CN114801114A - Anti-bridging material barrel of extrusion machine - Google Patents

Abstract

The invention provides an anti-bridging charging barrel of extrusion machinery, which comprises upper side breaking blades, connecting pins and a longitudinal discharging pipe, wherein a plurality of upper side breaking blades are arranged at the upper end of a double-shaft motor at equal angles, spring grooves are respectively formed in the left side and the right side of the upper side of the annular side surface of each connecting pin, the design can mix and break up the granular material and the broken material entering the extrusion equipment from the conical shell, and simultaneously, the conical shell is convenient to be independently disassembled and assembled, thereby solving the problem that the prior extrusion equipment is inconvenient to fully mix the granular material and the broken material, improving the use convenience and the mixing effect of the invention, the longitudinal discharge pipe is longitudinally fixed in the discharge opening, the design can screen and guide the massive bridging materials formed by the granular materials and the crushed materials, solves the problem that the extruder is easy to break due to the massive bridging materials formed by the original granular materials and the crushed materials, and improves the practicability of the invention.

Description

Anti-bridging material barrel of extrusion machine

Technical Field

The invention discloses an anti-bridging charging barrel of an extrusion machine, and belongs to the technical field of extruder equipment.

Background

The extruder belongs to one of the types of plastic machinery, originates from 18 th century, can divide a machine head into a right-angle machine head, an oblique-angle machine head and the like according to the material flow direction of the machine head and the included angle of the central line of a screw, and can fully plasticize and uniformly mix materials by means of pressure and shearing force generated by rotation of the screw and form the materials through a die. Plastics extruders can be classified basically into twin-screw extruders, single-screw extruders and, less frequently, multi-screw extruders and also screwless extruders.

However, when the traditional charging barrel returns through a feeding machine and an online crusher, the materials of the feeding machine and the crushed materials cannot be mixed sufficiently and uniformly, block bridging is extremely easy to cause, the extruder can break, meanwhile, the mixing device is inconvenient to install at the feeding port of the extruding device, and the problems are solved by the anti-bridging charging barrel of the extruding machine which is urgently needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an anti-bridging charging barrel for an extrusion machine, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an extrusion machinery prevents feed cylinder of taking a bridge, includes extrusion equipment, conical shell, the dismouting subassembly of being convenient for and supplementary direction subassembly, the feed inlet has been seted up on extrusion equipment upper end right side, the bin outlet has been seted up in extrusion equipment lower extreme left side, feed inlet department is provided with the back taper hopper, the extrusion equipment right-hand member is provided with fixed motor, the inside feed cylinder screw rod that transversely is provided with of extrusion equipment, and feed cylinder screw rod and fixed motor pass through bearing transmission and be connected, conical shell card is established in back taper hopper upper end, conical shell is inside to be fixed with double-shaft motor through the motor dead lever, double-shaft motor upper end isoangle is provided with a plurality of upside and breaks up the blade, double-shaft motor lower extreme isoangle is provided with a plurality of downside and breaks up the blade, the dismouting subassembly of being convenient for includes vertical sleeve, solid fixed ring, expanding spring, lifting ring, connecting pin, Miniature sheetmetal and miniature spring, the impartial specification of vertical sleeve, solid fixed ring, expanding spring, lifting ring and connecting pin is provided with a plurality ofly, and is a plurality of angle longitudinal fixation such as vertical sleeve is at back taper hopper lower extreme edge, and is a plurality of the spring groove has all been seted up to the connecting pin annular side upside left and right sides, a plurality of circular step grooves have been seted up to angle such as conical shell lower extreme is inside, supplementary direction subassembly includes deflector, tilting honeycomb duct, vertical row's material pipe, and first tilting screen cloth, guide hopper, removable plate, second tilting screen cloth, disc motor, rotation axis and hybrid blade, vertical row's material pipe longitudinal fixation is in row's of material intraoral.

