CN218196212U - Granulation mechanism for banburying all-in-one machine - Google Patents

Abstract

The utility model discloses a granulation mechanism for banburying all-in-one belongs to the banburying equipment field. The granulation mechanism of setting in the frame includes: the extrusion die head is arranged at the tail end of the blanking pipe; a granulating blade capable of cutting an extrudate of the extrusion die head, the granulating blade being connected with a granulating motor; and the granulation frame is arranged on the frame, two groups of slide rail fixing seats are fixedly arranged on the granulation frame in parallel, a slide bar passes through and is fixedly arranged on each group of slide rail fixing seats, the two slide bars are arranged in parallel, the slide bars are parallel to the working shaft direction of the granulation motor, and the slide bars are connected with the granulation motor through a motor adjusting component capable of being adjusted along the slide bar direction. Through setting up this granulation mechanism, can realize the efficient granulation, also can adjust the granulation motor at the axial working distance of work through motor adjusting part's setting simultaneously, guarantee the effect of granulation.

Description

Granulation mechanism for banburying all-in-one machine

Technical Field

The utility model relates to an banburying equipment field especially relates to a granulation mechanism for banburying all-in-one.

Background

An internal mixer, called an internal rubber mixer, is mainly used for plasticating and mixing rubber, and is a device which is provided with a pair of rotors with specific shapes and rotating relatively and used for plasticating and mixing polymer materials in a clearance manner under the closed state of adjustable temperature and pressure.

The existing internal mixer is mainly a turnover internal mixer, after internal mixing is carried out in a hopper or a mixing chamber, when a mixture after internal mixing is taken out, the hopper or the mixing chamber is turned over under the driving of a turning mechanism, the mixture is poured out, and subsequent granulation is carried out on a granulator. The continuous equipment is lacked, and when the existing granulating structure is applied to an internal mixer, the existing granulating structure is not simply copied, and adaptive adjustment is needed to be made according to the structure of the internal mixer, so the inventor of the utility model aims to invent a granulating mechanism for an internal mixer.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a granulation mechanism for banburying all-in-one.

The technical scheme of the utility model is that: the utility model provides a granulation mechanism for banburying all-in-one, this granulation mechanism sets up in the frame, and this granulation mechanism includes:

the device comprises an extrusion die head arranged at the tail end of a discharging pipe and a granulating blade capable of cutting extrudate of the extrusion die head, wherein the granulating blade is connected with a granulating motor;

the granulation frame is connected with the frame, the granulation frame comprises a granulation rotating frame which rotates and is locked through a rotary locking assembly, two groups of slide rail fixing seats are fixedly arranged on the granulation frame in parallel, each group of slide rail fixing seats are provided with slide bars and two slide bar parallel arrangement, the slide bars are parallel to the working shaft direction of the granulation motor, and the slide bars are connected with the granulation motor through a motor adjusting assembly which can be adjusted along the slide bar direction.

Further, motor adjusting part passes through connecting plate fixed connection including the motor board that is used for installing the granulation motor at the tip of keeping away from unloading mechanism of two slide bars, pass on the connecting plate and set up manual accommodate the lead screw, and the end of penetrating of manual accommodate the lead screw extends to motor board below, and the end of penetrating and the lead screw seat threaded connection who is located face under the motor board, the fixed adjusting hand wheel that sets up that does not penetrate of manual accommodate the lead screw. Manual adjusting screw rods are adjusted through adjusting hand wheels, and the motor plate can move along the axis direction by matching with screw rod seats. The motor adjusting component is arranged on the part, far away from the blanking mechanism, of the sliding rod.

Furthermore, a first linear bearing which is sleeved with the sliding rod in a sliding manner is fixedly arranged below the motor plate. The first linear bearings are arranged in parallel and are respectively connected with the two sliding rods in a sliding manner, so that the stability of the motor plate in the moving process is ensured.

