KR101412685B1 - Cooling device of the pellet - Google Patents

Abstract

The present invention relates to an apparatus for cooling pellets, more particularly, to an apparatus for cooling pellets which includes: a cooling tank which has a pellet insertion hole to which formed pellets are inserted and which is formed in one direction of an upper end, a dust discharge pipe which is connected to a blower and dust collector side at one side in which the pellet insertion hole is formed to discharge foreign substances and dust put on pellets which fall inside, a plurality of pellet detection sensors with different heights at one side to detect the loaded amount of pellets inserted inside, and a bottom plate mounted inside the lower end of of the discharge units and has discharge units with a predetermined distance to uniformly discharge the loaded pellets downwardly; a fixation frame which is installed at a lower part of the cooling tank with a predetermined height to install the cooling tank on the ground with a predetermined height; a discharge hopper with an upper-wide lower-narrow-structure, of which upper end is connected to the bottom surface of the cooling tank and has a discharge hole through which the fallen pellets are collected and discharged; and a pellet discharge control unit which is installed in between the lower part of the cooling tank and the top surface of the discharge hopper to control the discharge amount of pellets which are discharged from the cooling tank to the discharge hopper.

Description

[0001] Cooling device of the pellet [

The present invention relates to a pellet cooling apparatus, and more particularly, to a pellet cooling apparatus for pelletizing various kinds of pellets, which are compression-molded at a high pressure, to cool pellets generated during the molding process and produce pellets of high quality, Cooling device.

Pellets are produced in a variety of shapes, sizes and types, ranging from wood-based heating fuels to livestock and fish meal feed, to various composts.

Some of these pellets are produced using a single raw material, but most of them are mixed with different raw materials and are compression molded for use.

For example, a pellet used as a heating material is compressed and formed into a predetermined size by using sawdust generated during the processing of wood, and a high temperature is generated in the compression process.

Since the pellet is compressed and molded at a high pressure in a pellet molding machine, the pellet is compression-molded while maintaining a certain water content before pellet molding. Therefore, various types of foreign substances adhere to the surface of the pellet immediately after being molded to a predetermined size. The pellets are transported to the next process with the foreign substance sticking on them, and after they are sorted and temporarily stored, they are shipped to the product after weighing.

 Therefore, in the case of pellets shipped to the final product, there is a disadvantage in that when the pellets are solidified in a state that dust or sawdust powder stuck to the pellets are stuck in the molding process and shipped to a product, the merchantability of the pellets is apparently lowered. In case of immediate packaging, the heat in the sealed packaging paper cools down, causing moisture to be generated, which caused the product to easily deteriorate.

Therefore, a deodorizing and cooling means is required during the pellet forming process in order to cool off the foreign substances sticking to the pellet surface after pellet molding.

According to such a necessity, in the case of a pellet molding apparatus used conventionally, a drying process for drying the molded pellets and a drying apparatus having a dryer for drying the molded pellets are used, but the configuration of the apparatus is complicated and drying The foreign matter sticking to the surface of the pellet was dried together with the pellet, and the state of sticking to the surface of the pellet was maintained as it was, so that the effect of removing the foreign matter was insignificant.

Further, in the process of moving the pellets or in the selection process, an air blower is installed to dry the pellets, and the foreign substances adhering to the pellets are desorbed. However, the efficiency is low.

That is, in the case of the pellets which are loaded on the conveyor and moved, even if air is blown, only the pellets loaded on the outside of the pellets are dried and debris is separated, so that the drying and desorption of the pellets can not be performed uniformly. There is a disadvantage that the merchantability can not be greatly improved.

Korean Registered Patent No. 10-1033860 (Registered: May.05, 2011, name: solid fuel in the form of pellets and method for producing the same) Korean Patent Registration No. 10-0878051 (Registered Date: 2009.01.05, Name: Wood pellet manufacturing method and wood pellet manufacturing facility)

Disclosure of the Invention The present invention has been conceived to overcome the disadvantages of the conventional pellets and pellet molding apparatuses described above, and it is an object of the present invention to provide a pellet- And to provide a pellet cooling apparatus capable of improving the pellet cooling apparatus.