Further, in the dismouting subassembly of being convenient for, it is a plurality of gu fixed ring transversely fixes respectively at the inside lower extreme of a plurality of vertical sleeves, and is a plurality of the connecting pin runs through a plurality of fixed rings respectively and is located a plurality of vertical sleeves, and is a plurality of carry pull ring and weld respectively at terminal surface under a plurality of connecting pins, and is a plurality of expanding spring is located a plurality of vertical sleeves respectively, and overlaps respectively in a plurality of connecting pin annular sides, and is a plurality of the expanding spring lower extreme is fixed respectively in a plurality of solid fixed ring upper ends, and is a plurality of expanding spring all is in the state of stretching, and is a plurality of the connecting pin upper end is inserted respectively and is established in a plurality of circular step inslot.

Furthermore, the micro metal sheets and the micro springs are arranged in a plurality of equal specifications, the micro springs are longitudinally fixed at the upper ends of the inner portions of the spring grooves respectively, the micro metal sheets are fixed at the lower ends of the micro springs respectively, and the lower ends of the micro metal sheets are clamped in the circular step grooves respectively.

Further, in supplementary direction subassembly, the deflector slope is fixed on the inside upper end right side of vertical row of material pipe, the slope honeycomb duct slope is fixed at vertical row of material pipe right-hand member downside, and the slope honeycomb duct link up with vertical row of material pipe mutually, terminal surface under the slope honeycomb duct is fixed to first tilting screen cloth, the guide hopper is fixed at first tilting screen cloth lower extreme, removable board runs through the setting at vertical row of material pipe left end downside through the bolt, removable board right-hand member is provided with the second tilting screen cloth, and the slope card of second tilting screen cloth is established at the inside inclined downside of vertical row of material pipe, the disc motor is fixed at removable board left end.

Further, the rotating shaft is transversely arranged on the lower side in the longitudinal discharging pipe, the disc type motor is in transmission connection with the rotating shaft through a connecting bearing, the number of the mixing blades is multiple, and the plurality of the mixing blades are arranged on the annular side face of the rotating shaft at equal angles.

Furthermore, a feeding machine is arranged on the rear side of the lower end of the extrusion equipment, the right lower end of the inclined guide pipe is communicated with the feeding end of the feeding machine, the feeding end of the feeding machine is positioned above the conical shell, and the right upper end of the conical shell is provided with a granular material and crushed material feeding pipe in a penetrating mode.

Furthermore, an extruder is arranged on the left side below the extrusion equipment, a feed chute is formed in the upper end of the extruder, and the feed chute is positioned below the guide hopper and the longitudinal discharge pipe.

The invention has the beneficial effects that: according to the anti-bridging charging barrel for the extrusion machine, due to the fact that the upper side breaking blade, the lower side breaking blade, the longitudinal sleeve, the fixing ring, the telescopic spring, the lifting ring, the connecting pin, the miniature metal sheet and the miniature spring are added, the design can mix and break up the granular materials and the broken materials entering the extrusion equipment from the conical shell, meanwhile, the conical shell can be conveniently and independently disassembled and assembled, the problem that the existing extrusion equipment is inconvenient to fully mix the granular materials and the broken materials is solved, and the use convenience and the mixing effect of the anti-bridging charging barrel are improved.

Because the guide plate, the inclined guide pipe, the longitudinal discharging pipe, the first inclined screen, the guide hopper, the detachable plate, the second inclined screen, the disc motor, the rotating shaft and the mixing blade are added, the design can screen and guide the blocky bridging materials formed by the granular materials and the crushed materials, the problem that the extruder is easy to break due to the blocky bridging materials formed by the original granular materials and the crushed materials is solved, and the practicability of the invention is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic cross-sectional view of an anti-bridging barrel of an extrusion machine according to the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

