CN112060393A - Rapid prototyping equipment is used in production of plastics master batch - Google Patents

Abstract

The invention discloses rapid forming equipment for producing plastic master batches, which comprises a fixed base, a splicing pipe and a storage barrel, wherein the splicing pipe is fixedly arranged at the upper part of the fixed base, the outer surface of the side edge of the splicing pipe is fixedly provided with a butt-joint clamping sleeve, one side of the outer surface of the splicing pipe, which is close to the butt-joint clamping sleeve, is fixedly provided with two groups of butt-joint clamping seats, the storage barrel is fixedly arranged at one end of the fixed base, the upper end of the storage barrel is fixedly provided with a material distribution barrel, one side of the material distribution barrel is fixedly provided with an air blower, a material conveying pipe is fixedly arranged between the material distribution barrel and the air blower, the outer surface of the upper end of the material conveying pipe is fixedly sleeved; make this quick former for plastics master batch production have supplementary sieve material structure, promote its self functionality, make it have rotation regulation structure simultaneously, promote the flexibility when its sieve material operates.

Description

Rapid prototyping equipment is used in production of plastics master batch

Technical Field

The invention belongs to the technical field of plastic processing, and particularly relates to rapid forming equipment for producing plastic master batches.

Background

The rapid forming equipment for producing the plastic master batches is a rapid forming equipment for extruding and granulating the plastic master batches in the production and processing process of the plastic master batches, and the rapid forming equipment can effectively shorten the time required by the plastic master batches in processing.

The plastic particle processing equipment disclosed in the reference document CN207403030U structurally comprises a base, a granulating bin and a smelting machine, wherein a guide pillar, a fixing groove, a damping spring and a driving motor are arranged on the left upper side of the base, the guide pillar is fixedly connected to the left upper end of the base, the fixing groove is fixedly connected with the guide pillar through the damping spring, and the driving motor is fixedly connected to the upper end of the fixing groove; the right side of the driving motor is provided with a motor rotating shaft, a driving shaft and a rotating shaft box, the motor rotating shaft is movably connected to the right end of the driving motor, the rotating shaft box is fixedly connected to the base, and the driving shaft is connected with the motor rotating shaft through the rotating shaft box.

The existing rapid forming equipment for producing the plastic master batches has certain defects in the using process, and the traditional rapid forming equipment for producing the plastic master batches only has a single granulation function, so that the rapid forming equipment cannot perform synchronous screening operation on the processed plastic master batches, and the functionality of the rapid forming equipment is reduced; secondly, the traditional rapid forming equipment for producing the plastic master batches adopts a splicing type fixed structure design, so that the difficulty in mounting and dismounting the rapid forming equipment for producing the plastic master batches is increased, and the transition mounting operation of a user on the rapid forming equipment for producing the plastic master batches is not facilitated; meanwhile, the traditional rapid forming equipment for producing the plastic master batches does not have a rotary adjusting structure, so that the plastic master batches cannot be screened and adjusted according to the particle size of the plastic master batches, the flexibility of the plastic master batches in use is reduced, and certain adverse effects are brought to users.

Disclosure of Invention

In order to overcome the defect that the traditional rapid forming equipment for producing the plastic master batches only has a single granulation function, so that the rapid forming equipment cannot carry out synchronous screening operation on the processed plastic master batches, and the functionality of the rapid forming equipment is reduced; secondly, the traditional rapid forming equipment for producing the plastic master batches adopts a splicing type fixed structure design, so that the difficulty in mounting and dismounting the rapid forming equipment for producing the plastic master batches is increased, and the transition mounting operation of a user on the rapid forming equipment for producing the plastic master batches is not facilitated; meanwhile, the traditional rapid forming equipment for producing the plastic master batches does not have a rotary adjusting structure, so that the rapid forming equipment cannot be used for carrying out screening and adjusting operation according to the particle size of the plastic master batches, the flexibility of the rapid forming equipment in use is reduced, and the rapid forming equipment for producing the plastic master batches is provided.

