KR20220087872A - Pelletizing Device For Replacing Extruded Plate - Google Patents

Abstract

The present invention relates to a pelletizing device that can replace an extruded plate, and the extruded plate can be separated from the pelletizing device with a simple structure and can be quickly replaced with a replacement extruded plate, thereby reducing the time required for replacing the extruded plate By minimizing it, it is possible to improve the productivity of the pelletizing apparatus.

Description

Pelletizing Device For Replacing Extruded Plate

The present invention relates to a pelletizing device capable of replacing an extruded plate.

In general, livestock manure (hereinafter abbreviated as "livestock manure") discharged from farmhouses or large-scale livestock complexes, etc., is discharged into the soil or rivers as it is because the treatment facilities are insufficient, and is a major cause of water quality and soil contamination. To prevent this, in recent years, livestock manure is fermented and dried to compost it is in progress. In this way, when livestock manure is used in the soil that is cultivated by making high-quality compost or liquid manure, it is a valuable resource that can improve the fertility of agricultural land in Korea, which has low organic content and is aging due to soil acidification, and improves the chemical properties of the soil. As a result, livestock farms or local organizations have their own resource-making facilities to maintain an environmentally friendly livestock industry.

As an example, a sawdust mixed composting method, which is the most common method in livestock farms, is used. However, since each farmhouse had to rely on the storage liquid mixing technology in a mixed state of manure in each farmhouse, it was difficult to treat farmland with mixed manure and difficult to remove odors, it could cause contamination of groundwater, and it took a long time. there was. In particular, since the amount of livestock manure treated by this treatment method is extremely limited, there is a limit to converting large-scale livestock manure into an effective resource such as compost.

To this end, recently, a pellet compost manufacturing device using livestock manure compost that can continuously process a large amount of livestock manure in a short time and turn it into an effective resource has been proposed, and it has already been introduced to many large-scale farmhouses and local organizations and is being used in the field. The conventionally known compost manufacturing apparatus using livestock manure compost is an aerobic fermentation facility that dehydrates livestock manure stored in a manure storage tank, separates it into solid and liquid, and lowers the moisture content of solid livestock manure, and selects aerobically fermented livestock manure after maturation process It consists of a post-treatment facility that obtains by-products that can be turned into effective resources such as compost.

The aerobic fermentation facility generally includes a solid-liquid separator for separating and sorting urine excreted from livestock and sludge-state manure, and a dehydrator for dehydrating moisture contained in the solid-state sludge among the sorted products, and the post-treatment facility is It includes a large-scale dry fermenter that lowers the moisture content by drying the livestock from which moisture has been removed to some extent while passing through the aerobic fermentation facility, a post-ripening process, a sorter, and a packaging machine.

In the conventional compost manufacturing apparatus using livestock manure compost configured as described above, the livestock manure stored in the manure storage tank passes through a solid-liquid separator and is separated and sorted into liquid and solid sludge contained in the livestock manure, among which the livestock manure sludge in a solid state is After moisture is removed through the dehydration process and drying fermentation process, final sorting and packaging are carried out through a sorting machine, and then discharged.

Laid-open Patent Publication No. 10-2018-0086628 (2018.08.01.)

The extruded plate of the pelletizing device has a problem in that a lot of time is consumed to replace the extruded plate when the discharged pellets are hardened and clogged.

Accordingly, an object of the present invention is to provide a pelletizing apparatus in which the extruded plate can be replaced simply and quickly, and the extruded plate replacement time is minimized.

In order to achieve the above object, the main body is formed with a hopper for compost input; A first screw installed in the main body, compressing the input compost; an extruded plate into which the first screw end is inserted and extruded by molding the compost compressed by the first screw; a first hydraulic device connected to the first screw by a sliding shaft and capable of moving the first screw forward or backward; And when the first hydraulic device reverses the first screw, the first screw end is separated from the extruded plate while the extruded plate is separated from the main body, and provides a pelletizing device capable of replacing the extruded plate.

In one embodiment according to the present invention, further comprising a guide rail in front of the extruded plate, a replacement extruded plate is provided on the guide rail to replace an extruded plate that can replace the extruded plate. to provide.