FIG. 4 is a schematic front view of an anti-bridging barrel of an extrusion machine according to the present invention;

in the figure: 1-extrusion equipment, 11-inverted cone hopper, 12-fixed motor, 13-charging barrel screw, 14-feeding port, 15-discharging port, 2-double-shaft motor, 21-motor fixed rod, 22-lower side scattering blade, 23-upper side scattering blade, 24-conical shell, 3-assembly facilitating and disassembly, 31-longitudinal sleeve, 32-fixed ring, 33-expansion spring, 34-lifting ring, 35-connecting pin, 36-miniature metal sheet, 361-circular step groove, 362-spring groove, 37-miniature spring, 4-auxiliary guide assembly, 41-guide plate, 42-inclined guide pipe, 421-longitudinal discharging pipe, 43-first inclined screen, 44-guide hopper, 45-detachable plate, 13-charging barrel screw, 14-feeding port, 15-discharging port, 2-double-shaft motor, 21-motor fixed rod, 22-lower side scattering blade, 23-upper side scattering blade, 24-conical shell, 3-assembly facilitating disassembly and assembly, 46-second inclined screen, 47-disc motor, 48-connecting bearing, 49-rotating shaft, 491-mixing blade, 5-extruder and 6-feeder.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an extrusion machinery prevents feed cylinder of taking a bridge, including extrusion equipment 1, toper casing 24, be convenient for dismouting subassembly 3 and supplementary direction subassembly 4, extrusion equipment 1 upper end right side has seted up feed inlet 14, extrusion equipment 1 lower extreme left side has seted up bin outlet 15, feed inlet 14 department is provided with back taper hopper 11, extrusion equipment 1 right-hand member is provided with fixed motor 12, extrusion equipment 1 is inside to transversely be provided with feed cylinder screw 13, and feed cylinder screw 13 is connected through bearing transmission with fixed motor 12, toper casing 24 card is established in back taper hopper 11 upper end, toper casing 24 is inside to be fixed with biax motor 2 through motor dead lever 21, biax motor 2 upper end is equiangular to be provided with a plurality of upside and breaks up blade 23, biax motor 2 lower terminal surface is equiangular to be provided with a plurality of downside and breaks up blade 22, be convenient for dismouting subassembly 3 includes vertical sleeve 31, solid fixed ring 32, expanding spring 33, Lifting ring 34, connecting pin 35, miniature sheetmetal 36 and miniature spring 37, vertical sleeve 31, solid fixed ring 32, expanding spring 33, the impartial specification of lifting ring 34 and connecting pin 35 is provided with a plurality ofly, a plurality of vertical sleeve 31 equiangular longitudinal fixation are at back taper hopper 11 lower extreme edge, spring groove 362 has all been seted up to a plurality of connecting pin 35 annular side upside left and right sides, a plurality of circular step groove 361 have been seted up to conical shell 24 lower extreme inside equiangular, supplementary direction subassembly 4 includes deflector plate 41, tilting honeycomb duct 42, vertical row of material pipe 421, first tilting screen 43, guide hopper 44, detachable plate 45, second tilting screen 46, disc motor 47, rotation axis 49 and hybrid blade 491, vertical row of material pipe 421 vertically fixes in bin 15.

In be convenient for dismouting subassembly 3, a plurality of fixed rings 32 transversely fix at the inside lower extreme of a plurality of vertical sleeves 31 respectively, a plurality of connecting pins 35 run through a plurality of fixed rings 32 respectively and are located a plurality of vertical sleeves 31, a plurality of lift rings 34 weld respectively at a plurality of connecting pins 35 terminal surface down, a plurality of expanding spring 33 are located a plurality of vertical sleeves 31 respectively, and overlap respectively at a plurality of connecting pin 35 annular side, a plurality of expanding spring 33 lower extremes are fixed respectively in a plurality of fixed rings 32 upper ends, a plurality of expanding spring 33 all are in the state of extension, a plurality of connecting pin 35 upper ends are inserted respectively and are established in a plurality of circular step grooves 361, through the expanding spring 33 that adds, can be more stable when miniature sheetmetal 36 card is established in circular step groove 361.