The purpose of the invention is realized by the following technical scheme:

a rapid forming device for plastic master batch production comprises a fixed base, a splicing pipe and a storage barrel, wherein the splicing pipe is fixedly arranged on the upper portion of the fixed base, a butt joint clamping sleeve is fixedly arranged on the outer surface of the side edge of the splicing pipe, two butt joint clamping seats are fixedly arranged on one side, close to the butt joint clamping sleeve, of the outer surface of the splicing pipe, the storage barrel is fixedly arranged at one end of the fixed base, a material distribution barrel is fixedly arranged at the upper end of the storage barrel, an air blower is fixedly arranged on one side of the material distribution barrel, a material conveying pipe is fixedly arranged between the material distribution barrel and the air blower, a feeding hopper is fixedly connected with the outer surface of the upper end of the material conveying pipe, two groups of fixed lantern rings are fixedly arranged in the material distribution barrel, a limiting clamping bolt is fixedly arranged on the outer surface of the side edge of each fixed lantern ring, a first filter screen is fixedly arranged on the, the outer surface of the upper end of the second filter screen is fixedly provided with two groups of rotating sleeve handles, the outer surface of the lower part of the material distribution barrel is fixedly sleeved with a fixing clamp frame, and the material distribution barrel and the material storage barrel are fixedly butted through the fixing clamp frame.

As a further technical scheme of the invention, the splicing pipe and the fixed base are fixedly butted through a butting clamping seat, the distributing barrel and the air blower are in through connection through a material conveying pipe, the distributing barrel and the fixed lantern ring are fixedly butted through a limiting clamping bolt, the overall structure of the distributing barrel is a cylindrical double-layer structure, the outer surface of one side of the distributing barrel is fixedly provided with the first connecting pipe, and the distributing barrel and one end of the material conveying pipe are fixedly butted through the first connecting pipe.

As a further technical scheme, a discharging clamping cover is fixedly arranged on the outer surface of one end of the splicing pipe, a rotating scraper is movably arranged in the discharging clamping cover, a first motor is fixedly arranged in the middle of one side of the discharging clamping cover, the first motor is movably connected with the rotating scraper through a rotating rod, a discharging hole is formed in the bottom of the discharging clamping cover, and a driving clamping seat is fixedly arranged on the outer surface of the upper end of the fixed base, close to the other end of the splicing pipe.

As a further technical scheme, a second motor is fixedly installed on the inner side of the bottom of the fixed base, a transmission disc is movably installed at one end of each of the second motor and the drive clamping seat, a transmission belt is movably sleeved on the outer surface of the side edge of the transmission disc, the second motor and the drive clamping seat are in transmission connection through the transmission belt, the cross sections of the first filter screen and the second filter screen are both of circular structures, and a plurality of groups of filter grooves are formed in the inner sides of the first filter screen and the second filter screen in a penetrating mode.

As a further technical scheme, the integral structure of the splicing pipe is a cylindrical two-section structure, a rotary clamping sleeve is movably mounted on one side of the butt-joint clamping sleeve, a rotating shaft is arranged between the butt-joint clamping sleeve and the rotary clamping sleeve, the butt-joint clamping sleeve and the rotary clamping sleeve are movably connected through the rotating shaft, a butt-joint buckle is fixedly mounted in the middle of the outer surface of the side edge of the rotary clamping sleeve, and a butt-joint clamping groove is formed in the middle of the inner side of the butt-joint clamping.

As a further technical scheme, a material conveying box is fixedly mounted at the upper end of the fixed base close to the upper side of the splicing pipe, a third motor is fixedly mounted on the outer surface of the upper end of the material conveying box, a material conveying rod is movably mounted in the material conveying box, the whole structure of the material conveying box is a cuboid hollow structure, a rotary flip cover is movably mounted on one side of the material conveying box, the material conveying box and the rotary flip cover are movably connected through a hinge, two groups of supporting rods are fixedly mounted on the outer surface of the bottom of the material conveying box, and the material conveying box and the fixed base are in butt joint and fixed through the supporting rods.

As a further technical scheme, a rotating rod is movably mounted in the middle of the inner side of the splicing pipe, a spiral plate is fixedly mounted on the outer surface of the side edge of the rotating rod, a material extruding plate is fixedly mounted at one end, close to the rotating rod, of the inner side of the splicing pipe, and a plurality of groups of circular notches are formed in the inner side of the material extruding plate in a penetrating mode.

As a further technical scheme of the invention, conical hoppers are fixedly arranged on the outer surfaces of the lower ends of the material conveying box and the material distribution barrel, a sealing cover is fixedly sleeved on the outer surface of the upper end of the material distribution barrel, and a sealing ring is fixedly arranged on the outer surface of the bottom of the sealing cover.

