CN114227969A

CN114227969A - Masterbatch processing and stirring device and stirring method

Info

Publication number: CN114227969A
Application number: CN202111284430.7A
Authority: CN
Inventors: 刘婷婷
Original assignee: Anhui Kalou Plastic Technology Co ltd
Current assignee: Anhui Kalou Plastic Technology Co ltd
Priority date: 2021-11-01
Filing date: 2021-11-01
Publication date: 2022-03-25

Abstract

The invention discloses a color master batch processing and stirring device and a color master batch stirring method, and relates to the technical field of color master batch stirring. According to the invention, the color master batches to be stirred are fed into the stirring cylinder through the feed hopper, and then are subjected to multistage rapid stirring operation by using the stirring cylinder, so that the stirring mechanism has small load and short time consumption, the color master batches are not easy to agglomerate, and the stirring efficiency is improved.

Description

Masterbatch processing and stirring device and stirring method

Technical Field

The invention relates to the technical field of color master batch stirring, in particular to a color master batch processing and stirring device and a stirring method.

Background

The color master batch is a plastic colorant formed by pigment or additive and thermoplastic resin with high proportion and good dispersion, the selected resin has good wetting and dispersion effects on the colorant, therefore, the color master batch is applied to various fields, in the production process of the color master batch, the raw material needs to be stirred, but most of the existing stirring devices adopt the whole raw material thrown into a stirring cylinder to be stirred, so that the stirring equipment has large load, long stirring time is consumed, the color master batch is easy to agglomerate, and the stirring efficiency is influenced, therefore, the color master batch processing stirring device and the stirring method are designed, and the problems are solved.

Disclosure of Invention

The invention aims to provide a masterbatch processing and stirring device and a stirring method, which are used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a masterbatch processing agitating unit, includes churn and rabbling mechanism, the feed inlet has been seted up on the churn top, and the opening part of feed inlet is equipped with the feeder hopper, will treat the masterbatch of stirring through the feeder hopper and throw into the churn in, wait for to stir the operation.

The rabbling mechanism sets up in the inside of churn, and the rabbling mechanism is located the feeder hopper under, accepts the masterbatch of throwing in from the feeder hopper through the rabbling mechanism to can carry out stirring operation to the masterbatch, satisfy the stirring demand.

Rabbling mechanism includes frustum type guide seat, a driving motor and L type transfer line, frustum type guide seat passes through the bracing piece to be fixed inside the churn, and be located the feeder hopper under, the outer wall of frustum type guide seat is fixed and is equipped with a plurality of annular baffle, the unloading breach has been seted up to the radial lateral wall of annular baffle, the unloading breach dislocation distribution of two adjacent annular baffles, the masterbatch of throwing in from the feeder hopper drops on the outer wall of frustum type guide seat, play the masterbatch of separating in grades along the cunning of frustum type guide seat lateral wall through annular baffle, can follow the masterbatch of top annular baffle internal color from the unloading breach and dial out, annular baffle along frustum type guide seat lateral wall gliding to below, realize the masterbatch of separating the stirring in grades, improve the efficiency of stirring.

In further embodiment, the bottom of churn is inverted cone frustum type structure, and is connected with the unloading pipe, the bottom mounting of unloading pipe is equipped with second driving motor, second driving motor's power shaft rotates the inside that extends to the unloading pipe and connects the conveying screw, the radial lateral wall of unloading pipe is connected with the passage of slope distribution, utilize second driving motor to provide power and drive conveying screw and lead to in with the leading-in guide pipe of the masterbatch in the unloading pipe, thereby can derive the masterbatch that the stirring was ended, provide the efficiency of stirring ejection of compact.