The micro metal sheets 36 and the micro springs 37 are arranged in a plurality of equal specifications, the micro springs 37 are respectively and longitudinally fixed at the upper ends inside the spring grooves 362, the micro metal sheets 36 are respectively fixed at the lower ends of the micro springs 37, the lower ends of the micro metal sheets 36 are respectively clamped in the circular step grooves 361, and the micro metal sheets 36 can be pushed against the lower ends inside the circular step grooves 361 when the micro metal sheets 36 are clamped in the circular step grooves 361 through the added micro springs 37.

In supplementary direction subassembly 4, deflector 41 slope is fixed on the inside upper end right side of vertical row of material pipe 421, tilting honeycomb duct 42 slope is fixed at vertical row of material pipe 421 right-hand member downside, and tilting honeycomb duct 42 link up with vertical row of material pipe 421, first tilting screen 43 is fixed at tilting honeycomb duct 42 terminal surface down, guide hopper 44 is fixed at first tilting screen 43 lower extreme, removable plate 45 runs through the setting at vertical row of material pipe 421 left end downside through the bolt, removable plate 45 right-hand member is provided with second tilting screen 46, and second tilting screen 46 slope card is established at vertical row of material pipe 421 inside centre downside, disc motor 47 is fixed at removable plate 45 left end, through the first tilting screen 43 that adds, can lead the cubic bridging material that follows the roll-off from second tilting screen 46 inclined plane and follows the roll-off, make simultaneously and follow the aggregate and the broken materials of second tilting screen 46 inclined plane roll-off can pass first tilting screen 43 and fall down at the guide Inside the bucket 44.

The rotating shaft 49 is transversely positioned at the lower side inside the longitudinal discharging pipe 421, the disc type motor 47 is in transmission connection with the rotating shaft 49 through the connecting bearing 48, a plurality of mixing blades 491 are arranged, the plurality of mixing blades 491 are arranged on the annular side surface of the rotating shaft 49 at equal angles, and through the plurality of mixing blades 491 added, the granules and the crushed materials which pass through the inclined surface of the second inclined screen 46 can be broken up again so as to fall into the extruder 5 through the longitudinal discharging pipe 421.

1 lower extreme rear side of extrusion equipment is provided with material loading machine 6, tilting honeycomb duct 42 right side lower extreme communicates with each other with the 6 feed end of material loading machine, the material loading end of material loading machine 6 is located conical shell 24 top, conical shell 24 upper right end is run through and is provided with aggregate and broken material inlet tube, through the material loading machine 6 that adds, can collect the cubic bridging material that flows from tilting honeycomb duct 42 right side lower extreme, and can pass to again in conical shell 24 through material loading end of material loading machine 6 and break up, make aggregate and broken material can intensive mixing.

The left side of extrusion equipment 1 below is provided with extruder 5, and the feed chute has been seted up to extruder 5 upper end, and the feed chute is located guide hopper 44 and vertical row of material pipe 421 below, through the guide hopper 44 that adds, can lead the aggregate and the broken material that pass first tilting screen cloth 43 to in extruder 5.

As an embodiment of the present invention: when the granule and the crushed material are required to be sent into the conical shell 24 from the granule and crushed material inlet pipe, the double-shaft motor 2 and the fixed motor 12 are started in advance, the double-shaft motor 2 drives the upper side breaking blade 23 and the lower side breaking blade 22 to rotate, and then the granule and the crushed material sent into the conical shell 24 can be broken up, so that the granule and the crushed material can fall into the inverted cone hopper 11 through the conical shell 24 to be mixed and fall downwards at the position of the feed cylinder screw 13, the double-shaft motor 2 drives the feed cylinder screw 13 to rotate through the bearing, the mixed granule and crushed material can be driven to rotate and move, and finally the granule and the crushed material can fall into the longitudinal discharge pipe 421 through the discharge port 15, and when the conical shell 24 is required to be dismounted from the upper end of the inverted cone hopper 11 to check or maintain the double-shaft motor 2, the lifting ring 34 is pulled downwards, the lifting ring 34 drives the connecting pin 35 to move downwards (in the process, the extension spring 33 is compressed, the two micro metal sheets 36 are relatively and internally driven, and force is transmitted to the micro spring 37, so that the micro spring 37 can be slightly compressed in the spring groove 362, the two micro metal sheets 36 are relatively and externally connected with other parts because of no connection, and then can be driven to swing, so that the two micro metal sheets 36 can be pulled downwards, until the two micro metal sheets 36 exit from the circular step groove 361, and the rest of the pulling rings 34 are pulled downwards according to the steps, so that the conical shell 24 can be detached from the upper end of the inverted conical hopper 11, and the operation is fast and convenient.