As a further technical scheme of the invention, the upper end of the fixed clamping frame is fixedly provided with a clamping ring, and the fixed clamping frame and the material distributing barrel are fixedly butted through the clamping ring.

As a further technical scheme of the invention, the specific using and operating steps of the equipment are as follows:

step one, opening a rotary turnover cover of a material conveying box, pouring plastic raw materials into the material conveying box, starting a third motor, so that the third motor drives the material conveying rod to rotate, the plastic raw material in the material conveying box is guided into the splicing pipe by the material conveying rod, simultaneously, a second motor in the fixed base is started, so that the second motor drives the clamping seat to drive the rotating rod to rotate through the matching of the transmission disc and the transmission belt, the plastic raw material in the splicing pipe is extruded by utilizing the matching of the spiral plate on the rotating rod and the splicing pipe, the plastic raw material is extruded by the circular notch of the extruding plate after being compressed, simultaneously starting a first motor, driving a rotary scraper to rotate in a discharge clamping cover by the first motor, cutting off the plastic raw material extruded by the extruding plate by the rotation of the rotary scraper, forming the plastic raw material into granules, and discharging the plastic granules through the lower end of the discharge clamping cover;

step two, plastic particles discharged by the discharging clamping cover are collected into the conveying pipe by the aid of the feeding hopper, a user starts the air blower to cool the plastic particles in the conveying pipe by the aid of the air blower, meanwhile, the plastic particles in the conveying pipe are input into the material distribution barrel by the aid of operation of the air blower, and the user drives the second filter screen to rotate by rotating the rotary sleeve handle of the second filter screen according to the shape of the plastic particles, so that notches between the second filter screen and the first filter screen are staggered, and when the plastic particles fall onto the second filter screen, a part of the plastic particles can penetrate through the notches between the second filter screen and the first filter screen and fall into the storage barrel;

and step three, the user rotates the rotary clamping sleeve by using the rotating shaft, so that the butt joint buckle of the rotary clamping sleeve is separated from the butt joint clamping groove of the butt joint clamping sleeve, the butt joint clamping sleeve is taken down from the surface of the spliced pipe, and the two sections of the spliced pipe are separated.

The invention has the beneficial effects that:

1. by arranging the distributing barrel, after a user completes the granulating operation of the plastic master batch by using the rapid forming equipment, the user can utilize the feed hopper to take the plastic particles discharged by the discharging clamping cover into the conveying pipe, the user can utilize the air blower to cool the plastic particles in the conveying pipe by starting the air blower, the temperature generated in the extrusion process of the plastic particles is reduced, meanwhile, the plastic particles in the conveying pipe can be input into the distributing barrel by the operation of the air blower, so that the conveying operation of the plastic particles is completed while the temperature of the plastic particles is reduced, after the plastic particles enter the distributing barrel, the plastic particles can directly fall onto the second filter screen, part of the plastic particles can pass through the notch between the second filter screen and the first filter screen and fall into the storage barrel, the plastic particles with large particles can be retained in the distributing barrel, and the user can collect the unqualified plastic particles by the distributing barrel, thereby convenient to use person carries out the secondary operation to unqualified plastic granules, utilizes the setting of branch storage bucket, coordinates the use of second filter screen and first filter screen for this quick former for plastics master batch production has synchronous sieve material structure, promotes its self functionality.

2. The second filter screen and the first filter screen are arranged and are simultaneously arranged in the fixed lantern ring, and the rotation of the second filter screen is matched, so that the second filter screen and the first filter screen form a rotary adjusting structure, when the distribution barrel is used for screening plastic particles, a user can rotate the rotary sleeve handle of the second filter screen according to the shape of the plastic particles to drive the second filter screen to rotate, thereby the notch between the second filter screen and the first filter screen is staggered, the size of the notch between the second filter screen and the first filter screen is adjusted, so that the adjusted second filter screen and the first filter screen can carry out screening operation on plastic particles with different sizes, and by utilizing the arrangement of the second filter screen and the first filter screen, can optimize the use to the storage bucket, make the inside of dividing the storage bucket have the rotation type and adjust the structure, promote this plastics masterbatch production with rapid prototyping equipment's application scope.