In one embodiment according to the present invention, a first insertion hole is formed in the center of the extrusion plate, and the first screw end provides a pelletizing device capable of replacing the extrusion plate inserted into the first insertion hole.

In one embodiment according to the present invention, a first coupling groove is formed along the circumference on the front surface of the extruded plate, a coupling member is provided in the body portion, and the coupling member is inserted into the first coupling groove It provides a pelletizing device capable of replacing the extruded plate to fix the extruded plate.

Pelletizing apparatus capable of replacing the extruded plate according to the present invention can improve the pellet productivity of the pelletizing apparatus by minimizing the extruded plate replacement time.

1 shows the configuration of a pelletizing device capable of replacing an extruded plate in one embodiment according to the present invention.
Figure 2 shows that the first screw is separated from the extruded plate backwards in the pelletizing apparatus capable of replacing the extruded plate in one embodiment according to the present invention.
Figure 3 shows an extruded plate of a pelletizing device capable of replacing the extruded plate in one embodiment according to the present invention.
Figure 4 shows an extruded plate receiving member disposed in a pelletizing apparatus capable of replacing the extruded plate in one embodiment according to the present invention
Figure 5 shows an extruded plate receiving member of a pelletizing device that can replace the extruded plate in one embodiment according to the present invention.
Figure 6 shows the cutting member of the pelletizing device that can replace the extruded plate in one embodiment according to the present invention.
Figure 7 shows the cutting member of the pelletizing device that can replace the extruded plate in one embodiment according to the present invention.
Figure 8 shows a rotary ring of a pelletizing device that can replace the extruded plate in one embodiment according to the present invention.
Figure 9 shows a cutting blade of a pelletizing device that can replace the extruded plate in one embodiment according to the present invention.

The invention to be described below can have various changes and can have various embodiments, and specific embodiments are illustrated in the drawings and described in detail. However, this is not intended to limit the invention described below to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the technology described below.

1 to 9 show data for explaining the pelletizing apparatus for easy replacement of the extruded plate of the present invention. Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings to help the understanding of the present invention. However, the following examples are only provided for easier understanding of the present invention, and the contents of the present invention are not limited by the following examples.

1 schematically shows the configuration of a pelletizing device that is easy to replace an extruded plate according to the present invention. Referring to FIG. 1 , the pelletizing device 10 includes a body 100 , a first screw 200 , an extrusion plate 300 , a first hydraulic device 400 , and a moving rail 500 .

The main body 100 is a place where the input compost is compressed and pelletization occurs. A hopper 110 , a first outlet 120 , and a second outlet 130 may be formed in the body 100 , and a coupling member 140 for fixing the extrusion plate 300 may be provided.

The hopper 110 is a place where compost is put into the main body 100 and may be formed on the upper part of the main body 100 . The width of the horizontal cross-section of the hopper 110 may be increased from the lower part to the upper part.

The first outlet 120 is a place where the compost compressed by the first screw 200 is discharged, and the extruded plate 300 may be disposed. The first outlet 120 is preferably formed to have the same shape as the extruded plate 300 so that the extruded plate 300 can be disposed.

The second outlet 130 is a place for discharging the adhering compost generated while operating the pelletizing device. Since the adhering compost is frequently generated between the rotor blade and the rotor blade of the first screw 200, a device for removing it is required. When the first screw 200 is rotated in reverse, the compost can move to the rear, and when the first screw is stuck between the

The first scraper 140 is located on the upper portion of the second outlet 130 inside the body 100, and a first rod and a second rod protruding from the inside of the body 100 penetrate through the first scraper 140 . It can slide and move along the longitudinal direction of the rod and the second rod. Since the first rod and the second rod pass through the upper portion of the first scraper 140 , the first scraper 140 may protrude to the lower portion of the first rod and the second rod. The protruding portion of the first scraper 140 may scrape off compost adhered between the rotor blade and the rotor blade of the first screw 200 . The first scraper 140 may be formed in a shape corresponding to the shape between the rotor blades and the rotor blades, and can effectively scrape the compost adhering to the rotor blades.

