KR20130005417A - Pellet feeder - Google Patents

Abstract

The present invention relates to a pellet feeding device.
To this end, the present invention is a pellet supply device configured to be supplied to the pellet boiler via the feed hose and the feed head is stored in the pellet storage unit by the drive unit, the pellet storage unit is provided before, after the top of the frame The hopper is coupled to the lower part of the left and right walls, the cover is coupled to the upper part of the wall to store pellets in the internal space, and the driving part has one side of the pellet supply spring provided at the lower part of the hopper to the driving motor. Is connected to the chain or belt, the other side of the pellet feed spring is exposed to the outside through the inside of the feed hose connected to the hopper, the feed head is formed with a handle on the upper part of the head body formed with the sight hole on both sides And a pellet supply port is coupled to a lower portion of the head body, and one side of the supply hose to which the pellet supply spring is exposed is formed on the back of the head body. It is coupled to the connector having a through hole formed, characterized in that the hinge convex portion is formed to the lower side of the connector of the head body is rotatably coupled to the hinge portion.

Description

Pellet Feeder {PELLET FEEDER}

The present invention relates to a pellet supply device, and in particular, the pellet is to be easily supplied to the boiler via the feed hose and the feed head by the drive unit in the state in which the pellet used as fuel in the pellet storage unit is stored.

In general, as sawdust has a small amount of heat generated per unit volume, it cannot be used as an energy source, and thus it uses pellets solidified into chips.

Pellet sawdust is solidified in the form of chips. Carbon dioxide emissions are only one-twelfth that of diesel, which is about half the price of diesel based on the same calorific value, and smoke and ash are hardly generated during combustion.

In order to continuously supply pellets to a pellet boiler using pellets, a pellet feeder is used, and the pellet feeder is used by modifying a grain feeder. The grain feeder is a registered utility model publication 20-0348694 ( 2004.04.13) and Korean Utility Model Publication 20-2010-0006112 (June 17, 2010).

However, in the process of supplying pellets to the pellet boiler by using a grain feeder, the pellet boiler is installed at a low level deep in the building structure. Therefore, when supplying pellets using a grain feeder, the worker has to continuously hold the feed hopper. there was.

In addition, since the end of the feed hopper is fixed, there are many difficulties in positioning the end of the feed hopper up to the inlet of the pellet boiler, and when the end of the feed hopper does not coincide with the inlet of the pellet boiler, the pellet is poured out. There was another problem.

In addition, since the spring discharge shaft provided in the lower part of the grain transfer machine is exposed to the inside as it is, the pellets are easily transported, but when the pellets are not moved to the inside of the hose while the pellets are transported. There is another problem that the deformation caused by the spring discharge shaft provided inside the grain transfer machine is twisted due to the overload.

In addition, condensation occurs due to the difference between the internal and external temperature of the winter grain transporter, and due to this, the pellet is wet or frozen, and there is another problem in that the supply is not smooth and the combustion rate is lowered.

The present invention is a pellet inlet of the pellet boiler installed in the lower deep of the building structure so that the pellet can be easily supplied even if the operator does not hold the feed hopper, the end of the feed hopper easily matches the inlet of the pellet boiler It is possible to prevent the pellet feed spring from being warped and deformed into the pellet storage part due to the overload during the pellet feeding process, and also to prevent condensation from occurring in the winter pellet storage part. In this case, it is possible to prevent the pellets stored in the pellet storage from being wet due to the rainy season.

The present invention provides a pellet supply device (A) configured to be supplied to the pellet boiler via the feed hose 30 and the supply head 40 by the drive unit 20 the pellet stored in the pellet storage unit 10, Pellets storage unit 10 is the hopper 13 is coupled to the lower portion of the front, rear, left, right wall 12 provided as an upper portion of the frame 11, the cover 14 on the upper portion of the wall (12) ) Is coupled to the pellet is stored in the inner space, the drive unit 20 is one side of the pellet feed spring 21 provided in the lower portion of the hopper 13 as a chain or belt 23 to the drive motor 22 The other side of the pellet feed spring 21 is connected to the outside of the feed hose 30 connected to the hopper 13 is exposed to the outside, the supply head 40 is a perspective hole 41 is both sides The handle 43 is formed on the upper portion of the head body 42 formed in the pellet feed port 44 is coupled to the lower portion of the head body 42, the pellet One side of the supply hose 30 to which the supply spring 21 is exposed is coupled to a connector 45 having a through hole 451 formed on the rear surface of the head body 42, and a connector of the head body 42. 45) The hinge convex portion 46 is formed downward, and is rotatably coupled to the hinge portion 47.

