addition, a gas discharge port 324 is formed above the heating chamber 320 to discharge the combustion gas generated when the natural solid fuel is burned to the outside.

Here, the inclined combustion unit 322 of the heating chamber 320 is a natural solid fuel is actively burned to generate the heat of combustion, the outside air through the air gap of the image belt means 600 and the inclined combustion unit 322 to be described later Natural solid fuel is introduced to be completely burned. In addition, when the combustion gas discharged through the gas discharge port 324 is immediately discharged, it provides a cause of air pollution and the like, and by extending the dust collecting means 900 to be described later, it is possible to prevent the air pollution.

The plurality of water pipes 330 are formed to communicate with the outer peripheral side of the heating chamber 320 through the inner circumferential edge of the heating chamber 320 and communicate with the outer body main body 310 described above. That is, fluid flow is generated through the plurality of water pipes 330 passing through the heating chamber 320, and the plurality of water pipes 330 are heated in the heating chamber 320. In addition to being heated by receiving the heat of combustion generated from the natural solid fuel that is burned in), by receiving heat lost from the entire surface of the heating chamber 320 to minimize the annual loss to maximize the thermal efficiency.

The fuel supply unit 400 supplies the natural solid fuel stored in the storage unit 200 to the inclined combustion unit 322 of the combustion unit 300 to be combusted from the storage unit 200 to be combusted. It is provided in the center 300, as shown in Figures 1 and 2 and 4, provided with a horizontal transfer pipe 410, a vertical transfer pipe 420, a transfer screw 430, a transfer motor 440. do.

The horizontal transfer pipe 410 is formed so as to communicate with the hopper-shaped lower portion of the storage unit 200 described above, the other side is perpendicular to the vertical transfer pipe 420 to be described later. Here, the transport screw 430 to be described later in the horizontal transfer pipe 410 is built-in natural solid fuel stored in the storage unit 200 in accordance with the rotation of the transport screw 430 toward the combustion unit 300 side To be transported.

The vertical transfer pipe 420 is located at the center of the upper side of the inclined combustion unit 322 of the combustion unit 300 described above, is perpendicularly coupled to the other end of the horizontal transfer pipe 410 is formed in communication. Here, the coupling groove 422 to which the control means 500 to be described later is coupled to the upper outer edge of the vertical transfer pipe 420 is formed. In addition, the natural solid fuel is stacked on the lower side is provided in close proximity to the image belt means 600 side so that the natural solid fuel is transported to the lower side of the image belt means 600 which will be described later in accordance with the combustion amount.

That is, the natural solid fuel stored in the storage unit 200 is transferred through the horizontal transfer pipe 410 by a transfer screw 430 to be described later, the natural solid fuel transferred through the horizontal transfer pipe 410 The natural solid fuel that is transported to the vertical transfer pipe 420 and dropped directly below is dropped on the upper surface of the image belt means 600 which will be described later, and stacked and filled into the vertical transfer pipe 420.

The transfer screw 430, as mentioned earlier, the horizontal transfer pipe in which one side is in communication with the storage unit 200 to transfer the natural solid fuel stored in the storage unit 200 to the combustion unit 300 ( 410 is provided inside.

The transfer motor 440 is provided so that the transfer screw 430 is rotated to transfer the natural solid fuel to the combustion unit 300, it is provided to be operated by the control means 500 to be described later. That is, the control of the transfer motor 440 is a natural solid fuel is filled in the vertical transfer pipe 420 described above is stacked in the form of a triangular pyramid on the side of the image belt means 600 to be described later, the edge is burned, natural burned The natural solid fuel is radially lowered only by the combustion amount of the solid fuel, and thus the lowered area is precisely supplied by the combustion amount of the natural solid fuel. Therefore, the operation of the transfer motor 440 is controlled by the control means 500, which will be described later, as the natural solid fuel is burned repeatedly, the rotation of the transfer screw 430 is controlled, and the rotation of the transfer screw 430 As it is controlled, the amount of natural solid fuel transferred to the combustion unit 300 is controlled. That is, the supply amount of the natural solid fuel to be controlled is the same as or similar to the combustion amount of the natural solid fuel combusted in the oblique combustion unit 322.