Further, granulation mechanism is still including being located the eager grain fan housing between eager grain motor and the unloading mechanism, and one side of cutting the grain fan housing and being close to the eager grain motor sets up the first connector that the output shaft that is used for cutting the grain motor passes, and the end connection of passing of the output shaft of cutting the grain motor is located the granulation blade of cutting the grain fan housing, and one side of cutting the grain fan housing that is close to the unloading mechanism sets up the second connector that is used for extrusion die to pass. Namely, granulation is realized in the granulating fan housing, so that the smoothness of granulation is ensured, and stains are prevented. And first connector can just only supply the transport shaft of cutting the grain motor to pass, and the second connector can just only supply extrusion die head part to pass, is about to extrude the hole setting at extrusion die's bulge of extrusion die, and the bulge cooperates with the second connector, guarantees to extrude the hole part and gets into and cut a grain fan housing, and the rest part still is cutting a grain fan housing outside.

Furthermore, a second linear bearing is fixedly arranged on the dicing wind cover, the sliding sleeve of the second linear shaft is sleeved on the sliding rod, a limiting ring is arranged at the end part, close to the blanking mechanism, of the sliding rod, a buffer spring is further sleeved on the sliding rod, and the two ends of the buffer spring respectively abut against the end faces, far away from the blanking mechanism, of the sliding rail fixing seat and the second linear bearing. The limit to the sliding distance of the second linear bearing is realized through the limiting ring at the end part of the sliding rod and the sliding rail fixing seat, meanwhile, the buffer spring can always give the force of the second linear bearing towards the direction of the discharging mechanism, and when the granulating fan housing is in contact with the extrusion die head, the second connecting port of the granulating fan housing can be ensured to be tightly contacted with the extrusion die head through the buffer force.

Furthermore, the bottom of the pelletizing fan cover is provided with a discharge port, and the outer side of the pelletizing fan cover is provided with an observation port. The viewing aperture department can set up the transparent plate, or articulated apron (when needing to observe, open the apron, when not needing to observe, cover the apron) can the viewing aperture set up a plurality ofly, and in this application, the viewing aperture setting is three, lies in the both sides and the top of cutting grain motor axis direction respectively, can play good observation effect to adjust according to the particle size.

Furthermore, the granulation frame comprises a granulation rotating frame arranged on the rack through a rotation locking assembly, and the granulation rotating frame can rotate and be locked along the rotation locking assembly under the action of external force. Namely, the position of the granulation motor can be adjusted by arranging the rotary locking assembly, and the granulation motor is locked after being adjusted to a proper position.

Furthermore, the rotation locking assembly comprises a rotation shaft fixedly arranged on the frame, the rotation shaft is rotatably connected with a rotation hole in the granulation rotating frame, a locking spring and a locking hand wheel connected to the rotation shaft through threads are further sleeved on the rotation shaft, and the two ends of the locking spring are abutted to the upper end of the rotation hole and the lower end of the locking hand wheel respectively. When the hand wheel needs to be rotated, the locking hand wheel is released upwards to rotate; when the locking is needed, the locking hand wheel is locked downwards, and the granulation rotating frame is pressed tightly through the locking spring so as to be incapable of rotating.

Furthermore, a plane bearing is sleeved on the rotating shaft between the upper end of the rotating hole and the lower end of the locking spring. The arrangement of the plane bearing facilitates the smoothness of the granulation rotating frame during rotation.

Furthermore, a rotating gasket is arranged at the lower end of the rotating hole and sleeved on the rotating shaft. The same is also to improve the smoothness and stability of the prilling carousel when it rotates.

Furthermore, the granulation frame also comprises a locking support frame fixed on the frame through screws. Through the setting of locking support frame, played the effect of location to can play the effect of support, granulation swivel mount rotates to locking support frame top and when contacting, reaches the preset position.

Furthermore, an abrasion-resistant plate is arranged at the upper end of the locking support frame. When granulation swivel mount was rotatory to locking support frame top and contact promptly, reachd preset position, can lock, guaranteed the support nature to the granulation swivel mount, guaranteed the stability of granulation motor at the during operation then.

Further, set up the direction inclined plane on the antifriction plate, just the direction inclined plane makes things convenient for granulation swivel mount to remove to the stability and the smoothness of locking the support frame. The wear-resisting plate can be a circular truncated cone or a prismoid, or only one guide inclined plane is arranged, the guide inclined plane is arranged on the side which is firstly contacted when the granulation rotating frame rotates to the locking support frame, and the arrangement of the guide inclined plane can be selected according to actual needs.

Through setting up this granulation mechanism, can realize the efficient granulation, also can adjust the granulation motor at the axial working distance of work through motor adjusting part's setting simultaneously, guarantee the effect of granulation, the separation of granulation mechanism and contact die head can be realized to rotatory locking subassembly simultaneously, conveniently cleans or cleans.