The first screw 200 may be a screw device for compressing the compost input through the hopper 110 . The first screw 200 may include a first rotational shaft 210 and a rotational blade 220 formed to spirally surround the first rotational shaft. When the first screw 200 rotates in the forward direction, the compost may be compressed while advancing spirally along the rotary blade 220 .

Referring to FIG. 2 , the first rotary shaft 210 may include a coupling shaft 211 coupled to the rotary blade 220 and a moving shaft 212 not coupled to the rotary blade 220 . The moving shaft 212 may be a shaft that can protrude to the outside of the body when the first hydraulic device 400 moves the first screw 200 backward.

When the first screw 200 rotates in the reverse direction, the compost moves backward while spirally rotating along the rotor blades, and the first scraper 140 may scrape the compost stuck between the rotor blades and the rotor blades.

The first rotation shaft 210 of the first screw 200 may be connected to the first hydraulic device 400 and the sliding shaft. When the first hydraulic device 400 moves the sliding shaft forward or backward, the first screw 200 may also move forward or backward along the sliding shaft. When the first screw 200 moves backward, the first scraper 140 may be positioned on the rotary blade 220 , and the extrusion plate 300 is separated from the first rotary shaft 210 of the first screw 200 . can do.

Referring to FIG. 3 , the extruded plate 300 is disposed in the first outlet 120 of the main body 100 and is a device for molding and discharging compost compressed by the first screw 200 in the form of pellets. The extrusion plate 300 may be formed in a shape corresponding to the shape of the first outlet 120 . A plurality of through-holes through which compost can be molded may be formed in the extrusion plate 300 . The through-hole may form a pellet in the cross-sectional shape of the through-hole while compost compressed by the first screw is extruded through the extrusion plate 300 .

A first coupling hole may be formed in the center of the extrusion plate 300 , and the first rotation shaft 210 of the first screw 200 may be inserted into the first coupling hole. However, a bearing is provided between the extrusion plate 300 and the first rotation shaft 210 so that the extrusion plate 300 does not rotate and only the first rotation shaft 210 can rotate.

A coupling groove 320 may be formed on the front surface of the extruded plate 300 along the periphery of the rim. The coupling member 140 provided in the body may be inserted and coupled into the coupling groove 320 to fix the extrusion plate 300 . A plurality of coupling members 140 may be provided to fix the extrusion plate 300 . The coupling member 140 may have mechanical rigidity enough to withstand the pressure pushed by the compost pressed by the extruding plate 300 by the first screw 200 .

6 to 9, the cutting member 310 is located on the front or rear side of the extrusion plate 300, is a device for cutting the compressed pellets. The cutting member 310 may be positioned to be in contact with the extrusion plate 300 or to be spaced apart by a small distance. The center of the cutting member 310 may be rotated together with the first rotation shaft 210 is inserted through the center of the first rotation shaft 210 . The cutting member 310 may be formed of a straight line or a curved shape. The cutting member 310 may have a coupling protrusion 312 inserted into the first rotating shaft 210 , and when the coupling protrusion 312 is inserted into the first rotating shaft 210 , the cutting member 310 and the first Since the rotation shaft 210 is coupled, the rotation speed of the first rotation shaft 210 and the rotation speed of the cutting member 310 can be matched. In the cutting member 310, one or a plurality of cutting blades may be formed. The smaller the angle between the cutting blade 313 and the cutting blade 313 is, the shorter the length of the pellets may be.

The cutting member 310 may include a rotating ring 311 , a coupling protrusion 312 , and a cutting blade 313 . The rotating ring 311 is a ring-shaped member into which the first rotating shaft 210 is inserted, and a plurality of screw holes 314 may be formed so that the cutting blade 313 can be coupled thereto. A plurality of screw holes 314 are formed so that the length of the pellets can be adjusted according to the number of couplings of the cutting blades 313, and the pellets of different lengths according to the angle ratio of the plurality of cutting blades 313 are formed at a certain ratio. Pellets can also be produced to be mixed. A screw portion capable of being coupled to the screw hole 314 may be formed at one end of the cutting blade 313 .

