CN111469350A

CN111469350A - Slurry processing system for injection molding process

Info

Publication number: CN111469350A
Application number: CN202010282091.8A
Authority: CN
Inventors: 陈超
Original assignee: Hangzhou Fuyang Huamei Hardware Plastic Factory
Current assignee: Hangzhou Fuyang Huamei Hardware Plastic Factory
Priority date: 2020-04-11
Filing date: 2020-04-11
Publication date: 2020-07-31
Also published as: JP2021167104A

Abstract

The invention relates to a slurry processing system for an injection molding process, which comprises a stirring barrel, wherein a stirring shaft is connected between the inner walls of the upper end and the lower end of the stirring barrel through a bearing, and a crushing mechanism and a grinding mechanism are sequentially arranged on the stirring shaft from top to bottom. The invention can solve the following problems of stirring and processing of slurry in the existing injection molding process, a, the existing stirring equipment can only prevent the slurry from being coagulated in a large area in a rotating and stirring mode in the slurry stirring process, can not comprehensively remove larger particles in the slurry, influences the density inside a product after injection molding, and causes that the molded product can not reach the specified standard, b, the traditional stirring equipment uniformly stirs the slurry in operation, can not carry out refined batch quantitative processing on the slurry, can not carry out grinding processing on particles with overlarge crystals inside the slurry, and has poor processing and stirring effects.

Description

Slurry processing system for injection molding process

Technical Field

The invention relates to the technical field of injection molding, in particular to a slurry processing system for an injection molding process.

Background

Injection molding, also known as injection molding, is a method of molding by injection and molding. The injection molding method has the advantages of high production speed, high efficiency, automation of operation, various colors, various shapes from simple to complex, small sizes, accurate product size, easy replacement of products, capability of forming products with complex shapes, and suitability for the molding processing fields of mass production, products with complex shapes and the like. The requirement of injection molding products on the slurry is high, and the thickness degree of the slurry directly influences the density inside the injection molding products.

However, the following problems of stirring and processing of slurry in the existing injection molding process are that a, the existing stirring equipment can only prevent the slurry from being coagulated in a large area in a rotating and stirring manner in the slurry stirring process, large particles in the slurry cannot be completely broken, the density inside a product after injection molding is influenced, and the molded product cannot reach the specified standard, b, the traditional stirring equipment uniformly stirs the slurry in operation, the slurry cannot be finely batched and quantitatively processed, the particles with overlarge crystals in the slurry cannot be ground, and the processing and stirring effect is poor.

For the technical problems existing in the existing injection molding process, people in the related technical field make adaptive improvements after research, for example, a slurry stirring and lifting device of the chinese utility model with patent number 2017216630626, the invention can save the cost and improve the stirring efficiency, however, the difficult problems existing in the above-mentioned plastic molding process are not mentioned.

Disclosure of Invention

In order to solve the problems, the invention provides a slurry processing system for an injection molding process, which can solve the problems in the existing injection molding process.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a slurry processing system for an injection molding process comprises a stirring barrel, wherein a stirring shaft is connected between the inner walls of the upper end and the lower end of the stirring barrel through a bearing, the upper end of the stirring shaft penetrates through the stirring barrel and is connected with a stirring motor, the stirring motor is installed on the outer wall of the stirring barrel through a motor base, the stirring shaft is of a hollow structure, and a crushing mechanism and a grinding mechanism are sequentially arranged on the stirring shaft from top to bottom;

the crushing mechanism comprises a driving ring arranged on the outer wall of the stirring shaft, stirring rods are uniformly arranged on the outer wall of the driving ring along the circumferential direction of the driving ring, stirring brushes are arranged at the lower ends of the stirring rods, the stirring brushes are attached to the filtering plates, filtering holes are uniformly formed in the filtering plates, the filtering plates are sleeved on the stirring shaft in a sliding fit mode, the lower ends of the filtering plates are arranged on the discharging plates through telescopic spring rods, the discharging plates are connected with the stirring shaft through bearings, the discharging plates are fixed on the inner wall of the stirring barrel, and discharging holes are uniformly formed in the discharging holes;

grinding mechanism includes from last grinding branch chain and No. two grinding branch chains that down set gradually on the (mixing) shaft, and it links to each other through the control branch chain between grinding branch chain and the No. two grinding branch chains, and the control branch chain is installed on the inner wall of (mixing) shaft, and the lower extreme of grinding branch chain evenly is provided with supplementary branch chain, grinding branch chain is including the cover establish the grinding frame on the (mixing) shaft outer wall, and the symmetry is provided with grinding assembly on grinding frame's the inner wall, grinding assembly passes through the rotation post of bearing uniform installation between grinding frame inner wall, and the middle part of rotating the post is provided with the driven pulleys, evenly is provided with the grinding ball on rotating the outer wall of post, links to each other through the linkage area between two adjacent driven pulleys, is provided with the drainage frame who.

