CN116572422A

CN116572422A - Powder granulator capable of collecting waste materials

Info

Publication number: CN116572422A
Application number: CN202310847790.6A
Authority: CN
Inventors: 钟蓉
Original assignee: Jiangxi Modern Polytechnic College
Current assignee: Jiangxi Modern Polytechnic College
Priority date: 2023-07-12
Filing date: 2023-07-12
Publication date: 2023-08-11

Abstract

The invention relates to the technical field of granulator, in particular to a powder granulator capable of collecting waste, which comprises a base, a double-screw extruder, a cutting mechanism, a forming bin, a granulating bin, a feeding mechanism and a sorting mechanism, wherein the double-screw extruder is arranged at the top of the base, the discharging end of the double-screw extruder is connected with the forming bin, the forming bin is connected with the granulating bin, heat dissipation fans are arranged on two sides of the forming bin, the feeding mechanism is arranged in the forming bin, the cutting mechanism is arranged in the granulating bin, and the sorting mechanism is arranged on the base. According to the invention, through the arrangement of the material separating frame and the screen, when the granular materials fall into the separating frame, the dust in the granular materials and the cutting process can be separated through the screen, so that the dust falls into the collecting frame to be collected, and the effect of separating the dust and the granular materials is realized.

Description

Powder granulator capable of collecting waste materials

Technical Field

The invention relates to the technical field of granulators, in particular to a powder granulator capable of collecting waste materials.

Background

The granulator is a forming machine capable of granulating materials, and is often used for production and manufacture when the granular materials are produced.

The existing granulator is generally composed of an extrusion part, a cutting part and a cooling part, wherein the extrusion part extrudes the material in a strip shape when producing granular materials, the cutting part cuts the strip-shaped material into granules, and the cooling part is used for cooling the material. But in the actual granulation process, the blade and the extruded strip material generate friction during cutting, dust is easy to generate, and the dust is easy to fly around to cause dust emission phenomenon along with the movement of the granular material to the subsequent conveying position, so that the dust is easy to adhere to a production site, the environment of the production site is influenced, and the waste of raw materials is caused.

Disclosure of Invention

In order to overcome the defect that the existing granulator is easy to cause dust to fly during production, the invention provides the powder granulator capable of collecting waste, which can prevent dust from flying.

The utility model provides a powder granulator of collectable waste material, including the base, double screw extruder and cutting mechanism, double screw extruder is installed at the base top, still including shaping storehouse, the granulation storehouse, feeding mechanism and sorting mechanism, double screw extruder's discharge end is connected with shaping storehouse, the discharge end of shaping storehouse evenly spaced apart is equipped with five discharge holes, the discharge end of double screw extruder evenly sets up five discharging pipes, the discharging pipe stretches into in the shaping storehouse, be connected with the granulation storehouse on the shaping storehouse, the pan feeding hole has been seted up to the position department that corresponds with shaping storehouse in granulation storehouse, the radiator fan is all installed to shaping storehouse both sides, be equipped with the feeding mechanism that is used for carrying the strip material in the shaping storehouse, be equipped with in the granulation storehouse and be used for cutting into granular cutting mechanism with the material, be equipped with sorting mechanism on the base for separate granular material and dust.

Further stated, the feeding mechanism comprises a servo motor and feeding shafts, the upper side and the lower side in the forming bin are respectively connected with two feeding shafts in a rotating mode, the feeding shafts are close to the discharging pipe, the two feeding shafts on the upper side are in transmission connection, the servo motor is installed on the forming bin, and the servo motor is connected with one feeding shaft on the upper side.

Further stated, the cutting mechanism comprises rotating wheels, cutting knives and a driving motor, wherein the upper part of the granulating bin is uniformly and rotatably connected with five rotating wheels at intervals, the five rotating wheels are respectively close to five feeding holes, the cutting knives are uniformly and intermittently connected with the rotating wheels along the circumferential direction, the driving motor is arranged at the inner top of the granulating bin, the driving motor is connected with one of the rotating wheels, and the rotating wheels are in transmission connection.