In a further embodiment, the first driving motor is fixedly embedded in the inner bottom end of the frustum-shaped material guide seat, a power shaft of the first driving motor rotates and extends to the position below the frustum-shaped material guide seat, and is fixedly connected with one end of the L-shaped transmission rod, the other end of the L-shaped transmission rod is positioned at the side position of the frustum-shaped material guide seat, and is fixedly connected with a plurality of extension beams which are uniformly distributed at intervals up and down, the extension beams are fixedly provided with scrapers which are in sliding fit with the side walls of the frustum-shaped material guide seat, the L-shaped transmission rod is driven to rotate at one side of the frustum-shaped material guide seat by utilizing the power provided by the first driving motor, thereby can drive the most advanced scraper blade of extension beam and make circular motion around frustum type guide holder outer wall, can stir the operation to the interior divided masterbatch of every annular baffle, can drop on next stage annular baffle through the unloading breach to can realize hierarchical stirring operation.

In further embodiment, the lateral wall of frustum type guide holder rotates and is equipped with a plurality of transmission shafts that are located every unloading breach below, the fixed tooth that breaks up that is used for breaking up the caking masterbatch that is equipped with of radial lateral wall of transmission shaft, the fixed embedded third driving motor that is used for driving transmission shaft pivoted that has in inside of frustum type guide holder, it rotates to provide power drive transmission shaft through third driving motor, can drive and break up the tooth and rotate at the unloading breach downside position of every annular baffle, thereby can break up the operation to the masterbatch of deriving from the unloading breach, avoid the phenomenon of caking to appear in the masterbatch.

In further embodiment, the inside of feeder hopper is equipped with the on-state mechanism that is used for preventing to block up, through setting up on-state mechanism inside the feeder hopper to can avoid the masterbatch to block up in the feeder hopper, influence stirring operation.

In further embodiment, the conduction mechanism includes the support sleeve, fourth driving motor, ejector pin and hoist and mount diaphragm, the fixed top face that sets up at frustum type guide holder of support sleeve, fourth driving motor is located the inside of support sleeve, fourth driving motor's power shaft rotates and is connected with the ejector pin after extending to support sleeve's top, the one end of hoist and mount diaphragm and the radial lateral wall fixed connection in top of ejector pin, the bottom vertical fixation of hoist and mount diaphragm is equipped with the driving lever of the even interval distribution of a plurality of, it rotates to provide power drive ejector pin through fourth driving motor, make the ejector pin rotation be followed to the hoist and mount diaphragm, thereby can drive the driving lever and carry out stirring operation to the inside masterbatch of feeder hopper, thereby can avoid the masterbatch caking to block up in the feeder hopper.

The fixed direction slider that is equipped with of fourth driving motor's outer wall, the direction spout with the slip joint of direction slider is seted up to the support sleeve's inner wall, and fourth driving motor is at the support sleeve internal work during, and accessible direction slider receives the restriction of direction spout, and fourth driving motor can not rotate at the support sleeve is inside to can drive the ejector pin and normally rotate.

In further embodiment, the one end that the ejector pin was kept away from to the hoist and mount diaphragm extends to the top edge position of feeder hopper, and rotates and be equipped with and can be along the rolling supporting roller of feeder hopper top edge position, rolls along the top edge position of feeder hopper through supporting roller, neither influences conduction mechanism's normal switch-on work, stability when can reinforcing hoist and mount diaphragm rotation again.

In further embodiment, the fixed kicking block that is equipped with the even interval distribution of a plurality of and is "omega" structure in the top marginal position of feeder hopper, support rolls when the top marginal position of feeder hopper rolls, can roll in proper order through the kicking block of "omega" structure, can be with the reciprocal jack-up operation from top to bottom of hoist and mount diaphragm, thereby usable driving lever jack-up from top to bottom to the inside masterbatch of feeder hopper, thereby can stir the masterbatch on longitudinal direction, improve the efficiency of unloading, avoid the inside jam of feeder hopper.