The control means 500 controls the operation of the transfer motor 440 of the fuel supply means 400 described above, the inclination combustion of the combustion unit 300 as much as the combustion amount of the natural solid fuel burned by the combustion unit 300 It is formed to extend from the one end side of the fuel supply means 400 to the outside of the main body housing 100 so that the natural solid fuel is supplied into the unit 322, the support swing bearing 510, the combustion detection operation bar 520, It is composed of a fixed bracket 530, the limit switch 540.

The support pivot bearing 510 is formed in a cylindrical shape so that the combustion sensing operation bar 520 to be described later is smoothly turned and one end is supported. One end is formed to protrude out of the main housing 100, and the other end is The chamber body 310 and the heating chamber 320 of the combustion unit 300 is coupled to the inside.

The combustion detection operation bar 520 is filled in the vertical transfer pipe 420 by detecting the supply amount of natural solid fuel stored in the storage unit 200 by the transfer screw 430 of the fuel supply means 400. The natural solid fuel is not continuously supplied before combustion, and is configured to sense the amount of filling in the vertical transfer pipe 420 of the natural solid fuel so that only the amount of the natural solid fuel is supplied after the combustion. That is, the combustion detection operation bar 520 is one side is placed in the coupling groove 422 of the vertical transfer pipe 420, the other side is coupled to the support pivot bearing 510, the fuel supply means 400 By the supply of natural solid fuel of the rotational operation in accordance with the combustion and the supply amount of the natural solid fuel stacked in the vertical transfer pipe 420, as shown in Figures 4 to 6, the return unit 522, the operation The portion 524 and the pressure swing plate 526 are formed.

The return unit 522 is placed in the coupling groove 422 of the vertical transfer pipe 420, one end of which is not fully filled with the natural solid fuel in the vertical transfer pipe 420 pressure turning plate 526 which will be described later ) Is downwardly bent downward by its own weight.

The operation part 524 is provided to the outside of the support pivot bearing 510 on the other side, and is formed to control the power supply of the transfer motor 440 by controlling a short circuit of the limit switch 540 to be described later. It is horizontally bent to face the horizontal side is formed to turn in accordance with the turning operation of the pressure swing plate 526 described later.

The pressure turning plate 526 detects the supply amount of the natural solid fuel transferred through the horizontal transfer pipe 410 and is filled with the natural solid fuel as the natural solid fuel is filled in the vertical transfer pipe 420. It is rotated to the inside of the opposite side of the horizontal transfer pipe 410 by the pressure, is formed downward on one side of the return portion 522, extending vertically down the vertical transfer pipe 420, the horizontal transfer pipe ( Located at right angles to the axis of 410, it is pivoted upon combustion and supply of natural solid fuel.

The fixing bracket 530 is provided to be fixed to the limit switch 540 to be described later, is formed on the outer side of the support pivot bearing 510 protruding to the outside of the main housing 100.

The limit switch 540 is fixedly coupled to the fixing bracket 530 described above. In addition, the pressure turning plate 526 is rotated to the opposite side of the horizontal transfer pipe 410 according to the filling of the natural solid fuel, and the combustion detecting operation bar 520 is turned by the pressure turning plate 526 which is turned. As the pivoting operation, the operation unit 524 is simultaneously pivoted and provided to control the operation of the transfer motor 440 by determining a short circuit of the limit switch 540 according to the pivoting operation of the operation unit 524.

Accordingly, when the return unit 522 of the control unit 500 is downward, the natural solid fuel is not filled in the vertical transfer pipe 420. As shown in FIG. 5, the limit switch ( 540 is provided so that the contact is in the ON state. Accordingly, power is continuously supplied to the transfer motor 440, and the transfer screw 430 is continuously rotated so that the natural solid fuel of the storage unit 200 is positioned vertically above the center of the inclined combustion unit 322. The feed pipe 420 is supplied through the horizontal feed pipe 410.

Thereafter, the natural solid fuel is continuously supplied to the vertical transfer pipe 420 by the above operation, and the natural solid fuel is filled to the vertical transfer pipe 410 from the image belt means 600 which will be described later. In the process, the pressure turning plate 526 pivots toward the opposite side of the horizontal transfer pipe 410 while the operation unit 524 moves toward the contact side of the limit switch 540 and eventually the limit switch 540. Press the contact of). Thereafter, as the contact point of the limit switch 540 is pressed, the power of the transfer motor 440 is cut off, and the rotation of the transfer screw 430 is stopped to supply more natural solid fuel to the combustion unit 300. It doesn't work.