Particularly, it is possible to improve the cooling efficiency of the pellets and the discharge performance of the dust by inducing the air flow in the direction opposite to the falling of the molded pellets and forming the spiral protruding vanes at the inner periphery of the dust discharge pipe, The pellet cooling device according to the present invention is a pellet cooling device having a simple structure for moving a pellet, and the pellet can be easily adjusted in accordance with the size of pellets to be discharged.

In order to achieve the above-mentioned object, the pellet cooling apparatus according to the present invention is characterized in that the pellet input port through which the molded pellets are fed is formed in one direction of the upper end, connected to the fan and the dust collector side, A pellet detection sensor is provided on the outer side of the pellet to detect the amount of the pellets to be pelletized therein. The pellet detection sensor is mounted on the pellet, And a bottom plate provided at an inner side of a lower end of the cooling tank. A fixed frame installed at a predetermined height below the cooling tank so that the cooling tank is installed at a predetermined height from the ground; An upper end connected to a bottom surface of the cooling tank, and a lower end having an outlet for concentrating and discharging the dropped pellets into one place, And pellet discharge adjusting means installed between the lower portion of the cooling tank and the upper surface of the discharge hopper so as to control the discharge amount of the pellets discharged from the cooling tank to the discharge hopper.

Particularly, the dust exhaust pipe of the cooling tank has a structure in which spiral protruding vents are formed on the inner circumferential surface of the cooling tank so that air and foreign substances discharged from the cooling tank are discharged at a high speed.

Further, the lower width of the cooling tank is formed to be smaller than the upper inner width of the discharge hopper, and is located inside the upper edge of the discharge hopper at a distance from the upper edge of the discharge hopper, And has an inlet port formed therein.

The pellet discharge adjusting means may include a plate member having a predetermined width so as to close the discharge unit at a lower end of the discharge unit formed between the bottom plates of the cooling tank, A rotation driving part which is fixedly installed on the upper end of the fixed frame and outside the lower end of the cooling tank and is rotated by a supplied power source; and a rotation driving part installed between the rotation driving part and the blocking plate, So as to open or close the discharge portion of the bottom plate.

The rotation driving unit includes a rotary motor that rotates at regular intervals according to a signal from the control unit, a rotary plate coupled to the rotary shaft of the rotary motor to be connected to the connection member to enable lateralization of the connection member, And a plurality of fastening holes penetrating through the central portion of the rotary plate so as to adjust horizontal movement of the member and lateral movement of the connection member so that one end of the connection member can be engaged.

In addition, a pellet scattering plate is disposed inside the cooling tank on the lower side where the pellet inlet port is formed. The pellet scattering plate is disposed so that the pellets collide with each other when the pellets are dropped from the pellet inlet port and are uniformly accumulated in the cooling tank.

The pellet cooling apparatus according to the present invention is configured to cool the pellets while allowing the outside air to pass from the bottom to the top of the pellets falling down from the top of the cooling tank to the bottom, Not only the cooling efficiency of the pellets can be increased, but also the removal of dust and foreign matter can be efficiently removed.

Especially, a spiral protruding vane is formed on the inner circumferential surface of the dust exhaust pipe of the cooling tank, so that the flow of the air discharged from the cooling tank is accelerated, so that dust and foreign matter can be discharged more efficiently.

Further, the pellet discharge adjusting means provided at the lower part of the cooling tank is horizontally moved by the decelerating motor so as to minimize the power required to operate the shut-off plate and to easily adjust the discharge clearance according to the size of the pellet .