Preferably, the stirring method based on the masterbatch processing stirring device includes the following steps:

a1, feeding color master batches to be stirred into a stirring cylinder through a feed hopper, waiting for stirring operation, dropping the color master batches fed from the feed hopper onto the outer wall of a frustum-shaped guide seat, separating the color master batches sliding down along the side wall of the frustum-shaped guide seat in a grading manner through an annular partition plate, pulling out the color master batches from a blanking notch from the uppermost annular partition plate, sliding down to the lower annular partition plate along the side wall of the frustum-shaped guide seat, realizing the separation of the stirred color master batches in a grading manner, and improving the stirring efficiency;

a2, utilizing a second driving motor to provide power to drive a conveying screw rod to guide the color master batches in the blanking pipe into a material guide pipe, so that the color master batches after stirring can be guided out, and the stirring and discharging efficiency is improved;

a3, utilizing a first driving motor to provide power to drive an L-shaped transmission rod to rotate on one side of a frustum-shaped material guide seat, so that a scraper at the tip of an extension beam can be driven to do circular motion around the outer wall of the frustum-shaped material guide seat, color master batches separated in each annular partition plate can be stirred, and can fall on the next annular partition plate after passing through a blanking notch, and thus, the grading stirring operation can be realized;

a4, provide power through third driving motor and drive the transmission shaft and rotate, can drive and break up the tooth and rotate at the unloading breach downside position of every annular baffle to can break up the operation to the masterbatch of deriving from the unloading breach, avoid the phenomenon that the masterbatch caked to appear.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, the color master batches to be stirred are fed into the stirring cylinder through the feeding hopper, then the stirring cylinder is utilized to carry out multistage rapid stirring operation on the color master batches, and in the process of stage stirring, the derived color master batches are scattered through the rotating scattering teeth, so that the stirring requirement is met, the load of the stirring mechanism is small, the consumed time is short, the color master batches are not easy to agglomerate, and the stirring efficiency is improved.

Drawings

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

FIG. 2 is an enlarged view of the structure of FIG. 1 at A in accordance with the present invention;

FIG. 3 is an exploded view of the stirring mechanism of the present invention;

fig. 4 is an enlarged view of the structure at B in fig. 3 according to the present invention.

In the figure: 1. a mixing drum; 11. a feed hopper; 12. a top block; 13. a discharging pipe; 14. a second drive motor; 15. a material guide pipe; 2. a conduction mechanism; 21. a support sleeve; 22. a top rod; 23. hoisting a transverse plate; 24. supporting the rollers; 25. a guide slider; 26. a fourth drive motor; 27. a deflector rod; 28. a guide chute; 3. a stirring mechanism; 31. a frustum-shaped material guide seat; 32. an annular partition plate; 33. breaking up teeth; 34. a first drive motor; 35. an L-shaped transmission rod; 36. an extension beam; 37. a scraper.

Detailed Description

The following will clearly and completely describe the technical solutions in 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 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.

Example one

Referring to fig. 1-4, the present embodiment provides a color masterbatch processing and stirring apparatus and a stirring method, including a stirring cylinder 1 and a stirring mechanism 3, wherein a feeding port is formed at a top end of the stirring cylinder 1, and a feeding hopper 11 is disposed at an opening of the feeding port, and the color masterbatch to be stirred is fed into the stirring cylinder 1 through the feeding hopper 11 to wait for a stirring operation.

Rabbling mechanism 3 sets up in the inside of churn 1, and rabbling mechanism 3 is located feeder hopper 11 under, accepts the masterbatch of throwing in from feeder hopper 11 through rabbling mechanism 3 to can stir the operation to the masterbatch, satisfy the stirring demand.