3. Through setting up the splicing pipe and docking cutting ferrule, when the user need shift the operation to quick former for plastics masterbatch production, utilize the use of the splicing pipe cooperation butt joint cutting ferrule of two segmentation structures, make the user can utilize the axis of rotation to rotate rotatory cutting ferrule, make the separation between the butt joint buckle of rotatory cutting ferrule and the butt joint draw-in groove of butt joint cutting ferrule, take off from the surface of splicing pipe the butt joint cutting ferrule, make two sections separations of splicing pipe, be convenient for dismantle and the installation operation to the splicing pipe, utilize the setting of splicing pipe and butt joint cutting ferrule, make this quick former for plastics masterbatch production have concatenation formula combination fixed knot to construct, it is more convenient to make its installation and dismantlement operation, high durability and convenient use.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of a rapid prototyping apparatus for producing plastic master batches.

Fig. 2 is a partial structure diagram of the rapid prototyping equipment for producing plastic master batches.

FIG. 3 is an overall structure diagram of a discharging card cover in the rapid prototyping equipment for producing plastic master batches.

FIG. 4 is an overall structure diagram of a splicing pipe in the rapid prototyping equipment for producing plastic master batches.

Fig. 5 is an internal structure view of a distribution barrel in the rapid prototyping device for plastic master batch production of the present invention.

Fig. 6 is an overall structure diagram of a fixing lantern ring in the rapid prototyping device for producing the plastic master batch.

FIG. 7 is an internal structure view of a splicing pipe in the rapid prototyping apparatus for producing plastic master batches of the present invention.

In the figure: 1. butting the card seats; 2. a fixed base; 3. a blower; 4. a support bar; 5. a storage barrel; 6. a first motor; 7. a material distributing barrel; 8. a delivery pipe; 9. a discharging clamping cover; 10. splicing the tubes; 11. butting the clamping sleeves; 12. a material conveying box; 13. a third motor; 14. rotating the flip cover; 15. a drive card holder; 16. a drive belt; 17. a drive plate; 18. a second motor; 19. fixing the clamp frame; 20. a feed hopper; 21. a rotating shaft; 22. butting buckles; 23. rotating the cutting sleeve; 24. a fixed collar; 25. a sealing cover; 26. a first adapter tube; 27. a limiting clamping bolt; 28. a first filter screen; 29. rotating the sleeve handle; 30. a second filter screen; 31. extruding a material plate; 32. a spiral plate; 33. rotating the rod; 34. the squeegee is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-7, a rapid prototyping apparatus for producing plastic master batches comprises a fixed base 2, a splicing pipe 10 and a storage barrel 5, wherein the splicing pipe 10 is fixedly installed on the upper portion of the fixed base 2, a butt-joint clamping sleeve 11 is fixedly installed on the outer surface of the side edge of the splicing pipe 10, two groups of butt-joint clamping seats 1 are fixedly installed on one side of the outer surface of the splicing pipe 10 close to the butt-joint clamping sleeve 11, the storage barrel 5 is fixedly installed at one end of the fixed base 2, a distributing barrel 7 is fixedly installed on the upper end of the storage barrel 5, an air blower 3 is fixedly installed on one side of the distributing barrel 7, a material conveying pipe 8 is fixedly installed between the distributing barrel 7 and the air blower 3, a feed hopper 20 is fixedly sleeved on the outer surface of the upper end of the material conveying pipe 8, two groups of fixed lantern rings 24 are fixedly installed inside the distributing barrel 7, a limit clamping, and the inner surface of the inner side of the fixed lantern ring 24 is movably provided with a second filter screen 30 close to the upper part of the first filter screen 28, the outer surface of the upper end of the second filter screen 30 is fixedly provided with two groups of rotating sleeve handles 29, the outer surface of the lower part of the material separating barrel 7 is fixedly sleeved with a fixed clamping frame 19, and the material separating barrel 7 and the material storage barrel 5 are in butt joint and fixed through the fixed clamping frame 19.

Splicing pipe 10 and unable adjustment base 2 are fixed through butt joint cassette 1, through conveying pipeline 8 through connection between feed cylinder 7 and the air-blower 3, it is fixed to butt joint through spacing draw-in bolt 27 between feed cylinder 7 and the fixed lantern ring 24, the overall structure of feed cylinder 7 is cylinder bilayer structure, one side outer fixed surface of feed cylinder 7 installs first takeover 26, it is fixed through the butt joint of first takeover 26 between the one end of feed cylinder 7 and conveying pipeline 8, first takeover 26 plays the fixed action to the butt joint of conveying pipeline 8.