Further, the sorting mechanism comprises a collecting frame, a sorting frame and a screen, the bottom of the base is connected with the collecting frame in a sliding mode, the bottom of the granulating bin is communicated with the sorting frame, the sorting frame is located on the upper side inside the collecting frame, the bottom of the sorting frame is connected with the screen which is obliquely arranged, a feeding port of the sorting frame is communicated with a discharging port of the granulating bin, so that granular materials fall into the sorting frame and are blocked by the screen, and powder materials can fall into the collecting frame through the screen to be collected.

Further, the device comprises a scraping mechanism, wherein the scraping mechanism comprises a wedge-shaped scraping plate and an elastic piece I, five wedge-shaped scraping plates are uniformly connected to the top of the granulating bin at intervals in a sliding mode, the wedge-shaped scraping plates are used for scraping dust attached to a cutting knife, and the elastic piece I is connected between the wedge-shaped scraping plates and the granulating bin.

Further, the device comprises a scraping mechanism, wherein the scraping mechanism comprises a connecting frame, inclined guide rails, sliding rods, brushes and vertical guide rails, the inclined guide rails are connected to two sides in the collecting frame, the brushes are connected between the inclined guide rails on two sides in a sliding and rotating mode, the brushes are attached to the bottom of the screen, the vertical guide rails are connected to two sides of the granulating bin in a sliding mode, the sliding rods are connected to two sides of the brushes in a sliding mode, the sliding rods are connected with the vertical guide rails in a sliding mode, and the connecting frame is connected between the vertical guide rails on two sides.

Further, the brush also comprises a rack and a gear, wherein the oblique guide rails on two sides are respectively connected with the rack, the gears are respectively connected with two sides of the brush, and the gears are meshed with the racks.

Further described, the device also comprises an air cylinder, the air cylinder is arranged on the collecting frame, and the telescopic rod of the air cylinder is connected with the connecting frame.

Further, the device comprises a vibration mechanism, wherein the vibration mechanism comprises a guide frame, a sliding frame, an elastic piece II and contact blocks, the two sides of a granulating bin are connected with the guide frame, the sliding frame is connected with the guide frame in a sliding mode, the elastic piece II is connected between the sliding frame and the guide frame, the lower portion of the guide frame is connected with at least two contact blocks in a sliding mode at equal intervals, the top of each contact block is contacted with the bottom of the corresponding sliding frame, and the vertical guide rail can extrude the corresponding contact block to move upwards.

The beneficial effects of the invention are as follows: 1. according to the invention, through the arrangement of the material separating frame and the screen, when the granular materials fall into the separating frame, the dust in the granular materials and the cutting process can be separated through the screen, so that the dust falls into the collecting frame to be collected, the effect of separating the dust and the granular materials is realized, the dust can be prevented from flying, and the dust can be collected, so that the dust can be recovered conveniently.

2. When the invention is in operation, the cutting knife can be contacted with the wedge-shaped scraping plate, so that the wedge-shaped scraping plate scrapes off dust attached to the cutting knife, and the dust is prevented from being attached to the cutting knife.

3. When the dust cleaning device is in operation, dust attached to the screen can be cleaned by moving the brush along the screen, and meanwhile, the brush can rotate through the gear and the rack when in operation, so that the dust cleaning effect on the screen is realized.

4. The invention can intermittently squeeze the contact blocks when the vertical guide rail moves, so that the sliding frame moves upwards and moves downwards under the action of the elastic piece II after moving upwards, thereby knocking the guide frame, and enabling the granulating bin to vibrate so as to prevent materials from being attached to the inner wall of the granulating bin.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic view of the structure of the base, twin screw extruder, forming bin and pelleting bin of the present invention.