As an embodiment of the present invention: the granular material and the crushed material falling into the longitudinal discharging pipe 421 through the discharging port 15 will move downwards, part of the granular material and the crushed material falling onto the guide plate 41 will move downwards from the inclined surface thereof until falling onto the inclined surface of the second inclined screen 46, the un-mixed and formed block bridging material will fall into the inclined flow guide pipe 42 on the inclined surface of the second inclined screen 46 and slide into the feeding machine 6 through the inclined surface of the first inclined screen 43, the feeding machine 6 is started, the feeding machine 6 will re-transmit the block bridging material collected therein to the conical shell 24 through the feeding end of the feeding machine 6 to be scattered, so that the granular material and the crushed material can be scattered and mixed sufficiently, most of the granular material and the crushed material falling onto the second inclined screen 46 will fall into the extruder 5 downwards (in this process, the disc motor 47 is started in advance, the disc motor 47 drives the rotating shaft 49 to rotate through the connecting bearing 48, the rotating shaft 49 drives the mixing blades 491 to rotate, so that most of the granular materials and the crushed materials that the rotating mixing blades 491 can break up and mix again), and the small granular materials and the crushed materials that slide into the inclined draft tube 42 and are located on the inclined surface of the first inclined screen 43 fall downwards into the material guiding hopper 44, and then fall into the extruder 5 from the material guiding hopper 44, thereby facilitating the processing of the granular materials and the crushed materials.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides an extrusion machinery prevents feed cylinder of taking a bridge, includes extrusion equipment (1), conical shell (24), the dismouting subassembly (3) of being convenient for and supplementary direction subassembly (4), its characterized in that: feed inlet (14) have been seted up on extrusion equipment (1) upper end right side, bin outlet (15) have been seted up on extrusion equipment (1) lower extreme left side, feed inlet (14) department is provided with back taper hopper (11), extrusion equipment (1) right-hand member is provided with fixed motor (12), extrusion equipment (1) inside transversely is provided with feed cylinder screw rod (13), and feed cylinder screw rod (13) are connected through the bearing transmission with fixed motor (12), conical shell (24) card is established in back taper hopper (11) upper end, conical shell (24) are inside to be fixed with double-shaft motor (2) through motor dead lever (21), angle such as double-shaft motor (2) upper end is provided with a plurality of upsides and breaks up blade (23), angle such as double-shaft motor (2) lower extreme is provided with a plurality of downsides and breaks up blade (22), dismouting subassembly (3) of being convenient for include vertical sleeve (31), The material guiding device comprises a fixing ring (32), an expansion spring (33), a lifting ring (34), a connecting pin (35), a miniature metal sheet (36) and a miniature spring (37), wherein a plurality of longitudinal sleeves (31), the fixing ring (32), the expansion spring (33), the lifting ring (34) and the connecting pin (35) are arranged in equal specifications, the longitudinal sleeves (31) are longitudinally fixed at the edge of the lower end of an inverted cone hopper (11) at equal angles, spring grooves (362) are formed in the left side and the right side of the upper side of the annular side surface of the connecting pin (35), a plurality of circular step grooves (361) are formed in the lower end of a cone shell (24) at equal angles, and an auxiliary guiding component (4) comprises a guiding plate (41), an inclined guiding pipe (42), a longitudinal discharging pipe (421), a first inclined screen (43), a guiding hopper (44), a detachable plate (45), a second inclined screen (46), A disc motor (47), a rotating shaft (49) and mixing blades (491), the longitudinal discharge pipe (421) being longitudinally fixed in the discharge opening (15).

