KR101156189B1 - Fuel feeder of Boiler for livestock manure derived solid fuel - Google Patents

Abstract

The present invention relates to a fuel supply apparatus of a boiler for solid fuel.
The present invention provides a fuel supply apparatus for a boiler for condensed solid fuel, comprising: a housing having an input door into which condensed solid fuel is input at an upper portion thereof, and a supply part configured to supply a predetermined amount of condensed solid fuel at a lower surface thereof; And a transport member installed at an angle to one side of the housing by a predetermined angle, the lower one side of which is connected to the supply part, and on which a axial solid fuel is seated, and a link chain coupled to the transport member to rotate the transport member; It provides a fuel supply device for a shaft solid fuel boiler comprising a; a fuel transfer device which is coupled to the chain to provide a rotational force and the driving means for transferring the axial solid fuel seated on the transfer member to the fuel outlet.

Description

Fuel feeder for boilers for livestock solid fuels {Fuel feeder of Boiler for livestock manure derived solid fuel}

The present invention relates to a condensed solid fuel boiler which can obtain heating water and hot water by using condensed fuel, which is an environmentally friendly fuel. More specifically, the condensed solid fuel obtained by compression molding the condensed powder to a predetermined size is continuously supplied to the boiler. The present invention relates to a fuel supply apparatus for a boiler for solid fuel, which is configured to be supplied.

In general, livestock manure discharged from livestock farms is a major cause of environmental pollution such as water quality or soil pollution.

For example, studies are being actively conducted to use constituents, which are only wastes, as fuels for boilers, and boilers using such constituent fuels are also being developed.

Patent No. 888810 previously filed and registered by the applicant of the present invention as a boiler using the above-mentioned constituent fuel is known.

The pre-registered patent generally shows an appropriate technique as a boiler for obtaining heating water and hot water by using livestock as a fuel, but the livestock used in the boiler is a fuel obtained by drying or fermenting livestock manure. Fuel in form or powder form is used.

As described above, the combustion efficiency of the fuel using the small particle form or powder form of the axial powder is reduced, which is a limiting factor in improving the performance of the boiler, and there is a problem in that dust is generated from the axial fuel to pollute the surroundings.

Therefore, in recent years, attempts have been made to compression-shaft shaft powder to produce shaft solid fuel having a predetermined size and to use it as fuel for a boiler.

In order to solve the above problems, the present invention is formed in a cylindrical shape, the fuel supply device for supplying a high-efficiency, light and hard solid solid fuel to the boiler because it is formed of a diameter of 40 ~ 50mm, 50 ~ 60mm in length By providing a, the purpose is to greatly contribute to the improvement of the performance of the boiler.

In order to achieve the above object, the present invention is a fuel supply device for a axial solid fuel boiler, is provided with an input door to the axial solid fuel is injected into the upper portion, a supply portion for supplying a fixed amount of the axial solid fuel on one side is formed The housing includes a guide plate for preventing the axial solid fuel from falling downward, and a rotation suppression plate rotatably coupled by a hinge such that the guide plate rotates only upward. It is installed on one side of the supply part of the housing and provided with a stirring motor to provide a rotational power to prevent the interruption of fuel supply due to the bridge phenomenon, and the agitator rotated by the stirring motor to provide a smooth supply of axial solid fuel Stirring device to be made; And a transport member installed at an angle to one side of the housing by a predetermined angle, the lower one side of which is connected to the supply part, and on which a axial solid fuel is seated, and a link chain coupled to the transport member to rotate the transport member; It provides a fuel supply device for a shaft solid fuel boiler comprising a; a fuel transfer device which is coupled to the chain to provide a rotational force and the driving means for transferring the axial solid fuel seated on the transfer member to the fuel outlet.

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In addition, the driving means of the fuel transfer device is a drive sprocket fastened to the upper side of the link chain, a drive motor connected to the drive sprocket to provide a rotational force, and is connected to the drive motor to constantly reduce the rotational force It provides a fuel supply device for a shaft solid fuel boiler, characterized in that consisting of a drive sprocket rotatably coupled to the drive sprocket, and a driven sprocket fastened to the lower side of the link chain.