Preferably, the control branch chain includes and installs driving motor on the (mixing) shaft inner wall through the motor cabinet, installs the control sprocket on driving motor's the output shaft, installs two control axles through the bearing on the inner wall of (mixing) shaft, two control axisymmetric positions are in the upper and lower both sides of sprocket, and set up on the (mixing) shaft and wear around the groove with the control axle is mutually supported, install control band pulley and driven sprocket on the control axle, driven sprocket passes through the chain and links to each other with control sprocket, the cover is equipped with the drive belt on the control band pulley, the drive belt passes to wear to wind the groove and connects on being located the driven band.

Preferably, the auxiliary branched chain comprises an auxiliary support which is installed on the lower end face of the drainage frame, the reset spring rod on the outer wall of the auxiliary support is connected with an auxiliary kneading frame, kneading balls are uniformly arranged on the lower end face of the auxiliary kneading frame, a reset groove is formed in the lower end of the auxiliary support, an auxiliary rod is installed on the auxiliary kneading frame, the auxiliary rod is arranged in the reset groove in a sliding mode, an auxiliary motor is installed on the inner wall of the auxiliary support through a motor base, a cam is arranged on the auxiliary motor, and the cam is abutted to the auxiliary rod.

Preferably, the lower end surface of the auxiliary kneading frame is parallel to the upper end surface of the grinding frame.

Preferably, the upper end of the filter plate is provided with a control rod, the upper end of the control rod is abutted against the driving ring, and the end face of the driving ring, which is in contact with the control rod, is of a curved surface concave-convex structure.

Preferably, the lower extreme of filter evenly is provided with the spacing block, and the spacing block is T style of calligraphy structure, and the spacing block is located the discharge gate, and the lower terminal surface of spacing block and discharge gate is located the coplanar.

Preferably, grind the hollow trapezium structure that the frame is followed to down reducing in proper order for the diameter, the drainage frame is followed to down reducing in proper order's trapezium ring structure for the diameter, and grind the lower terminal surface that frame and be parallel with drainage frame's up end.

Preferably, the feed inlet has been seted up to the upper end of agitator, and the lower extreme of agitator is the trapezium structure that the diameter down increases in proper order from the top, and has evenly seted up the material conveying mouth along its circumference direction on the agitator.

1. The invention can solve the following problems of stirring and processing of slurry in the existing injection molding process, a, the existing stirring equipment can only prevent the slurry from being coagulated in a large area in a rotating and stirring mode in the slurry stirring process, can not comprehensively remove larger particles in the slurry, influences the density inside a product after injection molding, and causes that the molded product can not reach the specified standard, b, the traditional stirring equipment uniformly stirs the slurry in operation, can not carry out refined batch quantitative processing on the slurry, can not carry out grinding processing on particles with overlarge crystals inside the slurry, and has poor processing and stirring effects. The present invention can solve the above-mentioned problems, and has an unexpected effect.

2. The crushing mechanism designed by the invention can carry out overall stirring operation on the slurry in the stirring barrel in operation, the slurry which is qualified in stirring operation is discharged from the filtering hole, and the driving ring and the control rod are matched with each other to control the opening and closing of the discharge hole in the stirring operation, so that the quantitative discharge of the slurry from the discharge hole is controlled, and the batch quantitative processing operation on the slurry in operation is ensured.

3. The grinding mechanism designed by the invention can grind the slurry in operation, can ensure that the slurry is finely processed, can ensure that crystal particles in the slurry can be comprehensively crushed, cannot influence the density of an injection molded product, and can ensure the quality of the injection molded product.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic plan view of the present invention;

FIG. 2 is an enlarged view of the invention taken from the direction I of FIG. 1;