Rabbling mechanism 3 includes frustum type guide seat 31, first driving motor 34 and L type transfer line 35, frustum type guide seat 31 passes through the bracing piece to be fixed inside churn 1, and be located feeder hopper 11 under, the outer wall of frustum type guide seat 31 is fixed and is equipped with a plurality of annular partition plate 32, the unloading breach has been seted up to the radial lateral wall of annular partition plate 32, the unloading breach dislocation distribution of two adjacent annular partition plate 32, the masterbatch of throwing in from feeder hopper 11 falls on the outer wall of frustum type guide seat 31, play through annular partition plate 32 and separate the masterbatch that slides down along frustum type guide seat 31 lateral wall in grades, can follow the annular partition plate 32 internal color masterbatch of the top and dial out from the unloading breach, annular partition plate 32 that slides down to the below along frustum type guide seat 31 lateral wall, realize the masterbatch that the stirring is separated in grades, improve the efficiency of stirring.

The bottom of churn 1 is inverted cone platform type structure, and be connected with unloading pipe 13, the masterbatch that the stirring was ended is derived from the unloading breach of the annular baffle 32 of below, fall in unloading pipe 13, the bottom mounting of unloading pipe 13 is equipped with second driving motor 14, the power shaft of second driving motor 14 rotates the inside that extends to unloading pipe 13 and connects the transfer screw, the radial lateral wall of unloading pipe 13 is connected with the passage 15 of slope distribution, utilize second driving motor 14 to provide power and drive the transfer screw and lead-in to the passage 15 with the masterbatch in the unloading pipe 13, thereby can derive the masterbatch that the stirring was ended, the efficiency of the stirring ejection of compact is provided.

The first driving motor 34 is fixedly embedded at the bottom end of the inner part of the frustum-shaped material guiding seat 31, a power shaft of the first driving motor 34 rotates and extends to the lower part of the frustum-shaped material guiding seat 31, and is fixedly connected with one end of the L-shaped transmission rod 35, the other end of the L-shaped transmission rod 35 is positioned at the side position of the frustum-shaped material guiding seat 31, and is fixedly connected with a plurality of extension beams 36 which are uniformly distributed at intervals up and down, the extension beams 36 are fixed with scrapers 37 which are in sliding fit with the side walls of the frustum-shaped material guide seat 31, the first driving motor 34 is used for providing power to drive the L-shaped transmission rod 35 to rotate on one side of the frustum-shaped material guide seat 31, thereby driving the scraper 37 at the tip of the extending beam 36 to make a circular motion around the outer wall of the frustum-shaped material guiding seat 31, the color master batches separated in each annular partition plate 32 can be stirred and fall on the next annular partition plate 32 through the blanking gap, so that the grading stirring operation can be realized.

Example two

Referring to fig. 1-4, a further improvement is made on the basis of embodiment 1:

in order to prevent the masterbatch caking, the lateral wall at frustum type guide holder 31 rotates and is equipped with a plurality of transmission shafts that are located every unloading breach below, the fixed tooth 33 that breaks up that is used for breaking up the caking masterbatch that is equipped with of radial lateral wall of transmission shaft, the fixed embedded third driving motor that is used for driving transmission shaft pivoted that has in inside of frustum type guide holder 31, it rotates to provide power drive transmission shaft through third driving motor, can drive and break up tooth 33 and rotate at every annular baffle 32's unloading breach downside position, thereby can break up the operation to the masterbatch of deriving from the unloading breach, avoid the phenomenon of caking to appear in the masterbatch.

Feed hopper 11's inside is equipped with the conduction mechanism 2 that is used for preventing the jam, through set up conduction mechanism 2 inside feed hopper 11 to can avoid the masterbatch to block up in feed hopper 11, influence stirring operation.

Conduction-on mechanism 2 includes support sleeve 21, fourth driving motor 26, ejector pin 22 and hoist and mount diaphragm 23, support sleeve 21 is fixed to be set up at the top terminal surface of frustum type guide holder 31, fourth driving motor 26 is located support sleeve 21's inside, fourth driving motor 26's power shaft rotates to be connected with ejector pin 22 after extending to support sleeve 21's top, the one end of hoist and mount diaphragm 23 and ejector pin 22's the radial lateral wall fixed connection in top, the bottom vertical fixation of hoist and mount diaphragm 23 is equipped with the driving lever 27 of the even interval distribution of a plurality of, it rotates to provide power drive ejector pin 22 through fourth driving motor 26, make hoist and mount diaphragm 23 follow ejector pin 22 and rotate, thereby can drive driving lever 27 and stir the operation to the inside masterbatch of feeder hopper 11, thereby can avoid the masterbatch caking to block up in feeder hopper 11.