In addition, the pellet supply port 44 is coupled to the variable supply guide 442 is pivotally coupled to the supply hopper 441 formed in the lower portion of the head body 42, the supply hopper 441 is a lower bolt hole ( A fixed flange 441-2 having a 441-1 is formed, and the variable supply guide 442 has a channel-type fixed guide plate at a lower portion of the movable flange 442-2 having the long hole 442-1. The upper portion of the 442-3 is coupled, and the upper end of the channel-shaped movable guide plate 442-4 is joined to the lower portion of the channel-shaped fixed guide plate 442-3 to be coupled with the hinge pin 442-5. The movable flange 442-2 abuts against the fixed flange 441-2 so that the bolt hole 441-1 and the long hole 442-1 are coupled by the bolt B.

In addition, a spring guide 15 having a semicircular shape that is continuous in the longitudinal direction is screwed to cover the upper portion of the pellet feed spring 21 at the upper portion of the pellet feed spring 21 provided at the lower portion of the hopper 13. The guide flange 152 having the coupling hole 151 is formed to be bent outwardly, and is formed at both lower sides of the spring guide 15, and includes the guide flange 152 of the spring guide 15. It is characterized in that the pellet inlet hole 153 is cut to be spaced apart at regular intervals on both lower sides.

In addition, the hopper 13 of the pellet storage unit 10 is provided with a condensation preventing device 50 therein, the condensation preventing device 50 has one side is closed and the other side is a porous flow passage having an open form (51) is provided horizontally, the extension pipe 52 is coupled to the other side of the porous flow path tube 51, the extension pipe 52 penetrates the hopper 13 to the blower 53 installed on the outside Characterized by being coupled.

In addition, the extension pipe 52 of the condensation preventing tool 50 is characterized in that the heating coil 54 is provided inside the heat generated by the power applied from the outside.

According to the present invention, the pellet can be continuously supplied to the inlet of the pellet boiler via the feed hose and the feed head by the driving unit, whereby the combustion can be prevented from being stopped.

In addition, the iron hinge piece provided in the supply head is coupled to the recessed hinge piece, so that the left and right movement of the feed head is smoothly performed, and the long hole formed in the pellet supply port to the lower portion of the feed hopper is coupled by a bolt, Pellet inlet of the pellet boiler installed in the lower part of the building structure can be obtained effect that the pellet can be easily supplied.

In addition, the spring guide having a pellet inlet hole is coupled to the upper part of the pellet feed spring to prevent the pellet feed spring from being drawn into the pellet storage unit if the pellet feed spring is twisted when an overload occurs during the pellet feed process. It is possible to obtain more effects to prevent deformation.

And by supplying the outside air to the inside through the porous flow path by the blower, the condensation phenomenon generated in the inside of the winter pellet storage unit can be prevented and the pellets stored in the pellet storage unit due to the rainy season in summer You can get more effect to prevent it from happening.

Through this, it is possible to further obtain an effect of further preventing the combustion efficiency (heat value) from being lowered.

1 is a perspective view of a pellet feeding device according to the present invention.
Figure 2 is a longitudinal sectional view of the pellet supply apparatus according to the present invention.
Figure 3 is a cross-sectional view of the pellet feeder according to the present invention.
Figure 4 is a side view of the pellet feeder according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

Pellet supply device (A) according to the present invention, as shown in Figures 1 to 4, the pellets (P) stored in the pellet storage unit 10 by the drive unit 20 supply hose 30 and the supply head ( It is configured to continue to supply to the inlet of the pellet boiler not shown via 40).

Here, the pellet storage unit 10 is configured to be provided with a function to prevent the pellet (P) from being frozen or wet due to condensation during the process of being stored for a long time and stored at the same time.