Fixed surface installs ejection of compact card cover 9 in the one end of splicing pipe 10, and the inside movable mounting of ejection of compact card cover 9 has rotatory scraper blade 34, one side middle part fixed mounting of ejection of compact card cover 9 has first motor 6, through bull stick swing joint between first motor 6 and the rotatory scraper blade 34, the bottom of ejection of compact card cover 9 is equipped with the discharge gate, the other end fixed mounting that the upper end surface of unable adjustment base 2 is close to splicing pipe 10 has drive cassette 15, install the gear in the drive cassette 15.

The inboard fixed mounting in bottom of unable adjustment base 2 has second motor 18, and the equal movable mounting in one end of second motor 18 and drive cassette 15 has driving disc 17, driving belt 16 has been cup jointed in the side surface activity of driving disc 17, connect through driving belt 16 transmission between second motor 18 and the drive cassette 15, the cross section of first filter screen 28 and second filter screen 30 is circular structure, the inboard of first filter screen 28 and second filter screen 30 all runs through and has seted up a plurality of groups's filter tank, utilize a plurality of groups's filter tank of first filter screen 28 and second filter screen 30 to carry out the screening operation to the plastic granules after processing.

The overall structure of splicing pipe 10 is two segmentation structures of cylinder, and one side movable mounting that docks cutting ferrule 11 has rotatory cutting ferrule 23, and is equipped with axis of rotation 21 between butt joint cutting ferrule 11 and the rotatory cutting ferrule 23, and butt joint cutting ferrule 11 and rotatory cutting ferrule 23 pass through axis of rotation 21 swing joint, and the side surface middle part fixed mounting of rotatory cutting ferrule 23 has butt joint buckle 22, and the inboard middle part position of butt joint cutting ferrule 11 has seted up the butt joint draw-in groove.

The top fixed mounting that unable adjustment base 2's upper end is close to concatenation pipe 10 has a conveying tank 12, the outer fixed surface in upper end of conveying tank 12 installs third motor 13, and the inside movable mounting of conveying tank 12 has a defeated material pole, the overall structure of conveying tank 12 is cuboid hollow structure, one side movable mounting of conveying tank 12 has rotatory flip 14, pass through hinge swing joint between conveying tank 12 and the rotatory flip 14, utilize conveying tank 12 can carry out the transport operation of plastic materials to concatenation pipe 10, the bottom outer fixed surface of conveying tank 12 installs two sets of bracing pieces 4, it is fixed to dock through bracing piece 4 between conveying tank 12 and the unable adjustment base 2.

The inboard middle part position movable mounting of concatenation pipe 10 has dwang 33, and the side surface fixed mounting of dwang 33 has spiral plate 32, and the inboard one end fixed mounting that is close to dwang 33 of concatenation pipe 10 has crowded flitch 31, and the inboard of crowded flitch 31 runs through and has seted up the circular notch of a plurality of groups.

The outer surfaces of the lower ends of the material conveying box 12 and the material distributing barrel 7 are fixedly provided with conical buckets, the outer surface of the upper end of the material distributing barrel 7 is fixedly sleeved with a sealing cover 25, the outer surface of the bottom of the sealing cover 25 is fixedly provided with a sealing ring, and the sealing performance of the sealing cover 25 in closing can be improved by the sealing ring.

The upper end of the fixed clamping frame 19 is fixedly provided with a clamping ring, and the fixed clamping frame 19 and the material distributing barrel 7 are fixedly butted through the clamping ring.

The specific using operation steps of the equipment are as follows:

step one, a rotary turnover cover 14 of a material conveying box 12 is opened, plastic raw materials are poured into the material conveying box 12, a third motor 13 is started, the third motor 13 drives a material conveying rod to rotate, the plastic raw materials in the material conveying box 12 are guided into the splicing pipe 10 by the material conveying rod, meanwhile, a second motor 18 in a fixed base 2 is started, the second motor 18 drives a clamping seat 15 to drive a rotating rod 33 to rotate through a transmission disc 17 and a transmission belt 16 in a matched mode, a spiral plate 32 on the rotating rod 33 is matched with the splicing pipe 10 to extrude the plastic raw materials in the splicing pipe 10, the plastic raw materials are compressed and then extruded out of a circular notch of an extruding plate 31, meanwhile, a first motor 6 is started, the first motor 6 drives a rotary scraper 34, the rotary scraper 34 rotates in a material discharge clamping cover 9, and the plastic raw materials extruded out of the extruding plate 31 are cut off by the rotation of the rotary scraper 34, the plastic raw materials are formed into particles, and the plastic particles are discharged through the lower end of the discharging clamping cover 9;