FIG. 3 is a schematic view of the feeding mechanism and the cutting mechanism of the present invention.

Fig. 4 is a schematic structural view of the cutting mechanism of the present invention.

Fig. 5 is a schematic structural view of the feeding mechanism of the present invention.

Fig. 6 is a schematic view of a first construction of the sorting mechanism of the present invention.

Fig. 7 is a schematic view of a second construction of the sorting mechanism of the present invention.

Fig. 8 is a schematic structural view of the scraping mechanism of the present invention.

Fig. 9 is a schematic view of a first structure of the scraping mechanism of the present invention.

Fig. 10 is a schematic view of a second structure of the scraping mechanism of the present invention.

Fig. 11 is a schematic view of the structure of the scraping mechanism, the gear and the rack of the present invention.

FIG. 12 is a schematic diagram of the connection between the cylinder and the connecting frame according to the present invention.

Fig. 13 is a schematic structural view of the vibration mechanism of the present invention.

Fig. 14 is a cross-sectional view of the vibration mechanism of the present invention.

In the above figures: 1: base, 2: double screw extruder, 3: forming bin, 31: heat radiation fan, 32: servo motor, 33: feeding shaft, 4: granulation bin, 41: wheel, 42: cutting knife, 43: driving motor, 51: collection frame, 52: sorting frame, 53: screen mesh, 61: wedge flight, 62: elastic member one, 71: connecting frame, 72: oblique guide rail, 73: slide bar, 731: brush, 74: vertical guide rail, 91: rack, 92: gear, 10: cylinder, 101: guide frame, 102: carriage, 104: elastic member two, 105: and a contact block.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Example 1

The utility model provides a powder granulator that can collect waste material, as shown in fig. 1-7, including base 1, double helix extruder 2, shaping storehouse 3, pelleting storehouse 4, feeding mechanism, cutting mechanism and sorting mechanism, double helix extruder 2 is installed at base 1 top, double helix extruder 2's discharge end is connected with shaping storehouse 3, the evenly spaced five discharge holes that are equipped with in shaping storehouse 3's discharge end, five discharging pipes are evenly set up to double helix extruder 2's discharge end, so that the material is the strip when extruding from double helix extruder 2, the discharging pipe stretches into shaping storehouse 3, shaping storehouse 3 left side is connected with pelleting storehouse 4, pelleting storehouse 4 and shaping storehouse 3 correspond the position department and offer the pan feeding hole, in order to make the strip material that shaping storehouse 3 department extruded can get into pelleting storehouse 4 through the pan feeding hole, radiator fan 31 is all installed to shaping storehouse 3 front and back both sides for carry out the heat dissipation to the strip material, be equipped with in shaping storehouse 3 and be used for carrying the feeding mechanism of strip material, be equipped with in shaping storehouse 4 and be used for cutting into the granule material, be equipped with sorting mechanism on base 1, be used for with the separation from granule dust.

As shown in fig. 3 and 5, the feeding mechanism comprises a servo motor 32 and a feeding shaft 33, wherein two feeding shafts 33 are rotatably connected to the upper side and the lower side in the forming bin 3, the feeding shafts 33 are close to the discharging pipe, so that the material extruded from the discharging pipe is located between the two feeding shafts 33, a belt transmission assembly is wound between the two feeding shafts 33 on the upper side, so that the two feeding shafts 33 rotate synchronously, the servo motor 32 is mounted on the front side of the forming bin 3, and the servo motor 32 is connected with the feeding shaft 33 on the left part on the upper side.

As shown in fig. 3 and 4, the cutting mechanism comprises rotating wheels 41, cutting knives 42 and a driving motor 43, the upper part of the granulating bin 4 is uniformly and rotatably connected with five rotating wheels 41 at intervals, the five rotating wheels 41 are respectively positioned above five feeding holes, the cutting knives 42 are uniformly and intermittently connected on the rotating wheels 41 along the circumferential direction, the cutting knives 42 are attached to the inner wall of the granulating bin 4, the driving motor 43 is mounted at the top part in the granulating bin 4, the driving motor 43 is connected with the rotating wheels 41 in the middle part, each rotating wheel 41 is connected with a synchronous wheel, and a synchronous belt is wound between the synchronous wheels so as to realize transmission connection of the rotating wheels 41.