To this end, the pellet storage unit 10 has an inclination narrowing from the top to the bottom to the bottom of each of the front, rear, left and right walls 12 provided perpendicularly to the upper portion of the frame 11. The formed hopper 13 is coupled, and the cover 14 is coupled to the top of the wall 12 so as to be openable and closed, thereby providing the inside of the front, rear, left and right walls 12 and the hopper 13. The pellets can be stored in the inner space.

The drive unit 20 has a function to ensure that the pellets (P) gathered in the hopper 13 provided at the bottom of the pellet storage unit 10 is always conveyed at a constant speed or a constant amount toward the supply head (40). It is configured to be.

To this end, the drive unit 20 is one side of the pellet feed spring 21 provided in the lower portion of the hopper 13 as a chain or belt 23 to the drive motor 22 provided on the outside of the hopper 13 It is configured to be linked and interlocked.

The pellet feed spring 21 is formed to have a predetermined thickness, that is, a shape thicker than the diameter or size of the pellet P, so that the pellet feed spring 21 is rotated at the bottom of the hopper 13 during pellet feed The spring 21 is able to move the side by pushing the pellet (P).

The other side of the pellet feed spring 21 passes through the inside of the feed hose 30 connected to the hopper 13 so that the end of the pellet feed spring 21 is exposed to the outside of the feed hose 30 have.

The pellet supply spring 21 exposed to the outside of the supply hose 30 is inserted into the head body 42 of the supply head 40 to be described later.

A spring guide 15 having a semicircular shape that is continuous in the longitudinal direction is screwed to cover the upper portion of the pellet feed spring 21 at the upper portion of the pellet feed spring 21 provided at the lower portion of the hopper 13. It is.

Guide flanges 152 having coupling holes 151 are formed to be bent outwardly on both lower sides of the spring guide 15 so as to be engaged with screws or bolts against the lower inner side of the hopper 13, and the guide flanges The pellet inlet hole 153 is cut out at regular intervals on both sides of the lower side of the spring guide 15 including the 152 so that the pellets P can be constantly introduced into the pellet feed spring. It is possible to prevent the 21 from being lifted up while being twisted upward, that is, being deformed into the inside of the pellet storage unit 10.

The supply hose 30 has a predetermined diameter and is formed to have an inner diameter substantially the same as the outer diameter of the pellet supply spring 21, it is preferable to use that freely be formed of a synthetic resin material.

The end of the supply hose 30 is configured to be connected by the connector 45 of the supply head 40, which will be described later, the pellet (P) transferred into the supply hose 30 by the pellet supply spring 21 is It is configured to fall to the supply hopper 441 formed in the lower portion of the head body 42 without being discharged to the outside.

The feed head 40 has a function that can be easily supplied to the inlet of the pellet boiler, the pellet (P) supplied from the hopper 13 of the pellet storage unit 10 through the supply hose 30 It is configured to be provided.

In the supply head 40 having such a function, a handle 43 is formed on an upper portion of the head body 42 on which the sight holes 41 are formed at both sides thereof, and a pellet supply port 44 is disposed below the head body 42. ) Is configured to be combined.

One side of the supply hose 30 to which the pellet supply spring 21 is exposed is coupled by a connector 45 having a through hole 451 formed on the rear surface of the head body 42, and the head body 42. Hinge convex portion 46 is formed below the connector 45, and is configured to be rotatably coupled to the hinge portion 47, which is stably placed on the floor on which the pellet boiler is installed.

The pellet supply port 44 of the pellet boiler is installed in a specific position, that is, deep in a narrow space of the pellet (P) that falls through the supply hose 30 to the inside of the head body 42 of the supply head 40 It is configured to provide a function that the pellet (P) can be easily supplied to the inlet.

The pellet supply port 44 having such a function is coupled to the variable feed guide 442 is pivotally coupled to the supply hopper 441 formed in the lower portion of the head body 42, a bolt hole in the lower portion of the supply hopper 441 A fixed flange 441-2 having a 441-1 is integrally formed so that the long hole 442-1 formed in the movable flange 442-2 of the variable supply guide 442 is abutted to the bolt B. By being coupled, the movable flange 442-2 can be rotated by the length of the long hole 442-1 along the bolt (B).