Next, when the natural solid fuel is combusted in the combustion unit 300, the natural solid fuel is burned down to the side of the image belt means 600 which will be described later, the voids are generated in the vertical transfer pipe 420, Accordingly, the pressure turning plate 526 is turned to the horizontal transfer pipe 410 with the return weight of the return unit 522 so that the contact point of the limit switch 540, which is pressed by the operating unit 524, is dropped. The power is supplied to 440 again to rotate and the feed screw 430 is rotated, so that the natural solid fuel is burned and filled as much as the lowered voids.

The image belt means 600 is a natural solid fuel, the vegetable resin or oil is mixed with the ash and solidified, when the solidification, the user must be manually discharged in real time by the automatic discharge to increase the convenience, The natural solid fuel supplied by the fuel supply means 400 is burned, and the combustion waste of the burned natural solid fuel is provided under the combustion unit 300 to automatically discharge in real time to the outside. Here, the image belt means 600, as shown in Figure 7 and 8, the discharge motor 610, the main sprocket 620, the first driven sprocket 630, the second driven sprocket 640, the image It is formed of a chain belt (650).

The discharge motor 610 is the combustion of the bottom side of the main housing 100 to drive the main sprocket 620, the first driven sprocket 630, the second driven sprocket 640, the image chain belt 650 to be described later Positioned below the unit 300, in consideration of the complete combustion time of the natural solid fuel, the image chain belt 650 rotates at a low speed so that one revolution per day. Further, the discharge motor 610 may be controlled according to the characteristics of the natural solid fuel by determining the rotation speed by a controller (not shown).

The main sprocket 620 is formed to have the same rotational speed as the low speed rotation of the discharge motor 610 is directly received by the rotational force of the discharge motor 610, the first driven sprocket 630 is the main sprocket ( 620 is axially coupled and symmetrically formed.

The second driven sprocket 640 is chain-coupled by the image chain belt 650 to be described later and provided at the rear side of the first driven sprocket 630. In addition, the second driven sprocket 640 is axially coupled in the same way as the first driven sprocket 640 described above and is formed symmetrically.

The image chain belt 650 is chain-coupled by the belt chain 652 before and after the first and second driven sprockets 630 and 640 to be symmetrically formed, and the vertical conveying pipe 420 at the center of the symmetrically formed belt chain 652. An image 654 provided to be completely burned by stacking the natural solid fuel supplied through) is integrally formed.

That is, the natural solid fuel is burned in the image 654 of the image belt means 600, and the natural solid fuel ash after being completely burned by the image chain belt 650 which rotates at low speed is automatically discharged.

The auxiliary heating burner 700 detects the internal temperature when the natural solid fuel is initially ignited due to the combustion chamber 300 and the natural solid fuel is not normally burned, and then burns the oil as a fuel to function as a boiler. It is provided on one side of the image belt means 600 to maintain. That is, the auxiliary heating burner 700 serves to assist the initial ignition for burning the natural solid fuel, and also serves as an auxiliary combustion means to completely burn the combustion of the natural solid fuel when it is incompletely burned. .

The collecting container 800 is provided under the above-described image belt means 600, and is provided to collect ash which is combustion waste discharged from the image belt means 600. In addition, the dust collecting means 900 is provided toward the outside of the main body housing 100 to purify and discharge the exhaust gas of the natural solid fuel which is combusted and discharged from the combustion unit 300. Here, the dust collecting means 900 is preferably a cyclone dust collector.

Such a boiler using the combustible natural solid waste as a fuel is a natural solid fuel, such as wood pellets, palm oil shells, sawdust, yulmu shells that can be easily obtained in the vicinity without using oil or gas as a fuel source. By using this, fuel costs can be reduced without using expensive oil and gas fuel. In addition, the user does not need to manually input the natural solid fuel to the fuel supply means 400 controlled by the control means 500 as much as the amount of natural solid fuel that is insufficient due to the complete combustion of the natural solid fuel in the combustion chamber. It is obvious that energy saving can be achieved by being able to supply automatically and achieve continuous thermal efficiency and use.