In addition, the present invention, the link chain is provided with a guide rail for preventing jams generated during fuel transport by guiding the axial solid fuel to be stably transported. Provide a feeder.

In addition, the present invention provides a fuel supply device for the axial solid fuel boiler, characterized in that the discharge outlet plate is formed in the fuel outlet to enable the axial solid fuel conveyed by the fuel transfer device to be smoothly supplied to the fuel outlet. do.

According to the present invention, by preventing the jamming or clogging caused when supplying the cylindrical axial solid fuel to the boiler, it is possible to generate a high thermal efficiency through the smooth fuel supply of the boiler, and to significantly improve the performance of the boiler It works.

1 and 2 are a perspective view schematically showing a fuel supply apparatus of a boiler for axial solid fuel in accordance with a preferred embodiment of the present invention,
Figure 3 is a longitudinal sectional view schematically showing a fuel supply apparatus of the boiler for axial solid fuel in accordance with a preferred embodiment of the present invention,
4 and 5 are cross-sectional views taken along line A-A 'and line B-B' of FIG. 1;
Figure 6 is an enlarged view of the main portion of the fuel supply apparatus of the boiler for axial solid fuel in accordance with a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the elements of each drawing, it should be noted that the same reference numerals are used to refer to the same elements even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 and 2 are a perspective view schematically showing a fuel supply apparatus of a boiler for condensed solid fuel according to a preferred embodiment of the present invention, Figure 3 is a fuel supply device for a condensed solid fuel boiler according to a preferred embodiment of the present invention. 4 and 5 are cross-sectional views taken along line A-A 'and line B-B' of FIG. 1, and FIG. 6 is a fuel supply apparatus for a solid fuel boiler according to a preferred embodiment of the present invention. It is an enlarged view of the main part.

As shown, the fuel supply device of the present invention is configured in the form of a hopper, the injection door 110 for injecting the axial solid fuel is installed on one side of the housing 100, housing ( It comprises a fuel feeder 200 for transferring the fuel stored in the 100 and the stirring device 300 for stirring the axial solid fuel stored in the housing (100).

The housing 100 has a supply unit 120 for supplying the fuel injected by the fuel transfer device 200 is connected to the lower end of one side thereof, the stirring device 300 is installed to one side of the supply unit 120 is the housing 100 Agitated solid fuel stored in) at regular intervals to prevent bridge phenomenon.

Here, the bridge phenomenon refers to the fact that each of the solid condensed fuel is agglomerated with a certain amount of time after a certain time due to the nature of the solid condensed fuel, the size is increased, the smooth supply to the supply unit 120, the stirring device 300 is this In order to prevent the bridge phenomenon in which the pulverized solid fuel is agglomerated, the stirring motor 310 and the agitator 320 are configured to stir the pulverized solid fuel.

In addition, the housing 100 has a guide plate 130 for guiding the stored solid powdered fuel to be smoothly supplied to the fuel transport device 200 and preventing the solid fuel from falling downward when it is transported. Is rotatably coupled to one side of the.

Here, the guide plate 130 is rotatably coupled by the supply unit 120 and the rotation suppressing plate 132, it is to be coupled by the hinge 134 is commonly used as a rotating medium.

That is, when the axial solid fuel introduced into the housing 100 is transferred through the transfer member 230 of the fuel transfer device 200, the axial solid fuel located in the supply unit 120 formed below the housing 100. In order to move sequentially, at this time, the guide plate 130 is limited by the rotation suppression plate 132 is rotated downward so that the axial solid fuel exited to the lower end of the supply unit 120 driven sprocket of the fuel transfer device 200 It is prevented to fall to the (224) side, and when the conveying member 230 is moved in the upward direction, the guide plate 130 is rotated upward by the conveying member 230 so that a certain amount of axial solid fuel is supplied.

On the other hand, the fuel transfer device 200 mounted on one side of the housing 100 is installed in a form inclined by a predetermined angle from the housing 100 is configured to be more stably transported axial solid fuel.