2. An extrusion machine anti-bridging cartridge as in claim 1, wherein: in be convenient for dismouting subassembly (3), it is a plurality of gu fixed ring (32) transversely fixes respectively at the inside lower extreme of a plurality of vertical sleeves (31), it is a plurality of connecting pin (35) run through a plurality of solid fixed ring (32) respectively and lie in a plurality of vertical sleeves (31), it is a plurality of carry pull ring (34) weld respectively terminal surface under a plurality of connecting pin (35), it is a plurality of expanding spring (33) lie in a plurality of vertical sleeves (31) respectively, and overlap respectively at a plurality of connecting pin (35) annular side, it is a plurality of expanding spring (33) lower extreme is fixed respectively in a plurality of solid fixed ring (32) upper end, and is a plurality of expanding spring (33) all are in the state of extending, and are a plurality of connecting pin (35) upper end is inserted respectively and is established in a plurality of circular step groove (361).

3. An extrusion machine anti-bridging cartridge as claimed in claim 1 or 2, wherein: the miniature metal sheet (36) and the miniature spring (37) are arranged in a plurality of equal specifications, the miniature spring (37) is longitudinally fixed at the upper end inside the spring grooves (362), the miniature metal sheet (36) is fixed at the lower end of the miniature spring (37), and the lower ends of the miniature metal sheet (36) are clamped in the circular step grooves (361) respectively.

4. The extrusion machine anti-bridging cartridge of claim 1, wherein: in supplementary direction subassembly (4), deflector (41) slope is fixed on the inside upper end right side of vertical row of material pipe (421), tilting honeycomb duct (42) slope is fixed on vertical row of material pipe (421) right-hand member downside, and tilting honeycomb duct (42) link up with vertical row of material pipe (421) mutually, terminal surface under tilting honeycomb duct (42) is fixed in first tilting honeycomb duct (43), guide hopper (44) are fixed at first tilting mesh (43) lower extreme, removable plate (45) run through the setting at vertical row of material pipe (421) left end downside through the bolt, removable plate (45) right-hand member is provided with second tilting mesh (46), and second tilting mesh (46) slope card establishes the inclined downside in the middle of vertical row of material pipe (421), disk motor (47) are fixed at removable plate (45) left end.

5. An extrusion machine anti-bridging cartridge as claimed in claim 1 or 4, wherein: the rotating shaft (49) is transversely positioned at the lower side in the longitudinal discharging pipe (421), the disc type motor (47) is in transmission connection with the rotating shaft (49) through a connecting bearing (48), the mixing blades (491) are arranged in a plurality, and the mixing blades (491) are arranged on the annular side surface of the rotating shaft (49) at equal angles.

6. The extrusion machine anti-bridging cartridge of claim 1, wherein: the extrusion equipment is characterized in that a feeding machine (6) is arranged on the rear side of the lower end of the extrusion equipment (1), the right lower end of the inclined type flow guide pipe (42) is communicated with the feeding end of the feeding machine (6), the feeding end of the feeding machine (6) is positioned above the conical shell (24), and the right upper end of the conical shell (24) is provided with a granular material and crushed material feeding pipe in a penetrating mode.

7. The extrusion machine anti-bridging cartridge of claim 1, wherein: the extruding device is characterized in that an extruder (5) is arranged on the left side below the extruding device (1), a feeding chute is formed in the upper end of the extruder (5), and the feeding chute is located below the material guide hopper (44) and the longitudinal discharging pipe (421).

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