Drawings

FIG. 1 is a front view of a pelletizing mechanism for an internal mixer.

FIG. 2 is a schematic internal view of a pelletizing mechanism for an internal mixer.

Fig. 3 is a cross-sectional view of the banburying mechanism.

Fig. 4 is a cross-sectional view from another perspective of the internal mixing mechanism.

Fig. 5 is a mechanism schematic diagram of the banburying mechanism.

FIG. 6 is a schematic view of the mixing rotor within the banburying chamber.

Fig. 7 is a schematic view of a pelletizing mechanism.

Fig. 8 is a schematic view of a locking cage.

Fig. 9 is a partially enlarged view of fig. 8.

Fig. 10 is a sectional view of the granulating mechanism.

Fig. 11 is a schematic view of the dicing fan cover.

Fig. 12 is a schematic view of another view of the dicing fan cover.

Fig. 13 is a schematic view of a pelletizing blade.

Fig. 14 is a schematic view of an extrusion die.

Fig. 15 is a schematic view of the association of the pelletizing carousel with the rotating shaft.

Fig. 16 is a schematic view of a pelletizing carousel.

Wherein:

1. a frame, 11, a workbench, 12, a storage cavity,

2. an internal mixing mechanism 21, an internal mixing chamber 22, a gland assembly 23, a supporting block 211, a U-shaped block 212, a side plate 2121, an inner plate 2122, an outer plate 221, a gland cylinder 222, an upper cover plate 223, a pressure cover plate 2231 and a sealing groove,

3. a stirring mechanism 31, a stirring rotor 32, a stirring motor 311 and a stirring sheet,

4. a blanking mechanism 41, a blanking pipe 42, a blanking conveying roller 43, a heating ring 44 and a blanking motor,

5. a granulating mechanism 51, an extrusion die head 511, an extrusion hole 52, a granulating blade 53, a granulating motor 54, a granulating frame 541, a granulating rotating frame 5411, a rotating hole 542, a locking support frame 5421, a wear-resisting plate 5422, a guide inclined plane 55, a sliding rail fixing seat 56, a sliding rod 57, a motor adjusting component 571, a motor plate 572, a connecting plate 573, a manual adjusting screw rod 574, a screw rod seat 575, an adjusting handwheel 576, a first linear bearing 58, a granulating fan housing 581, a first connecting port 582, a second connecting port 583, a second linear bearing 584, a buffer spring 585, a limiting ring 586, a discharge port 587, a viewing port 59, a rotating locking component 591, a rotating shaft 592, a locking spring 593, a locking handwheel, a plane bearing 595, and a rotating gasket 594.

Detailed Description

In order to make the technical means of the present invention clearer and to implement the present invention according to the content of the specification, the following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples, which are used for illustrating the present invention and are not intended to limit the scope of the present invention.

Referring to fig. 1-16, the embodiment of a granulating mechanism for an internal mixer includes:

the granulating mechanism 5, the granulating mechanism 5 comprises an extrusion die head 51 arranged at the end of the discharging pipe 41, a granulating blade 52 capable of cutting the extrudate of the extrusion die head 51, and the granulating blade 52 is connected with a granulating motor 53.

Referring to fig. 7, the granulation mechanism 5 further includes a granulation frame 54 disposed on the frame 1, two sets of slide rail fixing bases 55 are fixedly disposed on the granulation frame 54 in parallel, a slide rod 56 passes through and is fixedly disposed on each set of slide rail fixing base 55, the two slide rods 56 are disposed in parallel, the slide rod 56 is parallel to the working axis direction of the granulation motor 53, and the slide rod 56 is connected to the granulation motor 53 through a motor adjusting assembly 57 capable of being adjusted along the slide rod 56. Through the sliding rail fixing seat 55, a sliding rod 56 passes through and is fixedly arranged, and the sliding rod 56 is divided into two parts, namely a part far away from the blanking mechanism 4 and a part close to the blanking mechanism 4.