FIG. 3 is a schematic view of the structure between the stirring shaft and the control branch chain of the present invention;

fig. 4 is a schematic structural view of the rotary column, the driven pulley and the grinding balls of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 4, a slurry processing system for an injection molding process comprises a stirring barrel 1, wherein a stirring shaft 2 is connected between the inner walls of the upper end and the lower end of the stirring barrel 1 through a bearing, the upper end of the stirring shaft 2 penetrates through the stirring barrel 1 to be connected with a stirring motor 3, the stirring motor 3 is installed on the outer wall of the stirring barrel 1 through a motor base, the stirring shaft 2 is of a hollow structure, and a crushing mechanism 4 and a grinding mechanism 5 are sequentially arranged on the stirring shaft 2 from top to bottom;

the crushing mechanism 4 comprises a driving ring 41 arranged on the outer wall of the stirring shaft 2, stirring rods 42 are uniformly arranged on the outer wall of the driving ring 41 along the circumferential direction of the driving ring, stirring brushes are arranged at the lower ends of the stirring rods 42 and are attached to a filtering plate 43, filtering holes are uniformly formed in the filtering plate 43, the filtering plate 43 is sleeved on the stirring shaft 2 in a sliding fit mode, the lower end of the filtering plate 43 is arranged on a discharging plate 45 through a telescopic spring rod 44, the discharging plate 45 is connected with the stirring shaft 2 through a bearing, the discharging plate 45 is fixed on the inner wall of the stirring barrel 1, and discharging holes are uniformly formed in the discharging holes;

the upper end of the filter plate 43 is provided with a control rod 46, the upper end of the control rod 46 is abutted against the driving ring 41, and the end surface of the driving ring 41 contacted with the control rod 46 is of a curved concave-convex structure. The driving ring 41 cooperates with the control rod 46 during rotation to control the filter plates 43 to perform lifting adjustment.

The lower end of the filter plate 43 is uniformly provided with the isolation blocks 47, the isolation blocks 47 are of a T-shaped structure, the isolation blocks 47 are located in the discharge port, the lower end face of each isolation block 47 and the lower end face of the discharge port are located in the same plane, the filter plate 43 controls the isolation blocks 47 to move to the lower end of the discharge port in the lifting operation process, and slurry flows downwards from a gap between the discharge port and the isolation blocks 47, so that the batch quantitative fine processing operation of the slurry can be ensured.

Rubbing crusher 4 is at the during operation, 3 job control (mixing) shaft 2 of agitator motor rotate, stirring shaft 2 rotates the stirring operation to the inside thick liquids of agitator 1 at rotation in-process control puddler 42, puddler 42 can prevent that thick liquids from taking place the solidification of large tracts of land and carry out the breakage to the inside bold granule of thick liquids through fast-speed rotation when, the stirring brush on the puddler 42 can carry out quick clearance to filter 43 in rotating, prevent that the bold granule of the inside crystallization of thick liquids from blockking up the filter orifice, and drive ring 41 controls filter 43 to go up and down to adjust the operation rotating in-process and mutually supporting between control lever 46, filter 43 moves the lower extreme of discharge gate at lift operation process control spacing block 47, thick liquids flow downwards in the space between discharge gate and spacing block 47.

The grinding mechanism 5 comprises a first grinding branch chain 51 and a second grinding branch chain 52 which are sequentially arranged on the stirring shaft 2 from top to bottom, the first grinding branch chain 51 is connected with the second grinding branch chain 52 through a control branch chain 53, the control branch chain 53 is arranged on the inner wall of the stirring shaft 2, and the lower end of the first grinding branch chain 51 is uniformly provided with auxiliary branch chains 54, the first grinding branch chain 51 comprises a grinding frame 511 sleeved on the outer wall of the stirring shaft 2, the inner wall of the grinding frame 511 is symmetrically provided with grinding components 512, grinding component 512 evenly installs rotation post 513 between grinding frame 511 inner wall through the bearing, and the middle part of rotating post 513 is provided with driven pulley 514, evenly is provided with grinding ball 515 on the outer wall of rotation post 513, links to each other through linkage 516 between two adjacent driven pulley 514, is provided with the drainage frame 517 with grinding frame 511 cooperation use on the inner wall of agitator 1.

Grind frame 511 for the diameter from the last hollow trapezium structure that down reduces in proper order, drainage frame 517 is the trapezoidal ring structure that the diameter from the last down reduces in proper order, and the lower terminal surface that grinds frame 511 and is parallel with the up end of drainage frame 517.