An upper portion of the channel type fixed guide plate 442-3 is coupled to a lower portion of the movable flange 442-2, and a channel type movable guide plate 442- is located below the channel type fixed guide plate 442-3. The upper end of 4) is joined to the hinge pin (442-5) is configured so that the channel-shaped movable guide plate (442-4) can be changed at any angle. At this time, the movable flange 442-2 is abutted against the fixed flange 441-2, and the bolt hole 441-1 and the long hole 442-1 are coupled by the bolt B, so that the bolt B When tightening tightly, the variable supply guide 442 is fixed, and when the bolt (B) is weakly tightened, the variable supply guide 442 is rotatable.

The inside of the hopper 13 of the pellet storage unit 10 is a dew condensation room which is provided with a function of preventing condensation from occurring inside the winter due to a temperature difference between the inside and the outside of the winter, or moisture in the pellets due to the rainy season in the summer. Earth 50 is provided.

The condensation preventing device 50 is one side is closed and the other side has a porous flow passage 51 having an open shape is provided horizontally in the hopper 13 of the pellet storage unit 10, the porous flow path Pellet storage unit 10 is coupled to the other side of the extension pipe 52 penetrating the hopper 13, coupled to the blower 53 installed in the extension pipe 52, the winter air is stored pellet (P) By being supplied to the hopper 13 of), air can be circulated therein to prevent condensation.

In the present invention, the extension pipe 52 of the condensation preventing device 50 is to be directly coupled to the blower 53 so that the outside air is simply supplied to the inside of the hopper 13, but in addition to this form inside the extension pipe 52 When the heating coil 54 is provided, heat is generated by the power applied from the outside, so that the wet pellets (P) stored in the pellet storage unit 10 due to the summer rainy season to dry only moisture It can be easily removed.

The process of supplying the pellets P stored in the pellet storage unit 10 by the pellet supply device A is as follows.

First, the feed head 40 connected to the supply hose 30 is moved into the inside of the structure in which the pellet boiler is installed, and then the recessed hinge piece 47 is stably placed near the inlet of the pellet boiler, and the supply head 40 is provided. The head body 42 of the supply head 40 is installed by coupling the iron hinge piece 46 formed in the head body 42 of the main body hinge piece 47.

Next, the nut coupled to the bolt (B) is loosened to rotate the channel type fixed guide plate 442-3 coupled to the lower portion of the fixed flange 441-2 of the supply hopper 441, and at the same time the movable flange 442-2. The channel-shaped fixing guide plate 442-3 is rotated along the long hole 442-1 formed in the above, and the movable flange 442-2 is fixed flange 441-2 by tightening the nut at an appropriate position. It is fixed to the bottom of the.

Next, the channel type movable guide plate 442-4 is flipped so that the end of the channel type movable guide plate 442-4 is positioned at the inlet of the pellet boiler.

Next, the power is applied to the drive motor 22 of the drive unit 20 and at the same time the drive motor 22 is rotated, and due to the rotation of the drive motor 22, the pellet supply spring (by the chain or belt 23) 21) will be rotated.

Next, the pellet P is supplied to the head body 42 of the supply head 40 through the supply hose 30 as the pellet supply spring 21 rotates. At this time, the pellets (P) stored in the hopper 13 of the pellet storage unit 10 is gathered to the upper portion of the pellet feed spring 21 is formed by the inclination of the hopper 13, the upper portion of the pellet feed spring 21 As the pellets P collected are continuously supplied through the pellet inlet hole 153 formed in the spring guide 15, the pellets P fall into the supply hopper 441 through the interior of the head body 42. Will be.

Next, the pellets P dropped into the feed hopper 441 are introduced into the pellet boiler through the channel-type fixing guide plate 442-3 and the channel-type movable guide plate 442-2 of the pellet supply port 44. Will be supplied.

On the other hand, due to the inside of the supply hose 30 or other causes in the process that the pellet (P) is supplied, the pellet (P) is not transferred to the supply hose 30 and at the same time overload is generated, thereby The pellet feed spring 21 is twisted.

Next, the plunging pellet feed spring 21 is to be lifted into the hopper 13 of the pellet storage 10, but at this time the upper portion of the pellet feed spring 21 is covered by the spring guide 15 The deformation is thus prevented.