As shown in fig. 6 and 7, the sorting mechanism comprises a collecting frame 51, a sorting frame 52 and a screen 53, the left side of the bottom of the base 1 is connected with the collecting frame 51 in a sliding manner, the bottom of the granulating bin 4 is communicated with the sorting frame 52, the sorting frame 52 is located at the upper side of the interior of the collecting frame 51, the screen 53 which is obliquely arranged is connected to the bottom of the sorting frame 52, so that granular materials fall into the sorting frame 52 and are blocked by the screen 53, and powder materials can fall into the collecting frame 51 through the screen 53 for collection.

When the granulating machine is needed, the granulating machine can be used, when the granulating machine is used, materials are poured to the position of the double-screw extruder 2, then the double-screw extruder 2 is controlled to operate to extrude the materials into strips to the position of the feeding shaft 33 in the forming bin 3, the strips in the forming bin 3 can be radiated through the radiating fan 31 during extrusion, the servo motor 32 is controlled to operate to drive the feeding shaft 33 above to rotate so as to convey the strips to the granulating bin 4 through the discharging holes and the feeding holes, the driving motor 43 can be started to drive the rotating wheel 41 and the cutting knife 42 to rotate through the synchronous belt and the synchronous wheel, the cutting knife 42 can cut the strips extruded from the feeding holes during rotation, so that the strips are cut into granules, the granulating work is completed, the strips cut into granules fall into the position of the sorting frame 52 and are blocked by the screen 53, then the screen 53 is moved out of the sorting frame 52, the powder generated in the cutting process can enter the collecting frame 51 through the screen 53 for collection, and thus the granulating machine can be used for granulating, and dust can be separated from the granulating frame 51 and the dust can be collected in the granulating process.

Example 2

On the basis of embodiment 1, as shown in fig. 8, the device further comprises a scraping mechanism, the scraping mechanism comprises a wedge-shaped scraping plate 61 and an elastic piece one 62, five wedge-shaped scraping plates 61 are uniformly and slidingly connected to the inner top of the granulating bin 4 at intervals, the cutting knife 42 can be contacted with the wedge-shaped scraping plate 61 and push the wedge-shaped scraping plate 61 to move when rotating, the cutting knife 42 can be contacted with the wedge-shaped scraping plate 61 to scrape dust attached to the cutting knife 42, and the elastic piece one 62 is connected between the wedge-shaped scraping plate 61 and the granulating bin 4 and used for resetting the wedge-shaped scraping plate 61 after the wedge-shaped scraping plate 61 moves.

As shown in fig. 9-11, the utility model also comprises a scraping mechanism, the scraping mechanism comprises a connecting frame 71, inclined guide rails 72, sliding rods 73, a hairbrush 731 and vertical guide rails 74, the front side and the rear side of the collecting frame 51 are respectively connected with the inclined guide rails 72, the inclined angle and the direction of the inclined guide rails 72 are the same as those of the screen 53, the inclined guide rails 72 on the two sides slide and are rotationally connected with the hairbrush 731, the hairbrush 731 is attached to the bottom of the screen 53, the front side and the rear side of the granulating bin 4 are respectively connected with the vertical guide rails 74 in a sliding manner, the front side and the rear side of the hairbrush 731 are respectively rotationally connected with the sliding rods 73, the sliding rods 73 are respectively connected with the vertical guide rails 74 in a sliding manner, and the connecting frames 71 are respectively connected between the vertical guide rails 74 on the two sides so as to facilitate the pulling of the vertical guide rails 74.