When the grinding mechanism 5 works, slurry flows downwards along the inclined direction from the grinding frame 511, the stirring shaft 2 controls the grinding frame 511 to rotate synchronously in the rotation operation, the grinding frame 511 and the drainage frame 517 work cooperatively in the rotation operation, the slurry flows downwards from a gap between the grinding frame 511 and the drainage frame 517, the grinding frame 511 can perform primary operation on the slurry in a rotation grinding mode, the control branch chain 53 controls the first grinding branch chain 51 and the second grinding branch chain 52 to work simultaneously, the first grinding branch chain 51 and the second grinding branch chain 52 perform secondary rolling type grinding operation on the slurry in the flow operation in the operation, and the auxiliary branch chain 54 performs tertiary reciprocating type grinding operation on the slurry flowing on the grinding frame 511.

Control branch 53 includes installs driving motor 531 on (mixing) shaft 2 inner wall through the motor cabinet, install control sprocket 532 on driving motor 531's the output shaft, install two control axles 533 through the bearing on (mixing) shaft 2's the inner wall, two control axle 533 symmetry lie in the upper and lower both sides of sprocket, and set up on the (mixing) shaft 2 and wear around the groove with control axle 533 mutually supporting, install control band pulley 534 and driven sprocket 535 on the control axle 533, driven sprocket 535 links to each other with control sprocket 532 through chain 536, the cover is equipped with drive belt 537 on the control band pulley 534, drive belt 537 passes to wear to wind the groove and connects on being located grinding frame 511 inboard driven band pulley 514.

The driving motor 531 works to drive the control sprocket 532 to rotate, the control sprocket 532 drives the control shaft 533 to rotate in a chain transmission mode, the control shaft 533 controls the rotating column 513 to rotate in a rotating mode in a belt transmission mode, and the rotating column 513 controls the grinding balls 515 to perform two-stage rolling type grinding operation on the slurry flowing on the drainage frame 517 in the rotating mode.

The auxiliary branched chain 54 includes an auxiliary support 541 mounted on the lower end surface of the drainage frame 517, a return spring lever 542 on the outer wall of the auxiliary support 541 is connected with an auxiliary kneading frame 543, a kneading ball is uniformly arranged on the lower end surface of the auxiliary kneading frame 543, a return groove is formed at the lower end of the auxiliary support 541, an auxiliary rod 544 is mounted on the auxiliary kneading frame 543, the auxiliary rod 544 is slidably disposed in the return groove, an auxiliary motor 545 is mounted on the inner wall of the auxiliary support 541 through a motor base, a cam 546 is arranged on the auxiliary motor 545, and the cam 546 abuts against the auxiliary rod 544.

The lower end surface of the auxiliary kneading frame 543 is parallel to the upper end surface of the polishing frame 511.

The auxiliary motor 545 works to control the auxiliary rubbing frame 543 to perform reciprocating and stretching operations through the cam 546, the return spring bar 542 performs limiting and returning functions on the auxiliary rubbing frame 543, and the auxiliary rubbing frame 543 controls the rubbing balls to perform three-stage reciprocating type grinding operations on the slurry flowing on the grinding frame 511 during reciprocating operations.

The feed inlet has been seted up to the upper end of agitator 1, and the lower extreme of agitator 1 is the trapezium structure that the diameter down increases in proper order from last, and has evenly seted up the material conveying mouth along its circumference direction on agitator 1. The slurry after stirring and grinding flows to the bottom of the stirring barrel 1, and the slurry is discharged from the material conveying opening under the action of gravity.

In operation;

firstly, injecting slurry into a stirring barrel 1 from a feed inlet;

secondly, the crushing mechanism 4 carries out overall stirring operation on the slurry in the stirring barrel and controls the slurry to be quantitatively discharged from a discharge port, and batch quantitative conveying processing operation is carried out on the slurry in the operation;

and thirdly, the grinding mechanism 5 carries out multistage grinding operation on the slurry, the ground slurry can ensure that no crystal particles exist in the ground slurry, and the processed slurry is output from a material conveying opening.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a thick liquids system of processing for injection moulding technology, includes agitator (1), its characterized in that: a stirring shaft (2) is connected between the inner walls of the upper end and the lower end of the stirring barrel (1) through a bearing, the upper end of the stirring shaft (2) penetrates through the stirring barrel (1) to be connected with a stirring motor (3), the stirring motor (3) is installed on the outer wall of the stirring barrel (1) through a motor base, the stirring shaft (2) is of a hollow structure, and a crushing mechanism (4) and a grinding mechanism (5) are sequentially arranged on the stirring shaft (2) from top to bottom;