In order to avoid the rotation of the fourth driving motor 26 in the supporting sleeve 21, a guiding sliding block 25 is fixedly arranged on the outer wall of the fourth driving motor 26, a guiding sliding groove 28 slidably and fixedly connected with the guiding sliding block 25 is formed in the inner wall of the supporting sleeve 21, when the fourth driving motor 26 works inside the supporting sleeve 21, the fourth driving motor 26 can not rotate inside the supporting sleeve 21 and can drive the ejector rod 22 to normally rotate through the limitation of the guiding sliding groove 28 by the guiding sliding block 25.

In order to enhance the stability of the conduction mechanism 2, one end of the hoisting transverse plate 23 far away from the top rod 22 extends to the top end edge position of the feeding hopper 11, and is rotatably provided with a supporting roller 24 capable of rolling along the top end edge position of the feeding hopper 11, and the supporting roller 24 rolls along the top end edge position of the feeding hopper 11, so that the normal conduction work of the conduction mechanism 2 is not influenced, and the stability of the hoisting transverse plate 23 during rotation can be enhanced.

In order to improve the efficiency that switches on, fixed kicking block 12 that is equipped with the even interval distribution of a plurality of and is "omega" structure in the top edge position of feeder hopper 11, supporting roller 24 when the top edge position of feeder hopper 11 rolls, can roll in proper order through kicking block 12 of "omega" structure, can be with the reciprocal jack-up operation from top to bottom of hoist and mount diaphragm 23, thereby usable driving lever 27 jack-up about the masterbatch of feeder hopper 11 inside, thereby can stir the masterbatch in longitudinal direction, improve the efficiency of unloading, avoid the inside jam of feeder hopper 11.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a masterbatch processing agitating unit, includes churn (1) and rabbling mechanism (3), its characterized in that: a feed inlet is formed in the top end of the mixing drum (1), and a feed hopper (11) is arranged at the opening of the feed inlet;

the stirring mechanism (3) is arranged in the stirring cylinder (1), and the stirring mechanism (3) is positioned under the feed hopper (11);

rabbling mechanism (3) are including frustum type guide seat (31), a driving motor (34) and L type transfer line (35), frustum type guide seat (31) are fixed inside churn (1) through the bracing piece, and are located feeder hopper (11) under, the outer wall of frustum type guide seat (31) is fixed and is equipped with a plurality of annular baffle (32), the unloading breach has been seted up to the radial lateral wall of annular baffle (32), the unloading breach dislocation distribution of two adjacent annular baffle (32).

2. The masterbatch processing agitating unit of claim 1, wherein: the bottom of churn (1) is inverted cone platform type structure, and is connected with unloading pipe (13), the bottom mounting of unloading pipe (13) is equipped with second driving motor (14), the power shaft of second driving motor (14) rotates the inside that extends to unloading pipe (15) and connects the conveying screw rod, the radial lateral wall of unloading pipe (13) is connected with guide tube (15) that the slope distributes.

3. The masterbatch processing agitating unit of claim 1, wherein: the fixed embedded inside bottom in frustum type guide seat (31) of first driving motor (34), the power shaft of first driving motor (34) rotates the below that extends to frustum type guide seat (31), and with the one end fixed connection of L type transfer line (35), the other end of L type transfer line (35) is located the avris position of frustum type guide seat (31), and the even interval distribution's in a plurality of extension crossbeam (36) about fixedly connected with, extension crossbeam (36) are fixed with scraper blade (37) with the sliding fit of frustum type guide seat (31) lateral wall.