When dust passes through the screen 53, part of the dust may adhere to the screen 53, and at this time, the connecting frame 71 may be pulled to drive the vertical guide rail 74 to move, the vertical guide rail 74 moves to drive the slide rod 73 and the brush 731 to move, and the brush 731 moves upwards along the inclined guide rail 72 when moving, so as to clean the screen 53, thereby realizing the effect of cleaning the screen 53 and brushing off the dust adhering to the screen 53.

As shown in fig. 11, the screen cleaning device further comprises a rack 91 and a gear 92, wherein the rack 91 is connected to the inclined guide rails 72 on both sides, the gear 92 is connected to both sides of the brush 731, and the gear 92 is meshed with the rack 91, so that the brush 731 can rotate through the meshing between the gear 92 and the rack 91 when moving, thereby stirring the screen 53 and improving the effect of cleaning the screen 53.

As shown in fig. 12, the air cylinder 10 is further included, the air cylinder 10 is installed on the right side of the collecting frame 51, and the telescopic rod of the air cylinder 10 is connected with the connecting frame 71, so that the air cylinder 10 can drive the connecting frame 71 to move during operation, and therefore the connecting frame 71 is not required to be pulled manually to move, and the operation is more convenient.

As shown in fig. 13 and 14, the device further comprises a vibration mechanism, the vibration mechanism comprises a guide frame 101, a sliding frame 102, two elastic pieces 104 and a contact block 105, the front side and the rear side of the lower portion of the granulating bin 4 are both connected with the guide frame 101, the sliding frame 102 is connected to the guide frame 101 in a sliding manner, two elastic pieces 104 are connected between the sliding frame 102 and the guide frame 101 for resetting operation of the sliding frame 102 after moving, six contact blocks 105 are connected to the lower portion of the guide frame 101 in a sliding manner at uniform intervals, the top of each contact block 105 is contacted with the bottom of the corresponding sliding frame 102, so that the contact block 105 can push the sliding frame 102 to move upwards, the top of the vertical guide rail 74 is provided with a contact arc block, and the vertical guide rail 74 can squeeze the contact block 105 to move upwards through the upper contact arc block when moving.

When the vertical guide rail 74 moves to be separated from the contact block 105, the sliding frame 102 is reset to knock the guide frame 101 under the action of the second elastic member 104, so that the guide frame 101 vibrates, and the guide frame 101 vibrates to transmit vibration to the granulating bin 4, so that the granulating bin 4 vibrates to prevent dust from adhering to the granulating bin 4.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims

1. The utility model provides a powder granulator of collectable waste material, is including base (1), double helix extruder (2) and cutting mechanism, double helix extruder (2), characterized by are installed at base (1) top: still including shaping storehouse (3), granulation storehouse (4), feeding mechanism and sorting mechanism, the discharge end of duplex screw extruder (2) is connected with shaping storehouse (3), the discharge end evenly spaced apart of shaping storehouse (3) is equipped with five discharge holes, the discharge end of duplex screw extruder (2) evenly sets up five discharging pipes, the discharging pipe stretches into in shaping storehouse (3), be connected with granulation storehouse (4) on shaping storehouse (3), the pan feeding hole has been seted up in position department corresponding to granulation storehouse (4) and shaping storehouse (3), radiator fan (31) are all installed to shaping storehouse (3) both sides, be equipped with the feeding mechanism that is used for carrying the strip material in shaping storehouse (3), be equipped with in granulation storehouse (4) and be used for cutting into granular cutting mechanism with the material, be equipped with sorting mechanism on base (1) for separate granular material and dust, sorting mechanism is including collecting frame (51), sorting frame (52) and screen cloth (53), base (1) bottom slidingtype connection has collecting frame (51), granulation storehouse (4) bottom intercommunication has sorting frame (52), sorting frame (52) are located inside collecting frame (52), sorting frame (53) are located inside side (51).