The motor adjusting assembly 57 comprises a motor plate 571 for mounting the pelletizing motor 53, the end parts of the two sliding rods 56 far away from the blanking mechanism 4 are fixedly connected through a connecting plate 572, a manual adjusting screw 573 is arranged on the connecting plate 572 in a penetrating way, the penetrating end of the manual adjusting screw 573 extends to the lower part of the motor plate 571, the penetrating end is in threaded connection with a screw rod seat 574 positioned on the lower plate surface of the motor plate 571, and an adjusting hand wheel 575 is fixedly arranged at the non-penetrating end of the manual adjusting screw 573. The manual adjusting screw 573 is adjusted by the adjusting hand wheel 575, and the motor plate 571 can move along the axial direction by matching with the screw seat 574. The motor adjusting assembly 57 is arranged on the part of the sliding rod 56 far away from the blanking mechanism 4.

A first linear bearing 576 slidably sleeved with the sliding rod 56 is further fixedly disposed below the motor plate 571. The two sets of first linear bearings 576 are disposed in parallel and are respectively connected to the two sliding rods 56 in a sliding manner, so as to ensure the stability of the motor plate 571 in the moving process.

Referring to fig. 11 to 12, the granulation mechanism 5 further includes a granulation air hood 58 located between the granulation motor and the blanking mechanism 4, a first connection port 581 through which an output shaft of the granulation motor passes is disposed on a side of the granulation air hood 58 close to the granulation motor, a passing end of the output shaft of the granulation motor is connected to the granulation blade 52 located in the granulation air hood 58, and a second connection port 582 through which the extrusion die 51 passes is disposed on a side of the granulation air hood 58 close to the blanking mechanism 4. Namely, granulation is realized in the granulating air cover 58, so that the smoothness of granulation is ensured, and the occurrence of stains is prevented. And the first connecting port 581 can only be penetrated by a conveying shaft of the granulating motor, and the second connecting port 582 can only be penetrated by part of the extrusion die head 51, that is, the extrusion hole 511 of the extrusion die head 51 is arranged at the bulge part of the extrusion die head 51, and the bulge part is matched with the second connecting port 582, so that the part of the extrusion hole 511 enters the granulating fan cover 58, and the rest part of the extrusion hole 511 is still positioned outside the granulating fan cover 58.

A second linear bearing 583 is fixedly arranged on the pelletizing air hood 58, the second linear shaft sleeve is slidably sleeved on the sliding rod 56, a limiting ring 585 is arranged at the end part of the sliding rod 56 close to the blanking mechanism 4, a buffer spring 584 is further sleeved on the sliding rod 56, and two ends of the buffer spring 584 respectively abut against the end surfaces, far away from the blanking mechanism 4, of the sliding rail fixing seat 55 and the second linear bearing 583. The limit of the sliding distance of the second linear bearing 583 is realized through the limiting ring 585 and the sliding rail fixing seat 55 at the end of the sliding rod 56, meanwhile, the buffer spring 584 can always give the force towards the direction of the blanking mechanism 4 to the second linear bearing 583, and when the granulating fan housing 58 is in contact with the extrusion die head 51, the buffer force can ensure that the second connecting port 582 of the granulating fan housing 58 is in contact with the extrusion die head 51 tightly.

The bottom of the dicing fan housing 58 is provided with a discharge port 586, and the outer side of the dicing fan housing 58 is provided with an observation port 587. Viewing aperture 587 department can set up the transparent plate, or articulated apron (when needing to observe, opens the apron, when not needing to observe, covers the apron) can viewing aperture 587 and set up a plurality ofly, and in this application, viewing aperture 587 sets up threely, is located the both sides and the top of cutting grain motor axis direction respectively, can play good observation effect to adjust according to the particle size.

The prilling rack 54 comprises a prilling rotating rack 541, which is arranged on the frame 1 through a rotation locking assembly 59, and the prilling rotating rack 541 can rotate and lock along the rotation locking assembly 59 under the action of external force. That is, the position of the pelletizer motor 53 can be adjusted by the rotation locking assembly 59, and the pelletizer motor is locked after being adjusted to a proper position.

Referring to fig. 7, the rotation locking assembly 59 includes a rotation shaft 591 fixedly disposed on the frame 1, and the rotation shaft 591 is rotatably connected with a rotation hole 5411 on the prilling rotation frame 541, while a locking spring 592 and a locking handwheel 593 threaded on the rotation shaft 591 are further sleeved on the rotation shaft 591, and both ends of the locking spring 592 abut against an upper end of the rotation hole 5411 and a lower end of the locking handwheel 593, respectively. When the locking hand wheel 593 needs to be rotated, the locking hand wheel 593 is loosened upwards to rotate; when the locking is needed, the locking hand wheel 593 is locked downwards, and the granulation rotation frame 541 is pressed tightly by the locking spring 592 so as not to rotate.