4. The masterbatch processing agitating unit of claim 3, wherein: the lateral wall of frustum type guide seat (31) rotates and is equipped with a plurality of transmission shafts that are located every unloading breach below, the fixed tooth (33) that breaks up that is used for breaking up the caking masterbatch that is equipped with of radial lateral wall of transmission shaft, the fixed embedded third driving motor that is used for driving transmission shaft pivoted that has in inside of frustum type guide seat (31).

5. The masterbatch processing agitating unit of claim 1, wherein: the inside of feeder hopper (11) is equipped with and is used for preventing the feed through mechanism (2) of jam.

6. The masterbatch processing agitating unit of claim 5, wherein: switch on mechanism (2) including support sleeve (21), fourth driving motor (26), ejector pin (22) and hoist and mount diaphragm (23), support sleeve (21) are fixed to be set up at the top face of frustum type guide holder (31), fourth driving motor (26) are located the inside of support sleeve (21), the power shaft of fourth driving motor (26) rotates and is connected with ejector pin (22) after extending to the top of support sleeve (21), the radial lateral wall fixed connection in top of one end and ejector pin (22) of hoist and mount diaphragm (23), the bottom vertical fixation of hoist and mount diaphragm (23) is equipped with driving lever (27) of the even interval distribution of a plurality of.

7. The masterbatch processing agitating unit of claim 6, wherein: the outer wall of the fourth driving motor (26) is fixedly provided with a guide sliding block (25), and the inner wall of the supporting sleeve (21) is provided with a guide sliding groove (28) which is connected with the guide sliding block (25) in a sliding and clamping manner.

8. The masterbatch processing agitating unit of claim 6, wherein: one end of the hoisting transverse plate (23) far away from the top rod (22) extends to the top end edge position of the feeding hopper (11), and is rotatably provided with a supporting roller (24) capable of rolling along the top end edge position of the feeding hopper (11).

9. The masterbatch processing agitating unit of claim 8, wherein: the top end edge position of feeder hopper (11) is fixed and is equipped with a plurality of even interval distribution and be "omega" the kicking block (12) of structure.

10. The stirring method of the masterbatch processing stirring device according to the claim 9 is characterized by comprising the following steps:

a1, feeding color master batches to be stirred into a stirring cylinder (1) through a feed hopper (11), waiting for stirring operation, dropping the color master batches fed from the feed hopper (11) onto the outer wall of a frustum-shaped guide seat (31), separating the color master batches sliding down along the side wall of the frustum-shaped guide seat (31) in a grading manner through an annular partition plate (32), pulling out the color master batches from the feeding notch from the uppermost annular partition plate (32), sliding down to the annular partition plate (32) below along the side wall of the frustum-shaped guide seat (31), realizing the color master batches separated and stirred in a grading manner, and improving the stirring efficiency;

a2, a second driving motor (14) is used for providing power to drive a conveying screw rod to guide the color master batches in the discharging pipe (13) into the material guide pipe (15), so that the color master batches after stirring can be guided out, and the stirring and discharging efficiency is improved;

a3, a first driving motor (34) is used for providing power to drive an L-shaped transmission rod (35) to rotate on one side of a frustum-shaped material guide seat (31), so that a scraper (37) at the tip of an extension beam (36) can be driven to do circular motion around the outer wall of the frustum-shaped material guide seat (31), color master batches separated in each annular partition plate (32) can be stirred, and can fall on the next annular partition plate (32) after passing through a blanking gap, and grading stirring operation can be achieved;

a4, through the rotation of third driving motor power drive transmission shaft, can drive and break up tooth (33) and rotate at the unloading breach downside position of every annular baffle (32) to can break up the operation to the masterbatch of deriving from the unloading breach, avoid the phenomenon of masterbatch caking to appear.