1 is an external perspective view of a pellet cooling apparatus according to the present invention,
2 is a front view of a pellet cooling apparatus according to the present invention,
3 is an exploded perspective view of a main part of a pellet cooling apparatus according to the present invention,
Figs. 4 and 5 are vertical cross-sectional views of the upper end of the cooling tank and the pellet discharge adjusting means,
FIG. 6 and FIG. 7 are installation configuration diagrams of the pellet cooling apparatus according to the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings attached hereto.

In the detailed description of the present invention, a detailed description of the general pellet forming process and apparatus will be omitted, and a detailed description will be given focusing on the features of the present invention.

That is, in the pellet cooling apparatus according to the present invention, the pellets formed in the pellet molding machine are supplied and kept for a predetermined time, and the air introduced from the outside flows down from the lower part of the cooling tank, And dust and the like adhering to the surface of the substrate can be discharged to the outside.

Therefore, the pellet cooling apparatus of the present invention is installed and used in the next step of the pellet molding machine, and a separately installed dust collector and an air blower are connected to the dust exhaust pipe provided at the upper part of the cooling tank so that external air is introduced and discharged, And is configured to suck air.

 Figs. 1 to 3 show an external appearance, a front view, and a side view, respectively, of a pellet cooling apparatus according to the present invention.

1 to 3, a pellet cooling apparatus 100 according to the present invention includes a cooling tank (not shown) having a predetermined size A fixing frame 40 having a rectangular structure is installed at a lower end of the cooling tank 10 so that the cooling tank 10 can be installed at a predetermined height from the ground, And the upper end of the stationary frame 40 is provided with a pellet discharge adjusting means 50 for adjusting the discharge amount of the pellets loaded in the upper side cooling tank 10.

A pellet inlet port 12 through which pellets molded from a pellet molding machine (not shown) is inserted is formed at the upper center of the cooling tank 10, and an inner side of the cooling tank 10 is connected to one side of the pellet inlet port 12. And a dust discharge pipe 14 through which air including foreign matter and dust is discharged is protruded by a predetermined length.

In addition, on one side surface of the body portion of the cooling tank 10, a monitoring window 17 capable of seeing the inside of the cooling tank 10 can be opened and closed. On the other side, A plurality of pellet detection sensors 16 for detecting the amount of pellets loaded in the cooling tank 10 and controlling the opening and closing operation of the pellet discharge adjusting means 50 are installed at a predetermined distance from the upper side and the lower side of the cooling tank 10, A plurality of fixed brackets 19 are provided to be firmly coupled to the upper side of the fixed frame 40 with fasteners or the like.

  A cooling hopper 30 having a cooling hopper 30 and a cooling hopper 30 having a symmetrical shape is installed at a lower end of the cooling tank 10 in a stationary frame 40. The hopper 30 has an upper end and a lower end, Like structure in which the inner width gradually decreases so that the dropped pellets can be collected and discharged at one place, and the discharge port 32 is formed at the center of the tapered structure.

Preferably, the discharge port 32 is rotatable, and a discharge port 33 for controlling the opening and closing of the discharge port 32 is separately provided in the inner diameter direction.

A pellet discharge adjusting means 50 is provided between the cooling tank 10 and the discharge hopper 30 to adjust the amount of the pellets dropped from the upper side cooling tank 10 to the lower discharge hopper 30 And a detailed description thereof will be described later.

3, a bottom plate 20 is installed at an inner lower end of the cooling tank 10, and the bottom plate 20 is divided into a plurality of divided partition units And a discharge part 22 having a size similar to the width of the partitioning partition 21 is formed between the plurality of partitioning partitions 21 so that the pellet drops downward through the discharge part 22 And the partitioning partition 21 is formed such that the longitudinal section thereof is formed in a 형상 shape so that the pellets can be smoothly slipped and discharged from the top to the bottom.