A flat bearing 594 is further fitted on the rotation shaft 591 between the upper end of the rotation hole 5411 and the lower end of the locking spring 592. The flat bearing 594 is provided to facilitate the smoothness of the rotation of the granulation rotation frame 541.

A rotating pad 595 is further disposed at the lower end of the rotating hole 5411, and the rotating pad 595 is sleeved on the rotating shaft 591. The same is also for improving the smoothness and stability of the granulation spin basket 541 during rotation.

The prilling rack 54 further comprises a locking support 542 fixed to the frame 1 by screws. The locking support frame 542 is arranged to perform a positioning function and a supporting function, that is, the granulation rotary frame 541 reaches a predetermined position when rotating above and contacting the locking support frame 542.

The upper end of the locking support bracket 542 is provided with a wear plate 5421. That is, when the granulation rotary frame 541 rotates above the locking support frame 542 and contacts with the locking support frame, the granulation rotary frame 541 reaches a predetermined position and can be locked, so that the supporting performance of the granulation rotary frame 541 is ensured, and the stability of the granulation motor 53 in operation is further ensured.

The wear plate 5421 is provided with a guiding inclined surface 5422, and the guiding inclined surface 5422 facilitates the stable and smooth movement of the granulation rotation frame 541 to the locking support frame 542. That is, the wear plate 5421 may be a circular truncated cone or a truncated pyramid, or only one guiding bevel 5422 may be provided, and the guiding bevel 5422 is provided on the side that the granulation rotation frame 541 first contacts when rotating to the locking support frame 542, and the arrangement of the guiding bevel 5422 may be selected according to actual needs.

The utility model discloses a using method of a granulation mechanism for an internal mixing integrated machine,

the material is poured into in the banburying cavity, after the gland subassembly is covered tightly, the rabbling mechanism begins to stir, after the banburying, carry the material to extruding die head portion through the unloading mechanism of bottom, extrude through extruding the hole, at this moment, the granulation electrode drives the granulation blade and rotates, cuts into the granule to the discharge gate through cutting the grain fan housing is collected.

In another embodiment, the utility model also provides an banburying all-in-one machine with granulation mechanism cooperation use, this banburying all-in-one machine includes:

the device comprises a frame 1, wherein the frame 1 comprises a workbench 11 in the horizontal direction and a storage cavity 12 positioned below the workbench 11;

the internal mixing mechanism 2 comprises an internal mixing cavity 21, the bottom of the internal mixing cavity 21 is arranged on the workbench 11 in a hanging manner through a supporting block 23, the internal mixing cavity 21 comprises a U-shaped block 211, side plates 212 are respectively arranged at openings at two sides of the U-shaped block 211, each side plate 212 comprises an inner plate 2121 and an outer plate 2122, the thickness of each inner plate 2121 is smaller than that of each outer plate 2122, the top of the internal mixing cavity 21 is open, and a gland assembly 22 capable of sealing or opening the open openings in the vertical direction is arranged above the open openings;

the stirring mechanism 3 comprises a stirring rotor 31 penetrating through the two side plates 212 of the banburying chamber 21 and a stirring motor 32 driving the stirring rotor 31 to rotate;

the blanking mechanism 4 comprises a blanking pipe 41 which is fixedly and vertically arranged on the side plate 212 and is communicated with the banburying chamber 21, a blanking conveying roller 42 which is coaxially arranged in the blanking pipe 41 and a blanking motor 44 which drives the blanking conveying roller 42 to rotate;

the granulating mechanism 5, the granulating mechanism 5 comprises an extrusion die head 51 arranged at the tail end of the blanking pipe 41, a granulating blade 52 capable of cutting the extrudate of the extrusion die head 51, and the granulating blade 52 is connected with a granulating motor 53.