step two, plastic particles discharged from the discharge clamping cover 9 are collected into the material conveying pipe 8 by using the feed hopper 20, a user starts the air blower 3, cools the plastic particles in the material conveying pipe 8 by using the air blower 3, and simultaneously, the plastic particles in the material conveying pipe 8 are conveyed into and out of the material distributing barrel 7 by the operation of the air blower 3, the user drives the second filter screen 30 to rotate by rotating the rotary sleeve handle 29 of the second filter screen 30 according to the shape of the plastic particles, so that the notch between the second filter screen 30 and the first filter screen 28 is staggered, and when the plastic particles fall onto the second filter screen 30, part of the plastic particles can pass through the notch between the second filter screen 30 and the first filter screen 28 and fall into the material storage barrel 5;

step three, the user rotates the rotary cutting sleeve 23 by using the rotating shaft 21, so that the butt joint buckle 22 of the rotary cutting sleeve 23 is separated from the butt joint clamping groove of the butt joint cutting sleeve 11, the butt joint cutting sleeve 11 is taken down from the surface of the spliced pipe 10, and the two sections of the spliced pipe 10 are separated.

The invention aims to provide a rapid forming device for producing plastic master batches, when in use, a distribution barrel 7 is arranged, after a user completes granulation operation on the plastic master batches by using the rapid forming device, the user can utilize a feed hopper 20 to collect plastic particles discharged by a discharge clamping cover 9 into a material conveying pipe 8, the user can utilize the air blower 3 to perform cooling operation on the plastic particles in the material conveying pipe 8 by starting the air blower 3, so as to reduce the temperature generated in the extrusion process of the plastic particles, meanwhile, the plastic particles in the material conveying pipe 8 can be input into the distribution barrel 7 by the operation of the air blower 3, so that the transmission operation on the plastic particles is completed while the temperature of the plastic particles is reduced, after the plastic particles enter the distribution barrel 7, the plastic particles directly fall onto a second filter screen 30, and part of the plastic particles pass through a notch between the second filter screen 30 and a first filter screen 28, the plastic granules fall into the storage barrel 5, large-granule plastic granules can be retained in the distribution barrel 7, and a user can collect unqualified plastic granules through the distribution barrel 7, so that the user can conveniently perform secondary processing operation on the unqualified plastic granules, and the arrangement of the distribution barrel 7 is utilized to be matched with the use of a second filter screen 30 and a first filter screen 28, so that the rapid forming equipment for producing the plastic master batches has a synchronous material screening structure, and the functionality of the rapid forming equipment is improved;

by arranging the second filter screen 30 and the first filter screen 28, the second filter screen 30 and the first filter screen 28 are simultaneously installed inside the fixed sleeve ring 24, and the rotation of the second filter screen 30 is matched, so that the second filter screen 30 and the first filter screen 28 form a rotary adjusting structure, when the material distribution barrel 7 performs the screening operation on the plastic particles, a user can rotate the rotary sleeve handle 29 of the second filter screen 30 according to the shape of the plastic particles, so that the rotary sleeve handle 29 drives the second filter screen 30 to rotate, the notches between the second filter screen 30 and the first filter screen 28 are staggered, the size of the notch between the second filter screen 30 and the first filter screen 28 is adjusted, so that the adjusted second filter screen 30 and the adjusted first filter screen 28 can perform the screening operation on the plastic particles with different sizes, and by using the second filter screen 30 and the first filter screen 28, the use of the material distribution barrel 7 can be optimized, and the inside of the material distribution barrel 7 has the rotary adjusting structure, the application range of the rapid forming equipment for producing the plastic master batches is widened;