The pellet discharge adjusting means 50 provided at the lower portion of the bottom plate 20 has a width enough to seal the discharge portion 22 formed between the partitioning walls 21 of the bottom plate 20 A plurality of flat plate material blocking plates 51 are fixed by a blocking plate fixing frame 52 and horizontally moved integrally at the lower end of the partition plate 21 to open and close the discharging unit 22. [

That is, the pellet discharge adjusting means 50 includes a rotation drive portion 54 protruding outward from the cooling tank 10 and the stationary frame 40, And a connecting member 56 provided between the rotation driving unit 54 and the blocking plate fixing frame 52 to transmit the rotation force to the blocking plate fixing frame 52.

The rotation driving unit 54 includes a deceleration motor 57 for performing a rotation operation by a signal transmitted from a separate control unit (not shown), a rotation plate 58 coupled to the rotation axis of the deceleration motor 57 to rotate, And a plurality of fastening holes 58a formed at different distances from the central portion of the rotary plate 58 and fastened to one end of the connecting member 56. [

The fastening holes 58a are formed at different distances and positions at the center of the rotary plate 58 so that when one end of the connecting member 56 is connected in an idling state, The amount of horizontal movement of the blocking plate 51 and the blocking plate fixing frame 52 connected to the connecting member may be changed to adjust the opening distance of the bottom plate 20 to the discharging unit 22 to control the amount of pellets to be discharged .

The connecting member 56 may have a length adjustable structure so that the distance between the horizontal movement distance of the blocking plate 51 and the horizontal movement distance of the blocking plate 51 So that the discharge amount of the pellet can be adjusted by adjusting the clearance between the discharge part 22 of the bottom plate 20.

The plurality of blocking plates 51 and the blocking plate fixing frames 52 connected to the connecting member 56 and integrally operated are provided with a plurality of supporting rollers 53 at opposite positions on opposite sides of the frame, And is configured to be horizontally movable in accordance with the rotation of the rotation driving unit 54 within a limited range.

The discharge hopper 30 has a tapered structure whose width gradually decreases from the upper portion to the lower portion. The discharge port 32 formed at the lower center portion of the discharge hopper 30 discharges the pellets. And the discharge port 32 is configured to be rotatable so that the discharge direction of the pellet can be freely adjusted.

The discharge port 32 is provided with a discharge port 33 for controlling the discharge of the pellets discharged to the discharge port 32. The discharge port 33 can be opened and closed in accordance with a control command of a separate control unit Or manually operated by an operator.

4 and 5 are vertical cross-sectional views of the upper end of the cooling tank and the dust discharge pipe 14 formed in the direction of the upper side of the cooling tank 10 in the pellet cooling apparatus 100 described above and the pellet discharge adjusting means 50 ), Respectively.

The dust exhaust pipe 14 is connected to the dust collector and the air blower side separately provided from the pellet cooling device of the present invention and removes the inside air of the cooling tank 10 to the outside, Or foreign matter to the outside.

Particularly, a plurality of spiral protruding vanes 18 are formed on the inner circumferential surface of the dust discharge pipe 14 so that air escaping from the inside of the cooling tank 10 to the outside quickly passes through the dust discharge pipe 14, And the discharge performance of dust and foreign matter can be further improved.

A pellet scattering plate 15 of a predetermined size is provided at the lower end of the pellet inlet 12 of the upper end of the cooling tank 10 so that the pellets dropped from the pellet inlet 12 collide with the pellet scattering plate 15 And is uniformly scattered to the lower portion of the cooling tank 10 so as to be uniformly accumulated on the inside thereof. The dust and foreign matter sticking to the pellets which are collided with the pellet scattering plate 15 and scattered in all directions, So that the desorption can be smoothly performed.

5 shows an excerpt of the pellet discharge adjusting means 50 and a partially enlarged view thereof.

5, the pellet discharge adjusting means 50 includes a plurality of blocking plates 52 which are integrally formed by a blocking plate fixing frame 52 and are rotatably supported by a rotation driving unit 54 protruding outward from the fixed frame Horizontally move left and right.