Referring to fig. 2-4, the capping assembly 22 includes a capping cylinder 221 fixed on the frame, the lower end of the telescopic rod of the capping cylinder 221 is connected to the upper end of the upper cover plate 222, and the lower end of the upper cover plate 222 is connected to a pressure cover plate 223 capable of extending into the internal mixing chamber 21. That is, the upper cover plate 222 covers the top opening of the mixing chamber 21, and the pressure cover plate 223 extends into and covers the top part of the sealing chamber, so that the pressure cover plate 223 and the mixing chamber 21 form a complete sealing cavity for mixing.

A sealing groove 2231 is provided in a lateral direction of the pressurizing cover plate 223, and a sealing strip is provided in the sealing groove 2231. The sealing strip is in sealing contact with the inner wall of the mixing cavity 21, so that the sealing of the mixing cavity 21 is ensured, and the internal part of the mixing cavity 21 is conveniently heated or pressurized.

Referring to fig. 4, the stirring rotors 31 are arranged in parallel and symmetrically in two.

Referring to fig. 6, a stirring blade 311 is provided to protrude in the circumferential direction of the stirring rotor 31 between the two side plates 212. Stirring piece 311's setting, can guarantee the quality of stirring, guarantee the homogeneity of stirring, however, because stirring piece 311 is the protrusion setting, so need guarantee that convex part can not collide with mixing chamber 21's inside, can set up the interior bottom of U type piece 211 into two arcs, two curved centre of a circle are stirring rotor 31's axle center, the lower terminal surface of simultaneously pressure cover board 223 also sets up the arc, after pressure cover board 223 and mixing chamber 21 make up, form the cavity of calabash type in inside, make things convenient for stirring rotor 31 abundant stirring. Meanwhile, the stirring sheets on the two stirring rotors are arranged in a staggered manner, so that the stirring sheets are not interfered with each other in the stirring process.

Referring to fig. 3, the blanking conveying roller 42 extends axially along the blanking pipe 41 into the banburying chamber 21 and exposes the other side plate 212, and the exposed portion of the other side plate 212 is connected to the blanking motor 44. The connection mode can adopt a direct connection mode, namely the output shaft of the motor is directly connected with the blanking conveying roller 42 through a coupler; also can adopt sprocket or belt to change and connect, set up the action wheel of connecting through sprocket or belt and follow the driving wheel on the output shaft of motor and unloading conveying roller 42 respectively, the mounted position of motor can be selected according to actual need to the setting of this kind of mode, for example set up in storing chamber 12, especially in this application, there are at least two sets of needs driven parts respectively in narrow and small space, in order to guarantee driven independence and effective, can be according to the mode of actual demand selection connection. Similarly, the driving connection between the stirring mechanism 3 and the granulating mechanism 5 can also be selected according to actual requirements.

Referring to fig. 2, in the banburying chamber 21, two stirring rotors 31 and one blanking conveying roller 42 are provided, in order to ensure the stability of the parallel and running of the three parts, stabilizing plates are respectively provided at two sides of the banburying chamber 21 at intervals and fixedly connected through connecting rods, rolling bearings are provided on the stabilizing plates, and the outer walls of the three parts are sleeved in the rolling bearings to ensure the stability of the three parts during rotation.

Referring to fig. 14, a heating coil 43 is provided on the outer wall of the feeding pipe 41. Through the setting of heating ring 43, guaranteed that the material temperature in unloading pipe 41 is continuous and stable, prevented to lead to the temperature reduction because of the transportation process for the material is adhered to the inner wall at unloading pipe 41, influences the effect of carrying.

The blanking conveyor roller 42 is a spiral conveyor roller. That is, the kneaded article can be conveyed along the discharge pipe 41 by the discharge conveying roller 42 extending into the internal mixing chamber 21, and the discharge pipe 41 is a screw sleeve.

The extrusion die 51 is provided with at least two extrusion holes 511. The extrusion die 51 is fixedly connected by bolts, and the end of the blanking pipe 41 refers to the end of the blanking pipe 41 which is not connected with the side plate 212, the extrusion die 51 is arranged at the position, the extrusion can be carried out at the extrusion holes 511 by the conveying of the blanking conveying roller 42, and the size of the extruded particles is influenced by the aperture size of the extrusion holes 511, and generally, a plurality of extrusion holes 511 are distributed in a circular array.

