CN113101866A

CN113101866A - Integrated high-integration underwater granulator set

Info

Publication number: CN113101866A
Application number: CN202110492577.9A
Authority: CN
Inventors: 陆平林
Original assignee: Nanjing Jinji Machinery Equipment Co ltd
Current assignee: Nanjing Jinji Machinery Equipment Co ltd
Priority date: 2021-05-07
Filing date: 2021-05-07
Publication date: 2021-07-13
Anticipated expiration: 2041-05-07
Also published as: CN113101866B

Abstract

The invention relates to the technical field of granulators, in particular to an integrated high-integration underwater granulator set. The invention has the advantages that the universality of the granulator set is higher through the adjustment of the specification diameter, in addition, when the positions of the mounting cross block and the blocking thin sheet are changed, the adjustment of the distance between the first cutting roller and the second cutting roller is driven under the transmission of all parts, so that the regulation of the granulator set can reach consistency, the labor burden of workers is further reduced, the regulation is simple and convenient, the working efficiency of the granulator is accelerated, and the problem that the regulation of the whole granulator set is not corresponding to the traditional regulation is overcome.

Description

Integrated high-integration underwater granulator set

Technical Field

The invention relates to the technical field of granulators, in particular to an integrated high-integration underwater granulator set.

Background

The granulation is a process of mechanical processing, generally, plastic granulation, and the quality and the process of plastic products can be continuously improved only by groping and mastering skills according to the performance and practice of a machine in the plastic granulation process.

In the prior art, the integrated high-integration underwater pelletizer overcomes the defects of instability, easy agglomeration, low yield and the like when producing elastomer raw material for pelletizing, thereby improving the production efficiency of the underwater pelletizer, but still having some problems, in particular the diameter of the product extruded by the pelletizer is the same, however, after the adjustment, all the process equipment of the unit needs to be readjusted, for example, when the diameter of the extruded particles is adjusted to be smaller, the cutting knife at the rear end also needs to be correspondingly adjusted, the adjustment consumes more time relatively, the efficiency of processing and production is directly influenced, in addition, when the problem of cutter collision and the like exist in unreasonable cutting cutter position adjustment, the adjustment operation is complicated and much time is consumed in the prior art, so that an integrated high-integration underwater granulator unit needs to be designed to solve the problem.

Disclosure of Invention

The invention aims to provide an integrated high-integration underwater granulator unit, and aims to solve the problem that the whole regulation operation of the unit in the background technology is complex.

In order to achieve the purpose, the invention provides the following technical scheme: an integrated high-integration underwater pelletizer unit comprises a unit device, wherein the unit device comprises a feed inlet, one side of the feed inlet is connected with an extrusion device, one side of the extrusion device is connected with a cooling water tank, one side of the cooling water tank is connected with a cutting device, the outer side of the feed inlet is connected with a motor, the output end of the motor is connected with a crushing knife, one side of the feed inlet is connected with an adjusting component, the adjusting component comprises a connecting block, one side of the feed inlet is connected with a mounting frame, the inner part of the feed inlet is connected with a lifting rod, the inner part of the lifting rod is connected with a driving connecting rod, the inner part of the lifting rod is embedded and connected with the driving connecting rod, the tail end of the lifting rod is connected with a connecting block, the connecting block is sleeved at the upper end of a linkage, the tail end of the linkage rod is connected with a lifting driving rod, the bottom end of the lifting driving rod is connected with an installation transverse block, the bottom end of the installation transverse block is connected with a blocking sheet, a limiting embedded block is arranged on one side of the lifting rod, the limiting embedded block is sleeved on the outer wall of the driving connecting rod, one side of the extrusion device is connected with a linkage adjusting structure, the linkage adjusting structure comprises an extrusion port, and one side of the feed port is connected with the extrusion port.

Preferably, one side of the connecting block is movably connected with a linkage rod through a hinged shaft, the connecting block is connected at the terminal of the linkage rod, and the connecting block is located on the outer side of the limiting block.

Preferably, the equal fixed connection latch in both ends of drive connecting rod, one side of lift bar set up some slip logical grooves, the internal connection that the groove was led to in the slip has the rack, the drive connecting rod runs through the inside that the groove was led to in the slip and extends to the inside of lift bar, the logical groove sliding connection that slides.

Preferably, the left and right sides of drive connecting rod is provided with spacing abaculus, and is two sets of spacing abaculus slides and drive connecting rod sliding connection, the width of spacing abaculus is the same with the width that the groove was led to in the slip, the both sides of spacing abaculus are connected with the rubber gasket.

Preferably, the inside of the extrusion opening is connected with a molding material main body, the inside of the cooling water tank is connected with a supporting pad rod, the tail end of the linkage rod is connected with a second rack rod, the second rack rod is embedded in a limiting sliding block, the limiting sliding block is embedded and connected with a first rack rod, the limiting sliding block is connected with a first gear, the cutting equipment is embedded and connected with a second cutting roller, the cutting equipment is connected with a first cutting roller, the blocking sheet is embedded in the extrusion opening, the upper end of the extrusion device is provided with a long groove, the blocking sheet is embedded in the long groove, and the mounting cross block, the blocking sheet and the long groove are connected in a sliding mode.

Preferably, the limiting sliding block is set to be U-shaped, two sets of sliding grooves are formed in the limiting sliding block, a second rack rod is embedded into one set of sliding grooves, a first rack rod is connected into the other set of sliding grooves in an embedded mode, and the first rack rod and the second rack rod are meshed on two sides of the first gear.