Furthermore, after a certain time of burning waste generated during the combustion of the natural solid fuel, the user does not need to discharge it by manual operation so that the image 654 of the image belt means 600 rotates at a low speed so as to rotate once a day and burns the image. Natural solid fuel is completely burned in 654, and the ash, which is the combustion waste due to combustion, is collected in the container 800, so that the user is easily discharged to the outside only once a day or several days, thereby maintaining maintenance costs. This is to be saved. In addition, by providing a separate dust collecting means 900 it is possible to prevent the pollution of the surrounding environment due to the combustion gas.

On the other hand, the heating water inlet 312 and after forming the heating water without filling the heating water in the water chamber body 310 of the combustion unit 300 of the boiler using the combustible natural solid waste according to the invention By providing a fan (AN) to allow the inlet and outlet of the air to the heating water outlet 314, respectively, it will be included in the scope of the modified embodiment of the present invention because the role as a hot air fan can be performed simultaneously.

On the other hand, in the detailed description of the present invention has been described with respect to specific embodiments, to those skilled in the art that various modifications are possible without departing from the scope of the invention, such modifications are claimed It is in the range of a base material.

1 is an overall perspective view of a boiler using combustible natural solid waste as a fuel according to the present invention.

2 is an overall front sectional view of a boiler using combustible natural solid waste as a fuel according to the present invention.

3 is a side cross-sectional view of a boiler using combustible natural solid waste as a fuel according to the present invention.

4 is a perspective view of main parts of a fuel supply means and a control means of a boiler using combustible natural solid waste as a fuel according to the present invention;

Figure 5 is a state diagram of the control means of the boiler using a combustible natural solid waste according to the invention as a fuel.

Figure 6 is an enlarged side cross-sectional view of the control means of the boiler using the combustible natural solid waste as a fuel according to the present invention.

7 is a perspective view of main parts of the burn belt means of the boiler using the combustible natural solid waste according to the present invention.

8 is a front sectional view of an essential part of a burn belt means of a boiler using combustible natural solid waste as a fuel according to the present invention.

* Description of the major symbols in the drawings *

100: main body housing 200: storage unit

300: combustion unit 310: water chamber

312: heating water inlet 314: heating water outlet

320: heating chamber 322: inclined burner

324 gas outlet 330 water pipe

400: fuel supply means 410: horizontal transfer pipe

420: vertical transfer pipe 422: coupling groove

430: transfer screw 440: transfer motor

500: control means 510: support swing bearing

520: connection detection operation bar 522: return unit

524: operating unit 526: pressure turning plate

530: fixing bracket 540: limit switch

600: image belt means 610: discharge motor

620: main sprocket 630: first driven sprocket

640: second driven sprocket 650: image chain belt

652: belt chain 654: burns

700: auxiliary heating burner 800: container

900: dust collecting means

Claims (7)