through setting up concatenation pipe 10 and butt joint cutting ferrule 11, when the user need shift the operation to quick former for plastics master batch production, the use of concatenation pipe 10 cooperation butt joint cutting ferrule 11 of two segmentation structures is utilized, make the user can utilize axis of rotation 21 to rotate rotatory cutting ferrule 23, make separation between the butt joint buckle 22 of rotatory cutting ferrule 23 and the butt joint draw-in groove of butt joint cutting ferrule 11, take off from the surface of concatenation pipe 10 butt joint cutting ferrule 11, make two sections separations of concatenation pipe 10, be convenient for dismantle and the installation operation to concatenation pipe 10, utilize the setting of concatenation pipe and butt joint cutting ferrule 11, make this quick former for plastics master batch production have concatenation formula combination fixed knot structure, it is more convenient to make its installation and dismantlement operation, and convenient for use 10.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The rapid prototyping equipment is used in production of plastic master batches, and is characterized by comprising a fixed base (2), a splicing pipe (10) and a storage barrel (5), wherein the splicing pipe (10) is fixedly arranged on the upper part of the fixed base (2), a butt joint clamping sleeve (11) is fixedly arranged on the outer surface of the side edge of the splicing pipe (10), two groups of butt joint clamping seats (1) are fixedly arranged on one side, close to the butt joint clamping sleeve (11), of the outer surface of the splicing pipe (10), the storage barrel (5) is fixedly arranged at one end of the fixed base (2), a material distribution barrel (7) is fixedly arranged at the upper end of the storage barrel (5), an air blower (3) is fixedly arranged on one side of the material distribution barrel (7), a material conveying pipe (8) is fixedly arranged between the material distribution barrel (7) and the air blower (3), and a feeding hopper (20) is fixedly connected to the outer, divide the inside fixed mounting of storage bucket (7) to have two sets of fixed lantern rings (24), the side fixed surface of the fixed lantern ring (24) installs spacing stuck bolt (27), the inboard fixed surface of the fixed lantern ring (24) installs first filter screen (28), and the inboard internal surface of the fixed lantern ring (24) is close to the upper portion movable mounting of first filter screen (28) has second filter screen (30), the upper end fixed surface of second filter screen (30) installs two sets of rotating sleeve (29), the fixed cover of lower part external surface of branch storage bucket (7) has connect fixed calorie of frame (19), divides between storage bucket (7) and storage vat (5) to dock fixedly through fixed calorie of frame (19).

2. The rapid prototyping device for plastic masterbatch production of claim 1, wherein the splicing pipe (10) and the fixed base (2) are fixedly butted through a butt joint clamping seat (1), the distribution barrel (7) and the air blower (3) are connected through a material conveying pipe (8), the distribution barrel (7) and the fixed sleeve ring (24) are fixedly butted through a limiting clamping bolt (27), the distribution barrel (7) is of a cylindrical double-layer structure, a first connecting pipe (26) is fixedly installed on the outer surface of one side of the distribution barrel (7), and the distribution barrel (7) and one end of the material conveying pipe (8) are fixedly butted through the first connecting pipe (26).

3. The rapid prototyping device for plastic masterbatch production of claim 1, wherein the outer surface of one end of the splicing pipe (10) is fixedly provided with a discharging clamping cover (9), the inside of the discharging clamping cover (9) is movably provided with a rotating scraper (34), the middle of one side of the discharging clamping cover (9) is fixedly provided with a first motor (6), the first motor (6) and the rotating scraper (34) are movably connected through a rotating rod, the bottom of the discharging clamping cover (9) is provided with a discharging hole, and the outer surface of the upper end of the fixed base (2) close to the other end of the splicing pipe (10) is fixedly provided with a driving clamping seat (15).

4. The rapid prototyping equipment of claim 3, characterized in that, the inboard fixed mounting in bottom of unable adjustment base (2) has second motor (18), and the equal movable mounting of one end of second motor (18) and drive cassette (15) has drive plate (17), drive belt (16) have been cup jointed in the activity of the side surface activity of drive plate (17), pass through drive belt (16) transmission connection between second motor (18) and the drive cassette (15), the cross section of first filter screen (28) and second filter screen (30) is circular structure, a plurality of groups of filter tanks have all been seted up in the inboard of first filter screen (28) and second filter screen (30) through.

5. The rapid prototyping equipment is used in plastics master batch production of claim 1, characterized in that, the overall structure of concatenation pipe (10) is two segmentation structures of cylinder, one side movable mounting of butt joint cutting ferrule (11) has rotatory cutting ferrule (23), and is equipped with axis of rotation (21) between butt joint cutting ferrule (11) and the rotatory cutting ferrule (23), butt joint cutting ferrule (11) and rotatory cutting ferrule (23) pass through axis of rotation (21) swing joint, and the side surface middle part position fixed mounting of rotatory cutting ferrule (23) has butt joint buckle (22), and the inboard middle part position of butt joint cutting ferrule (11) has seted up the butt joint draw-in groove.