Meanwhile, in the winter season, the air introduced through the blower 53 is supplied to the hopper 13 of the pellet storage unit 10 in which the pellets P are stored through the porous flow path tube 51 via the extension pipe 52. By doing so, air is circulated therein and condensation can be prevented.

In addition, when the pellets P stored in the pellet storage unit 10 are wet due to the rainy season in the summer, the air introduced through the blower 53 is generated in the heating coil 54 in the process of passing through the extension pipe 52. Pellets P are supplied to the hopper 13 of the stored pellet storage unit 10 through the porous flow path tube 51 while being heated by heat, thereby drying only the wet pellets P to facilitate moisture. Can be removed.

10: pellet storage unit 11: frame
12: Before, after, left, right Wall 13: Hopper
14: cover 20: drive unit
21: Pellet supply spring 22: Drive motor
23: Chain or belt 30: Supply hose
40: supply head 41: see-through hole
42: head body 43: handle
44: pellet supply port 45: connector
46: Hinge iron part 47: Hinji part
451: through hole

Claims (5)

In the pellet supply device (A) configured to be supplied to the pellet boiler via the supply hose 30 and the supply head 40 by the drive unit 20, the pellet stored in the pellet storage unit 10,
The pellet storage unit 10 is a hopper 13 is coupled to the lower portion of the front, rear, left, right wall 12 provided as an upper portion of the frame 11, the cover (top) of the wall (12) 14 is coupled to the pellet is stored in the inner space, the drive unit 20 is one side of the pellet feed spring 21 provided in the lower portion of the hopper 13 is a chain or belt 23 to the drive motor 22 The other end of the pellet feed spring 21 passes through the inside of the feed hose 30 connected to the hopper 13 and is exposed to the outside, and the feed head 40 has a see-through hole 41 A handle 43 is formed at an upper portion of the head body 42 formed at both sides, a pellet supply port 44 is coupled to a lower portion of the head body 42, and the pellet supply spring 21 is exposed. One side of the supply hose 30 is coupled to the connector 45 having a through hole 451 formed on the rear surface of the head body 42, and hinged below the connector 45 of the head body 42. Convex pieces pellet feeder (46), it characterized the doeeojim is formed rotatably coupled to the hinge recess side (47). The method of claim 1,
The pellet supply port 44 is coupled to the variable supply guide 442 is pivotally coupled to the supply hopper 441 formed in the lower portion of the head body 42, the supply hopper 441 is a bolt hole 441 in the lower portion A fixed flange 441-2 having a 1) is formed, and the variable supply guide 442 is a channel-shaped fixed guide plate 442- below the movable flange 442-2 having the long hole 442-1 formed therein. The upper part of 3) is coupled, and the upper end of the channel-shaped movable guide plate 442-4 is joined to the lower portion of the channel-shaped fixed guide plate 442-3, and coupled to the hinge pin 442-5, The movable flange (442-2) abuts on the fixed flange (441-2), the bolt hole (441-1) and the long hole (442-1) is characterized in that the pellet supply device characterized in that coupled by the bolt (B). The method of claim 1,
A spring guide 15 having a semicircular shape that is continuous in the longitudinal direction is screwed to cover the upper portion of the pellet feed spring 21 at the upper portion of the pellet feed spring 21 provided at the lower portion of the hopper 13. The guide flange 152 having the coupling hole 151 is formed to be bent outwardly on both lower sides of the spring guide 15, and both lower sides of the spring guide 15 including the guide flange 152. Pellet inlet hole 153 is a pellet supply device characterized in that the cut is formed to be spaced apart at a predetermined interval. The method of claim 1,
The hopper 13 of the pellet storage unit 10 is provided with a condensation preventing device 50 therein, the condensation preventing device 50 has one side is closed and the other side is a porous flow path tube 51 having an open shape ) Is provided horizontally, the extension pipe 52 is coupled to the other side of the porous flow path tube 51, the extension pipe 52 is coupled to the blower 53 installed outside through the hopper 13 Pellet supply device characterized in that. The method of claim 5,
Extension pipe (52) of the condensation preventing device (50) is provided with a heating coil (54) inside the pellet supply device characterized in that heat is generated by the power applied from the outside.

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