The fuel transfer device 200 is coupled to the link chain 210 for transporting the axial solid fuel, the drive means 220 is coupled to the link chain 210 to provide power, and the link chain 210 is connected to the shaft drum solid fuel. It is coupled to the rear surface of the transport member 230 and the link chain 210 is seated, and comprises a guide rail 240 for preventing the jam (Jam) phenomenon of solid fuel.

Link chain 210 is fastened by the transfer member 230 and the bolt, nut, etc. to move the transfer member 230 by the drive means 220, a plurality of link chains 210 are connected to drive means to be described later It is fastened to the drive sprocket 222 and the driven sprocket 224 of 220, respectively.

The driving means 220 is fastened with the link chain 210, and operates the link chain 210, and is fastened with the drive sprocket 222 connected with the drive motor 226 on the upper part of the link chain 210. The lower part is coupled to the driven sprocket 224 to operate the link chain 210 by the driving sprocket 222 rotating according to the driving of the driving motor 226.

The drive unit 220 is configured to be connected to the drive motor 226 is a reducer 250 for adjusting the rotational amount of the drive sprocket 222 according to the supply amount of solid fuel of the scale shaft of the boiler, is configured in the reducer 250 The rotating shaft 252 is coupled to the drive sprocket 222 to transmit the rotational force of the drive motor 226 to the drive sprocket 222.

In addition, the guide rail 240 configured to be spaced apart from the link chain 210 by a predetermined interval is installed from the lower portion of the supply portion 120 of the housing 100 to the driving sprocket 222 in a state fixed to the housing 100. The guide rail 240 has a width slightly wider than the width of the guide plate 130, as shown in FIG. 3, and is formed of an inclined surface extending from both sides of the bottom surface and inclined outwardly to approximately V. It forms a shape.

By forming the guide rail 240 in a substantially V-shape as described above, a jam does not occur when the solid fuel in the housing 100 is placed on the upper side of the transfer member 230 at the lower end of the supply unit 120, and the fuel does not occur. Is to be placed on the transfer member 230 one by one.

In addition, the link chain 210 is formed between one side of the fuel transfer device 200 is formed between the fuel outlet 202 for supplying solid fuel to the boiler and the link chain 210 rotated by the driving means 220. It is preferable that the discharge guide plate 204 is formed so that the axial solid fuel conveyed by the conveying member 230 coupled to the fuel is smoothly conveyed to and discharged from the fuel outlet 202.

The discharge guide plate 204 is formed to protrude from the body of the fuel transfer device 200 to be configured between the end of the fuel outlet 202 and the rotation radius of the transfer member 230 coupled to the link chain 210.

In addition, the upper and lower portions of the fuel transporting device 200 in which the driving means 220 are configured, respectively, are coupled to each other by a bolt and a nut, and a maintenance cover 206 that is separately coupled for maintenance of the driving means 220. Preferably, the lower portion of the fuel feeder 200 in which the driven sprocket 224 is installed is preferably configured to treat the residue of the axial solid fuel.

According to the present invention configured as described above, when the driving motor 226 of the driving means 220 is supplied to supply the solid fuel stored in the housing 100, the driving sprocket 222 fixed to the rotating shaft 252 of the reducer 250. ) Rotates counterclockwise, the link chain 210 connected between the drive sprocket 222 and the driven sprocket 224 and the transfer member 230 fixed to the link chain 210 are The rotational movement is performed according to the driving.

At this time, the axial solid fuel introduced into the housing 100 is placed one on the plurality of conveying members 230 fixed to the link chain 210 at a predetermined pitch to move upward along the moving direction of the link chain 210. When the conveying member 230 moves upward and passes through the uppermost portion where the driving sprocket 222 is installed, the conveying member 230 changes direction downward and at the same time, the axial solid fuel loaded thereon is transferred to the conveying member 230. Will fall by.

In addition, the axial solid fuel dropped from the conveying member 230 is discharged through the fuel outlet 202 installed on one side of the housing 100 is supplied to the boiler, the supply amount of the solid fuel is the rotational speed of the link chain 210 Can be adjusted by adding or subtracting.