delete A main body housing 100; A storage unit 200 provided inside the main body housing 100 and configured to store and supply natural solid fuel; A combustion unit 300 provided at one side of the storage unit 200 and configured to heat water by combustion heat by burning natural solid fuel; Fuel supply means (400) extending from the storage unit to the combustion unit to supply the natural solid fuel stored in the storage unit (200) to the combustion unit (300); The fuel supply means 400 is controlled to supply only the combustion amount of the natural solid fuel combusted by the combustion part 300, and is extended from one end of the fuel supply means 400 to the outside of the main body housing 100 to be coupled. Control means 500; Burn belt means 600 provided under the combustion unit 300 so that the natural solid fuel supplied by the fuel supply means 400 is combusted, and the combustion waste of the combusted natural solid fuel is discharged to the outside in real time. )and; It is provided on one side of the burn belt means (600), and performs a boiler function by the first ignition according to the natural solid fuel input; When the natural solid fuel is continuously burned by the burn belt means 600, if the internal temperature of the boiler is lowered because it is not normally burned, the natural solid fuel is burned normally with oil as the fuel and the internal temperature of the boiler is increased. Auxiliary heating burner 700 provided to maintain the function of the boiler to rise normally; A bin 800 provided below the burn belt means 600 and arranged to collect combustion waste discharged from the burn belt means 600; And a dust collecting means 900 provided in a cyclone on the upper side of the main body housing 100 to purify and discharge the exhaust gas of the natural solid fuel that is combusted and discharged from the combustion unit, wherein the fuel supply means 400 once A horizontal transfer tube 410 formed in communication with the storage unit 200 and communicating with the other end into the combustion unit 300; The horizontal transfer pipe 410 is standing vertically in communication with the other end, and the coupling groove 422 is formed in the upper outer edge is coupled to the control means 500, the natural solid fuel is stacked on the lower side of the natural according to the amount of combustion A vertical conveying pipe 420 formed to be proximate to the image belt means 600 so that solid fuel is transferred to the lower portion of the image belt means 600; A transfer screw 430 provided inside the horizontal transfer pipe 410 and configured to transfer natural solid fuel from the storage part 200 to the vertical transfer pipe 420 to be combusted in the combustion part 300; The transfer screw 430 is rotated is provided to transfer the natural solid fuel, the transfer motor 440 is provided to be operated by the control means 500; The combustion unit 300 is a natural solid fuel stored in the storage unit 200 is supplied by the fuel supply means 400 controlled by the control means 500, the supplied natural solid fuel is burned by the combustion heat It is formed to heat the heating water, is provided in the main body housing 100, is configured to be sealed in a cylindrical shape, the heating water inlet 312 and the heating water outlet 314 is formed in the upper and lower sides A sealed chamber body 310; It is formed in a cylindrical shape is provided inside the chamber body 310, the inclined combustion portion 322 is communicated to the image belt means 600 side to be discharged with the natural solid fuel is burned on the lower side, the combustion gas to the upper side A heating chamber 320 in which a gas outlet 324 is formed so that the gas is discharged to the outside; And a plurality of water pipes 330 communicating with the water chamber body 310 at the outer circumference of the heating chamber 320 and extending into the heating chamber 320 so as to conduct combustion heat of the natural solid fuel. A boiler using combustible natural solid waste as a fuel. delete The method of claim 2, One end of the control means 500 protrudes outward from the main body housing 100, and the other end of the support swing bearing 510 is coupled to the chamber body 310 and the heating chamber 320 of the combustion part 300. )and; One side is placed in the coupling groove 422 of the vertical transfer pipe 420, the other side is coupled to the support pivot bearing 510, the vertical transfer pipe by the natural solid fuel supply of the fuel supply means 400 A combustion detection operation bar 520 which is rotated according to the combustion and the supply amount of the natural solid fuel laminated in the 420; A fixed bracket 530 coupled to one side of the support pivot bearing 510 protruding outward from the main body housing 100; A limit switch 540 fixedly coupled to the fixed bracket 530 and provided to control the operation of the transfer motor 440 according to the swinging operation of the combustion detecting operation bar 520. Boilers that use natural solid waste as fuel. The method of claim 4, wherein The combustion detection operation bar 520 includes a return portion 522 bent downward so that one end thereof faces downward; An operation unit 524 which is horizontally bent so that the other end thereof is horizontal and controls the limit switch 540 according to a turning operation; A pressure turning plate 526 which is formed downward on one side of the return unit 522 and extends to the internal transfer of the vertical transfer pipe 420 and is swiveled according to the combustion and supply of the natural solid fuel; Boilers that use natural solid waste as fuel. The method of claim 2, The burn belt means 600 is formed to be discharged in real time to the outside of the natural solid fuel burned close to the combustion unit 300, A discharge motor 610 rotating at a low speed; A main sprocket 620 rotated at a low speed by receiving the rotational force of the discharge motor 610; A first driven sprocket 630 axially coupled to the main sprocket 620 and symmetrically formed; A second driven sprocket 640 provided rearward to the first driven sprocket 630 and axially coupled to form a left-right symmetry; Before and after the first and second driven sprockets 630 and 640 are chain-coupled by the belt chain 652 to form the left and right symmetry, the image 654 provided to burn the natural solid fuel in the center of the belt chain 652 formed symmetrically integrally The burner chain belt 650 formed; a combustible natural solid waste, characterized in that provided as a boiler. delete

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