2. A scrap collectable powder granulator according to claim 1, characterized in that: the feeding mechanism comprises a servo motor (32) and a feeding shaft (33), wherein the upper side and the lower side in the forming bin (3) are respectively and rotatably connected with two feeding shafts (33), the feeding shafts (33) are close to the discharging pipe, the two feeding shafts (33) on the upper side are in transmission connection, the servo motor (32) is installed on the forming bin (3), and the servo motor (32) is connected with one feeding shaft (33) on the upper side.

3. A scrap collectable powder granulator according to claim 1, characterized in that: the cutting mechanism comprises a rotating wheel (41), a cutting knife (42) and a driving motor (43), wherein five rotating wheels (41) are connected to the upper portion of the granulating bin (4) at equal intervals, the five rotating wheels (41) are respectively close to five feeding holes, the cutting knife (42) is connected to the rotating wheels (41) at equal intervals along the circumferential direction, the driving motor (43) is mounted at the inner top of the granulating bin (4), the driving motor (43) is connected with one of the rotating wheels (41), and the rotating wheels (41) are in transmission connection.

4. A scrap collectable powder granulator according to claim 1, characterized in that: the screen (53) is obliquely arranged, and the feed inlet of the sorting frame (52) is communicated with the discharge outlet of the granulating bin (4), so that granular materials fall into the sorting frame (52) and are blocked by the screen (53), and powder materials can fall into the collecting frame (51) through the screen (53) for collection.

5. A scrap collectable powder granulator according to claim 3, characterized in that: the novel granulating machine is characterized by further comprising a scraping mechanism, wherein the scraping mechanism comprises a wedge-shaped scraping plate (61) and an elastic piece I (62), five wedge-shaped scraping plates (61) are uniformly connected to the inner top of the granulating bin (4) at intervals in a sliding mode, the wedge-shaped scraping plates (61) are used for scraping dust attached to the cutting knife (42), and the elastic piece I (62) is connected between the wedge-shaped scraping plates (61) and the granulating bin (4).

6. A scrap collectable powder granulator in accordance with claim 4, wherein: the novel granulating machine is characterized by further comprising a scraping mechanism, wherein the scraping mechanism comprises a connecting frame (71), oblique guide rails (72), sliding rods (73), brushes (731) and vertical guide rails (74), the oblique guide rails (72) are connected to two inner sides of the collecting frame (51), the brushes (731) are connected between the oblique guide rails (72) on two sides in a sliding mode and are in rotary mode, the brushes (731) are attached to the bottom of the screen cloth (53), the vertical guide rails (74) are connected to two sides of the granulating bin (4) in a sliding mode, the sliding rods (73) are connected to the two sides of the brushes (731) in a rotary mode, and the connecting frame (71) is connected between the vertical guide rails (74) on two sides.

7. A scrap collectable powder granulator in accordance with claim 6, wherein: the novel brush is characterized by further comprising racks (91) and gears (92), wherein the racks (91) are connected to the inclined guide rails (72) on two sides, the gears (92) are connected to two sides of the brush (731), and the gears (92) are meshed with the racks (91).

8. A scrap collectable powder granulator in accordance with claim 4, wherein: the device also comprises an air cylinder (10), the air cylinder (10) is arranged on the collecting frame (51), and a telescopic rod of the air cylinder (10) is connected with the connecting frame (71).

9. A scrap collectable powder granulator in accordance with claim 6, wherein: still including vibration mechanism, vibration mechanism is including leading truck (101), carriage (102), elastic component two (104) and contact block (105), granulation storehouse (4) both sides all are connected with leading truck (101), sliding connection has carriage (102) on leading truck (101), be connected with elastic component two (104) between carriage (102) and leading truck (101), even interval sliding connection in leading truck (101) lower part has two at least contact blocks (105), contact block (105) top and carriage (102) bottom contact, perpendicular guide rail (74) removal can extrude contact block (105) and move up.