As such, when the axial solid fuel injected into the housing 100 is placed on the transfer member 230 and transferred, the axial solid fuel is sequentially moved from the axial solid fuel positioned in the supply unit 120 formed below the housing 100. Injected axial solid fuel has a structure that is used first, the guide plate 130 installed on the lower end of the supply unit 120 serves to prevent the axial solid fuel falling in the direction of the driven sprocket 224.

On the other hand, the guide rail 240 prevents jams of the axial solid fuel, which is likely to occur in the supply unit 120 when the axial solid fuel is loaded on the plurality of transfer members 230, and the solid fuel is transferred to the transfer member 230. The guide rails 240 are formed on the bottom plate and the inclined planes inclined outwardly from both sides of the bottom plate to form an approximately V-shape so that the solid fuel is jammed. It is accommodated in the guide rail 240 without a phenomenon is placed on the conveying member 230 one by one to be conveyed.

In addition, in a process in which axial solid fuel introduced into the housing 100 is sequentially placed on the transfer member 230 and transferred to the fuel outlet 202, a bridge phenomenon may occur in the housing due to the characteristics of the fuel. Due to the bridge phenomenon, the axial solid fuel located in the upper portion is not moved downward, and thus the fuel supply to the boiler is stopped. In the present invention, the lower one side of the housing 100 is prevented to stop the fuel supply due to such a bridge phenomenon. The agitator 320 is rotated by the stirring motor 310 to allow the fuel to be smoothly supplied.

That is, the stirring motor 310 is always driven so that the supply of fuel is not interrupted due to the bridge phenomenon in the housing 100. When the stirring motor 310 is driven, the agitator 320 rotates to maintain the bridge phenomenon. To make sure that fuel is supplied smoothly.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: housing 110: input door
120: supply unit 130: guide plate
132: rotational restraint plate 134: hinge
200: fuel feeder 202: fuel outlet
204: discharge guide plate 206: maintenance cover
210: link chain 220: drive means
222: drive sprocket 224: driven sprocket
226: drive motor 230: transfer member
240: guide rail 250: reducer
252: rotating shaft 300: stirring device
310: stirring motor 320: agitator

Claims (6)

In the fuel supply device of the axial solid fuel boiler,
An input door into which axial solid fuel is introduced is provided at an upper portion, and a supply portion for supplying a predetermined amount of axial solid fuel is formed at one side of the lower portion, and the supply portion includes a guide plate for preventing the axial solid fuel from falling downward, and the guide plate is upwardly disposed. A housing in which a rotation suppression plate is rotatably coupled by a hinge so as to be rotated only;
It is installed on one side of the supply part of the housing and provided with a stirring motor to provide a rotational power to prevent the interruption of fuel supply due to the bridge phenomenon, and the agitator rotated by the stirring motor to provide a smooth supply of axial solid fuel Stirring device to be made; And
It is installed to be inclined by a predetermined angle on one side of the housing, the lower one side is in communication with the supply portion, the conveying member is seated axial solid fuel, the link chain coupled to the conveying member to rotate the conveying member, the link chain And a fuel transfer device coupled to the fuel supply unit to provide rotational force and to transfer the axial solid fuel seated on the transfer member to the fuel outlet.
Fuel supply device for the axial solid fuel boiler comprising a.
delete delete The method of claim 1,
The driving means of the fuel transfer device
A drive sprocket fastened to the upper side of the link chain, a drive motor connected to the drive sprocket to provide a rotational force, a reducer connected to the drive motor to constantly reduce the rotational force and rotatably coupled to the drive sprocket; Fuel supply device for a axial solid fuel boiler, characterized in that consisting of a driven sprocket fastened to the lower side of the link chain.
The method of claim 1,
The link chain has a guide rail for preventing jams generated during fuel transfer by guiding the axial solid fuel to be stably transported.
The method of claim 1,
And a discharge guide plate is formed at the fuel outlet so that the axial solid fuel transferred by the fuel transfer device can be smoothly supplied to the fuel outlet.

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