A plurality of fastening holes 58a are formed circumferentially with respect to the central axis of the rotary plate 58 coupled to the speed reduction motor 57 of the rotary drive unit 54 so that one end of the connection member 56 is engaged, Since the fastening holes 58a are formed at different distances from the center axis of the rotary plate, the left and right positions of the blocking plate and the blocking plate fixing frame connected through the connecting member 56 can be adjusted due to the difference in the radius of rotation, And the discharge space of the bottom plate installed in the main body can be adjusted.

A sensor sensing part 59 for sensing the amount of rotation of the rotating plate protrudes outside of a predetermined length at one end of the outer circumference of the rotation plate 58a and a sensor sensing part 59 for sensing the rotation of the sensor sensing part 59, A sensing sensor 59a is installed outside the sensing unit 59 and the sensing sensor 59a is connected to a separate control unit to receive a rotation signal of the sensor sensing unit 59 to rotate the deceleration motor 57 .

6 and 7 are enlarged views of a state of use and a partial configuration of the pellet cooling apparatus according to the present invention.

6, the pellets introduced into the pellet inlet 12 of the cooling tank 10 collide with the pellet scatterer 15 installed at the lower end of the pellet inlet 12 and are scattered in all directions, The pellets p which are scattered in the four directions by colliding with the pellet scattering plate 15 flow in from the lower side of the cooling tank 10 and collide with the air discharged to the upper side dust exhausting pipe 14, The heat generated during cooling is cooled.

Further, dust or foreign substances which are buried in the pellet (p) and introduced into the interior of the cooling tank (10) are easily separated from the pellets by upward directed air and discharged to the dust discharge pipe (14).

The outside air introduced from the lower part of the cooling tank 10 flows through a clearance between the bottom plate 20 and the blocking plate 51 and is discharged into the space between the blocking plate or the bottom plate on which the pellets are loaded, And proceeds in the opposite direction to the falling pellets.

The outside air moving in the upward direction of the cooling tank cools the heat of the pellet, and at the same time, dust and foreign substances adhering to the pellet are desorbed and discharged to the dust discharge pipe (14) provided above the cooling tank.

The air containing the dust passing through the dust discharge pipe 14 is rotated by the plurality of protruding vanes 18 formed on the inner circumferential surface of the dust discharge pipe 14 so that the discharge speed is further increased, Thereby enhancing the dust exhausting performance of the inside of the cooling tank 10 and improving the cooling efficiency of the pellets through the rapid flow of air exiting to the outside.

When a predetermined amount of pellets p is accumulated in the cooling tank 10, the pellets are poured into the cooling tank 10 in accordance with the detection signals of the pellet detection sensor 16, And the sensed new price is transmitted to a separate control panel. In the control panel, a constant electrical signal is sent to the rotation driving unit 54 to make the deceleration motor rotate once.

The one end of the linking member 56 coupled to the rotation plate of the deceleration motor is moved from the left to the right with respect to the center of the rotation plate and is coupled to the other end of the linking member 56, The discharge unit 22 is opened and closed through horizontally moving the blocking plate 51 and the blocking plate fixing frame 52 sealing the discharge unit 22 of the discharge plate 22, So that the pellets stacked on the inner lower side of the cooling tank 10 are discharged to the discharge hopper 30 side (see FIG. 7).

At this time, the left and right moving speeds of the blocking plate 51 and the blocking plate fixing frame 52 are determined according to the rotating speed of the rotating plate rotated by the decelerating motor, and depending on the rotating speed of the rotating plate, So that the pellet discharge amount can be adjusted.

The amount of lateral movement of the blocking plate fixing frame 52 sealing the discharge portion 22 of the bottom plate 20 varies depending on the position of the fastening hole of the rotating plate 58 to which the one end of the connecting member 56 is coupled So that the pellet is properly discharged by adjusting the position of the fastening hole of the one end of the connecting member and the blocking plate according to the size of the pellet.