The first hydraulic device 400 may be a device that is connected to the first screw 200 to move the first screw 200 forward or backward. The first hydraulic device 400 is not limited thereto, but may be, for example, a hydraulic piston device. The first hydraulic device 400 may include a sliding shaft 410 , and the sliding shaft 410 may transmit the force of the first hydraulic device to the first screw 200 . When the first hydraulic device 400 retracts the first screw 200 , the end of the first screw 200 may be separated from the first coupling groove 310 , and the extrusion plate 300 may have the first outlet 120 . ) can be separated from

The guide rail 500 is positioned in front of the extruded plate 300 , and a replacement extruded plate may be provided on the guide rail 500 . When the extruded plate 300 is clogged during operation, the guide rail 500 may be positioned directly in front of the extruded plate 300 so that the extruded plate 300 can be quickly replaced. If the compost sticks in the through hole of the extruded plate 300 and the through hole is blocked, the production of pellets is reduced. have.

In one embodiment, referring to FIGS. 4 and 5 , the replacement method of the extruded plate 300 disposed in the first outlet 120 of the main body 100 is the extruded plate receiving member 330 in which the extruded plate 300 is accommodated. ) is provided, and one side of the plurality of accommodating members 330 is coupled to the second rotation shaft 340 , and when replacement of the extrusion plate 300 is required, the accommodating member with respect to the second rotation shaft 340 is provided. (330) may be rotated so that the receiving member 330 in which the extruded plate for replacement is accommodated is located in front of the first outlet (120). The receiving member 330 may be positioned so as to be in close contact with the main body so that the extruded plate 300 can be firmly fixed even under the pressure pushed by the compost compressed by the first screw 200 . The receiving member 330 is provided with a plurality of coupling members 140, the coupling member 140 is inserted into the first coupling groove of the extrusion plate 300, the extrusion plate 300 withstands the pressure pushed by the compost and is fixed can make it happen

The pelletizing apparatus according to the present invention may further include a weight sensor. The weight sensor senses the weight of the pellets produced per unit time produced in the pelletizing device, and when it produces less than the weight of the pellets produced per unit time of a certain standard, the extrusion plate 300 is fixed with compost and clogged. It can be informed to replace the extrusion plate (300).

Although the present technology has been described through the above embodiments, the present technology is not limited thereto. The above embodiments may be modified or changed without departing from the spirit and scope of the present technology, and those skilled in the art will recognize that such modifications and changes also belong to the present technology.

10: pelletizing device 100: body
110: hopper 120: first outlet
130: second outlet 140: first scraper
200: first screw 210: rotation shaft
220: rotary blade 300: extruded plate
310: cutting member 311: rotating ring
312: coupling protrusion 313: cutting blade
400: first hydraulic device 500: moving rail

Claims (5)

a body formed with a hopper for compost input;
a first screw installed in the body and compressing the inputted compost;
an extruded plate into which the first screw end is inserted, and extruded by molding the compost compressed by the first screw; and
a first hydraulic device connected to the first screw by a sliding shaft and capable of moving the first screw forward or backward;
When the first hydraulic device reverses the first screw, the extruded plate is separated from the main body while the end of the first screw is separated from the extruded plate. The method of claim 1,
The extruded plate exchangeable pelletizing device further comprises an extruded plate receiving member in which the extruded plate is accommodated,
The extruded plate receiving member is provided in plurality, the plurality of extruded plate receiving members are connected to each other by a rotation shaft, and when the end of the first screw is separated from the extruded plate, the plurality of extruded plate receiving members are rotated around the rotation shaft A pelletizing device capable of replacing an extruded plate to insert the end of the first screw into an extruded plate for replacement. The method of claim 1,
Further comprising a guide rail in front of the extruded plate,
The extruded plate for replacement is provided on the guide rail, and the extruded plate can be replaced with a pelletizing device capable of replacing the extruded plate. The method of claim 1,
A first insertion hole is formed in the center of the extrusion plate,
The first screw end is a pelletizing device capable of replacing the extruded plate inserted into the first insertion hole. The method of claim 1,
A first coupling groove is formed along the circumference on the front surface of the extruded plate,
The body portion is provided with a coupling member,
The coupling member is inserted into the first coupling groove, a pelletizing device capable of replacing the extrusion plate for fixing the extrusion plate.

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