Through setting up this banburying all-in-one, can realize banburying, unloading, granulation integration, conveniently carry out continuous production on an equipment, satisfied the mill to continuous granulation and automated production's needs, and can improve the speed of production, guarantee the quality of cutting grain in succession.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides a granulation mechanism for banburying all-in-one, this granulation mechanism sets up in frame (1), its characterized in that, this granulation mechanism includes:

an extrusion die head (51) arranged at the tail end of the blanking pipe (41);

a pelletizing blade (52) capable of cutting the extrudate of the extrusion die head (51), and the pelletizing blade (52) is connected with a pelletizing motor (53); and

granulation frame (54) of being connected with frame (1), granulation frame (54) are including carrying out granulation swivel mount (541) rotatory and locking through rotatory locking Assembly (59), fixed parallel arrangement two sets of slide rail fixing bases (55) on granulation frame (54), every group slide rail fixing base (55) go up and fixed slide bar (56) that sets up, two slide bar (56) parallel arrangement, just slide bar (56) are parallel with the working shaft direction of granulation motor (53), be connected through motor adjusting part (57) that can follow slide bar (56) direction regulation between slide bar (56) and granulation motor (53).

2. Granulation mechanism (5) for all-in-one internal mixer according to claim 1, characterized in that: the motor adjusting assembly (57) comprises a motor plate (571) used for installing a granulating motor (53), the ends, far away from the blanking mechanism (4), of the two sliding rods (56) are fixedly connected through a connecting plate (572), a manual adjusting screw rod (573) penetrates through the connecting plate (572), the penetrating end of the manual adjusting screw rod (573) extends to the lower portion of the motor plate (571), the penetrating end is in threaded connection with a screw rod seat (574) located on the lower plate surface of the motor plate (571), and an adjusting hand wheel (575) is fixedly arranged at the non-penetrating end of the manual adjusting screw rod (573).

3. Granulation mechanism (5) for all-in-one internal mixer according to claim 2, characterized in that: a first linear bearing (576) which is sleeved with the sliding rod (56) in a sliding way is also fixedly arranged below the motor plate (571).

4. Granulation mechanism (5) for internal mixing machines according to claim 1, characterized in that: granulation mechanism (5) are still including being located eager grain motor and the grain fan housing (58) between unloading mechanism (4), one side that is close to eager grain motor of eager grain fan housing (58) sets up first connector (581) that the output shaft that is used for eager grain motor passes, and the end connection that passes of the output shaft of eager grain motor lies in the granulation blade (52) of eager grain fan housing (58), one side that is close to unloading mechanism (4) of eager grain fan housing (58) sets up second connector (582) that are used for extrusion die head (51) to pass.

5. Granulation mechanism (5) for all-in-one internal mixer according to claim 4, characterized in that: fixed second linear bearing (583) that sets up on cutting grain fan housing (58), second straight line axle sleeve slip cover is established on slide bar (56), and sets up spacing ring (585) at the tip that is close to unloading mechanism (4) of slide bar (56), still overlaps on slide bar (56) and is equipped with buffer spring (584), the both ends of buffer spring (584) support the terminal surface of keeping away from unloading mechanism (4) that leans on slide rail fixing base (55) and second linear bearing (583) respectively.

6. Granulation mechanism (5) for all-in-one internal mixer according to claim 1, characterized in that: the granulation frame (54) comprises a granulation rotating frame (541) arranged on the machine frame (1) through a rotary locking assembly (59), and the granulation rotating frame (541) can rotate and be locked along the rotary locking assembly (59) under the action of external force.

7. Granulation mechanism (5) for all-in-one internal mixer according to claim 6, characterized in that: the rotary locking assembly (59) comprises a rotary shaft (591) fixedly arranged on the frame (1), the rotary shaft (591) is rotatably connected with a rotary hole (5411) on the granulation rotary frame (541), a locking spring (592) and a locking hand wheel (593) connected to the rotary shaft (591) through threads are sleeved on the rotary shaft (591), and two ends of the locking spring (592) respectively abut against the upper end of the rotary hole (5411) and the lower end of the locking hand wheel (593).

8. Granulation mechanism (5) for internal mixing machines according to claim 6, characterized in that: the granulation rack (54) further comprises a locking support frame (542) fixed on the rack (1) through screws.

9. Granulation mechanism (5) for all-in-one internal mixer according to claim 8, characterized in that: the upper end of the locking support frame (542) is provided with a wear-resisting plate (5421).

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