As described above, the pellet cooling apparatus 100 of the present invention is characterized in that the pellets discharged from the cooling tank 10 to the discharge hopper 30 are moved in the lateral direction of the pellet discharge adjusting means 50 provided on the stationary frame 40 So that the structure and construction are simple, so that the risk of occurrence of failure is low and the durability can be improved.

In addition, the blocking plate and the blocking plate fixing frame, which are horizontally moved horizontally in accordance with the operation of the rotation driving unit 54, are supported by the retaining members 42 provided on the upper surface of the fixing frame 40, .

10: cooling tank 12: pellet inlet
14: Dust discharge pipe 15: Pellet scattered plate
16: Pellet detection sensor 17: Monitoring window
18: protruding vest 19: fixed bracket
20: bottom plate 21: partition plate
22: exhaust part 25: air inlet
30: Exhaust hopper 32: Exhaust port
33: discharge opening / closing port 40: fixed frame
42: latching part 50: pellet discharge adjusting part
51: blocking plate 52: blocking plate fixing frame
53: Support roller 54:
56: connecting member 57: deceleration motor
58: rotary plate 58a: fastening hole
59: sensor detection unit 59a: detection sensor
60: dust collector 70:
100: Pellet cooling system

Claims (6)

A pellet input port through which the molded pellets are supplied is formed in one direction of the upper end, a dust outlet pipe connected to the fan and the dust collector on one side where the pellet input port is formed, for discharging foreign matter and dust, A plurality of pellet detection sensors having different height up and down on one side are installed to detect the amount of pellets to be poured into the inside of the pellet, and discharge portions are formed at regular intervals so that the pellets loaded in the pellets are uniformly discharged downward, A cooling tank having a bottom plate;
A fixed frame installed at a predetermined height below the cooling tank so that the cooling tank is installed at a predetermined height from the ground;
An upper end connected to a bottom surface of the cooling tank, and a lower end having an outlet for concentrating and discharging the dropped pellets into one place,
And a pellet discharge amount adjusting unit installed between the lower part of the cooling tank and the upper surface of the discharge hopper so as to control the discharge amount of the pellets discharged from the cooling tank to the discharge hopper side. The method according to claim 1,
Wherein the dust exhaust pipe of the cooling tank has a structure in which a spiral protruding vane is formed on an inner circumferential surface of the cooling tank so that air and foreign matter discharged from the inside of the cooling tank are discharged at a high speed. 3. The method according to claim 1 or 2,
The lower end of the cooling tank is formed to be smaller than the upper inner width of the discharge hopper and is located inside the upper end of the discharge hopper at a distance from the upper end of the discharge hopper so that external air can flow into the gap between the side edges, Wherein the pellet cooling structure is formed of a pellet. 3. The method according to claim 1 or 2,
The pellet discharge-
A plurality of flat plate members each having a predetermined width so as to close the discharge unit at a lower end of the discharge unit formed at regular intervals on the bottom plate of the cooling tank,
A rotation driving unit that is fixedly installed at an upper end of the fixed frame and outside the lower end of the cooling tank,
And a connection member installed between the rotation driving unit and the blocking plate to horizontally move the blocking plate horizontally when the rotation driving unit rotates to open or shut off the exhaust unit of the bottom plate. 5. The method of claim 4,
The rotation drive unit
A rotation motor rotated according to a signal of a separately provided control unit,
A rotating plate coupled to the rotating shaft of the rotating motor and connected to the connecting member so that the connecting member can be horizontally moved when rotated,
And a plurality of coupling holes penetrating through the central portion of the rotary plate so as to adjust horizontal movement of the coupling member and horizontal movement amounts of the coupling member and one end of the coupling member is connected to the coupling member. Cooling device. The method according to claim 1 or 2, wherein
Wherein a pellet scattering plate is provided inside the cooling tank on the lower side where the pellet input port is formed, the pellet being collided with the cooling pellets when the pellets are dropped from the pellet input port and uniformly accumulated in the cooling tank. Cooling device.

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