the crushing mechanism (4) comprises a driving ring (41) arranged on the outer wall of the stirring shaft (2), stirring rods (42) are uniformly arranged on the outer wall of the driving ring (41) along the circumferential direction of the driving ring, stirring brushes are arranged at the lower ends of the stirring rods (42), the stirring brushes are attached to the filtering plates (43), filtering holes are uniformly formed in the filtering plates (43), the filtering plates (43) are sleeved on the stirring shaft (2) in a sliding fit mode, the lower ends of the filtering plates (43) are arranged on a discharging plate (45) through telescopic spring rods (44), the discharging plate (45) is connected with the stirring shaft (2) through bearings, the discharging plate (45) is fixed on the inner wall of the stirring barrel (1), and discharging holes are uniformly provided with discharging holes;

the grinding mechanism (5) comprises a first grinding branch chain (51) and a second grinding branch chain (52) which are sequentially arranged on the stirring shaft (2) from top to bottom, the first grinding branch chain (51) and the second grinding branch chain (52) are connected through a control branch chain (53), the control branch chain (53) is installed on the inner wall of the stirring shaft (2), the lower end of the first grinding branch chain (51) is uniformly provided with an auxiliary branch chain (54), the first grinding branch chain (51) comprises a grinding frame (511) sleeved on the outer wall of the stirring shaft (2), grinding assemblies (512) are symmetrically arranged on the inner wall of the grinding frame (511), the grinding assemblies (512) are uniformly installed on rotating columns (513) between the inner walls of the grinding frame (511) through bearings, the middle parts of the rotating columns (513) are provided with driven belt pulleys (514), and grinding balls (515) are uniformly arranged on the outer walls of the rotating columns (513), two adjacent driven pulleys (514) are connected through a linkage belt (516), and a drainage frame (517) matched with the grinding frame (511) is arranged on the inner wall of the stirring barrel (1).

2. The system of claim 1, wherein: control branch chain (53) include and install driving motor (531) on (mixing) shaft (2) inner wall through the motor cabinet, install control sprocket (532) on the output shaft of driving motor (531), install two control axle (533) through the bearing on the inner wall of (mixing) shaft (2), two control axle (533) symmetry lie in the upper and lower both sides of sprocket, and set up on (mixing) shaft (2) and wear around the groove with control axle (533) mutually supporting, install control band pulley (534) and driven sprocket (535) on control axle (533), driven sprocket (535) link to each other with control sprocket (532) through chain (536), the cover is equipped with drive belt (537) on control band pulley (534), drive belt (537) pass and wear around the groove and connect on being located grinding frame (511) inboard driven band pulley (514).

3. The system of claim 1, wherein: the auxiliary branch chain (54) is including installing auxiliary support (541) of installing terminal surface under drainage frame (517), reset spring pole (542) is connected with supplementary frame (543) of kneading on the outer wall of auxiliary support (541), evenly be provided with on the lower terminal surface of supplementary frame (543) of kneading, the reset groove has been seted up to the lower extreme of auxiliary support (541), install auxiliary rod (544) on supplementary frame (543) of kneading, auxiliary rod (544) slide to set up in the reset groove, install auxiliary motor (545) through the motor cabinet on the inner wall of auxiliary support (541), be provided with cam (546) on auxiliary motor (545), cam (546) are supported and are leaned on auxiliary rod (544).

4. The system of claim 3, wherein: the lower end surface of the auxiliary kneading frame (543) is parallel to the upper end surface of the grinding frame (511).

5. The system of claim 1, wherein: the upper end of the filter plate (43) is provided with a control rod (46), the upper end of the control rod (46) is abutted against the driving ring (41), and the end face of the driving ring (41) in contact with the control rod (46) is of a curved surface concave-convex structure.

6. The system of claim 1, wherein: the lower extreme of filter (43) evenly is provided with spacing block (47), and spacing block (47) are T style of calligraphy structure, and spacing block (47) are located the discharge gate, and the lower terminal surface of spacing block (47) and discharge gate are located the coplanar.

7. The system of claim 1, wherein: grind frame (511) for the diameter from the last hollow trapezium structure that down reduces in proper order, drainage frame (517) is the diameter from the last trapezoidal ring structure that down reduces in proper order, and grind the lower terminal surface that frame (511) and be parallel with the up end of drainage frame (517).

8. The system of claim 1, wherein: the feed inlet has been seted up to the upper end of agitator (1), and the lower extreme of agitator (1) is the diameter from last trapezium structure down increasing in proper order, and has evenly seted up the material conveying mouth along its circumference direction on agitator (1).