6. The rapid prototyping device for plastic masterbatch production as claimed in claim 1, wherein the upper end of the fixed base (2) is fixedly provided with a material conveying box (12) above the splicing pipe (10), the outer surface of the upper end of the material conveying box (12) is fixedly provided with a third motor (13), the material conveying box (12) is movably provided with a material conveying rod inside, the whole structure of the material conveying box (12) is a cuboid hollow structure, one side of the material conveying box (12) is movably provided with a rotary flip cover (14), the material conveying box (12) is movably connected with the rotary flip cover (14) through a hinge, the outer surface of the bottom of the material conveying box (12) is fixedly provided with two sets of support rods (4), and the material conveying box (12) and the fixed base (2) are fixed by butt joint of the support rods (4).

7. The rapid prototyping equipment is used in production of plastics master batch of claim 1, characterized in that, the inboard middle part movable mounting of concatenation pipe (10) has dwang (33), and the outside fixed surface of side of dwang (33) installs spiral plate (32), the inboard one end fixed mounting that is close to dwang (33) of concatenation pipe (10) has crowded flitch (31), and the inboard of crowded flitch (31) runs through and has seted up the circular notch of a plurality of groups.

8. The rapid prototyping equipment for plastic masterbatch production as recited in claim 6 wherein the conical hopper is fixedly mounted on the outer surface of the lower end of the material delivery box (12) and the material distribution barrel (7), the sealing cover (25) is fixedly connected to the outer surface of the upper end of the material distribution barrel (7), and the sealing ring is fixedly mounted on the outer surface of the bottom of the sealing cover (25).

9. The rapid prototyping equipment is used in production of plastics master batch of claim 1 wherein, the upper end fixed mounting of fixing clip frame (19) has the snap ring, and fixing clip frame (19) and branch material bucket (7) are fixed through the snap ring butt joint between.

10. The rapid prototyping apparatus for producing plastic masterbatch of claim 1 is characterized in that the apparatus has the following specific operation steps:

step one, a rotary turnover cover (14) of a material conveying box (12) is opened, plastic raw materials are poured into the material conveying box (12), a third motor (13) is started to drive a material conveying rod to rotate, the plastic raw materials in the material conveying box (12) are guided into an splicing pipe (10) by the material conveying rod, a second motor (18) in a fixed base (2) is started at the same time, the second motor (18) is matched with a driving clamping seat (15) through a driving disc (17) and a driving belt (16) to drive a rotating rod (33) to rotate, a spiral plate (32) on the rotating rod (33) is matched with the splicing pipe (10) to extrude the plastic raw materials in the splicing pipe (10), the plastic raw materials are extruded out of a circular notch of an extruding plate (31) after being compressed, a first motor (6) is started at the same time, and the first motor (6) drives a rotary scraper (34), rotating the rotary scraper (34) in the discharging clamping cover (9), cutting off the plastic raw material extruded by the extruding plate (31) by utilizing the rotation of the rotary scraper (34), forming the plastic raw material into granules, and discharging the plastic granules through the lower end of the discharging clamping cover (9);

step two, plastic particles discharged from the discharging clamping cover (9) are collected into the material conveying pipe (8) by using the feed hopper (20), a user starts the air blower (3) to cool the plastic particles in the material conveying pipe (8) by using the air blower (3), meanwhile, the plastic particles in the material conveying pipe (8) are input into the material distribution barrel (7) through the operation of the blower (3), and a user can input plastic particles according to the shapes of the plastic particles, the rotating sleeve handle (29) of the second filter screen (30) is rotated, so that the rotating sleeve handle (29) drives the second filter screen (30) to rotate, so as to displace the notches between the second sieve (30) and the first sieve (28), when the plastic particles fall onto the second filter screen (30), part of the plastic particles can pass through the notch between the second filter screen (30) and the first filter screen (28) and fall into the storage barrel (5);

and thirdly, the user rotates the rotary clamping sleeve (23) by using the rotating shaft (21), so that the butt joint buckle (22) of the rotary clamping sleeve (23) is separated from the butt joint clamping groove of the butt joint clamping sleeve (11), the butt joint clamping sleeve (11) is taken down from the surface of the splicing pipe (10), and the two sections of the splicing pipe (10) are separated.

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