Preferably, the tail end of the first rack rod is connected with a second cutting roller, one side of the second cutting roller is connected with an anti-collision rod, the anti-collision rod is connected to two sides of the second cutting roller through a rotating shaft, the anti-collision rod is arranged in an L shape, the second cutting roller is connected inside the cutting equipment, the cutting equipment and the second cutting roller are connected in a sliding mode, and the second cutting roller and the first cutting roller are located on the same vertical plane.

Preferably, the cutting equipment is internally connected with an anti-collision stable structure, the anti-collision stable structure comprises an installation cabin body, and the cutting equipment is internally connected with an installation cabin body.

Preferably, the inside of the mounting bin body is connected with a second gear, one side of the first cutting roller is connected with a third gear, the upper end of the third gear is provided with a reinforcing groove, and a rotary inserted bar is embedded and connected in the reinforcing groove.

Preferably, the tail end of the third gear is embedded into the mounting bin body, two sides of the rotary inserted bar are connected to the inside of the mounting bin body, two groups of reinforcing grooves are formed in the reinforcing grooves, and the two groups of reinforcing grooves are formed in two sides of the third gear and penetrate through the third gear.

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

1. this high integrated underwater granulator group of integration can control the diameter of granulator group extrusion product through being provided with the installation crossblock and blockking up the thin slice, regulation through specification diameter size, the commonality of the granulator group of messenger is higher, in addition when the position change of installation crossblock and jam thin slice, the regulation of interval between first cut-off cylinder and the second cut-off cylinder has been driven under the transmission between each part, make the unit adjust and can reach the unanimity, and then staff's work burden has been alleviateed, and it is simple convenient to adjust, the work efficiency of granulator has been accelerated, for traditional regulation, the problem that the whole group of unit adjusts the non-correspondence has been overcome.

2. This high integrated underwater granulator group of integration cuts off the cylinder through being provided with crash bar, first cut-off cylinder and second and can carry out eager grain operation to the result of production, has increaseed the protection to first cut-off cylinder and second cut-off cylinder after synchronous adjustment, cuts off the interval between the cylinder through controlling first cut-off cylinder and second, has avoided first cut-off cylinder and second to cut off and has collided between the cylinder, has increaseed the protection to first cut-off cylinder and second cut-off cylinder.

Drawings

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

FIG. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic top view of the limit slider and the first rack bar of the present invention;

FIG. 5 is a schematic view of a three-dimensional connection structure of a limit slider and a sliding through groove according to the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 2 at B according to the present invention;

FIG. 7 is a schematic side view of the third gear and the installed cartridge body of the present invention;

fig. 8 is a perspective view of a second cutting drum and a crash bar according to the present invention.

In the figure: 1. a unit device; 110. a feed inlet; 120. an extrusion device; 130. an extrusion device; 140. a cooling water tank; 150. cutting equipment; 160. a motor; 170. a crushing knife; 2. an adjustment assembly; 210. a mounting frame; 220. connecting blocks; 230. a lifting bar; 240. a drive link; 250. mounting a transverse block; 260. blocking the sheet; 270. a linkage rod; 280. a limiting block; 290. lifting the driving rod; 2110. a limiting embedded block; 2120. a sliding through groove; 3. a linkage adjusting structure; 310. an extrusion port; 320. a limiting sliding block; 330. a first rack bar; 340. a second rack bar; 350. forming a material main body; 360. a support pad bar; 370. a first cutting drum; 380. a second cutting drum; 390. a first gear; 4. an anti-collision stable structure; 410. an anti-collision bar; 420. a second gear; 430. a third gear; 440. mounting a bin body; 450. a reinforcing groove; 460. the inserted link is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings 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 of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the present invention:

an integrated high-integration underwater granulator set comprises a granulator set 1, wherein the granulator set 1 comprises a feed inlet 110, one side of the feed inlet 110 is connected with an extrusion device 120, one side of the extrusion device 120 is connected with an extrusion device 130, one side of the extrusion device 130 is connected with a cooling water tank 140, one side of the cooling water tank 140 is connected with a cutting device 150, the outer side of the feed inlet 110 is connected with a motor 160, the output end of the motor 160 is connected with a crushing knife 170, one side of the feed inlet 110 is connected with an adjusting component 2, the adjusting component 2 comprises a connecting block 220, one side of the feed inlet 110 is connected with an installing frame 210, the inner part of the feed inlet 110 is connected with a lifting rod 230, the inner part of the lifting rod 230 is connected with a driving connecting rod 240, the inner part of the lifting rod 230 is embedded and connected with the driving connecting rod 240, the tail, the tail end of the linkage rod 270 is connected with a lifting driving rod 290, the bottom end of the lifting driving rod 290 is connected with a mounting transverse block 250, the bottom end of the mounting transverse block 250 is connected with a blocking sheet 260, one side of the lifting rod 230 is provided with a limiting embedded block 2110, the outer wall of the driving connecting rod 240 is sleeved with the limiting embedded block 2110, one side of the extruding device 130 is connected with a linkage adjusting structure 3, the linkage adjusting structure 3 comprises an extruding opening 310, one side of the feeding opening 110 is connected with the extruding opening 310, the inside of the extruding opening 310 is connected with a molding material main body 350, the inside of the cooling water tank 140 is connected with a supporting pad rod 360, the tail end of the linkage rod 270 is connected with a second rack rod 340, the second rack rod 340 is embedded inside the limiting sliding block 320, the inside of the limiting sliding block 320 is connected with a first rack rod 330, the inside of the limiting sliding block 320 is connected with a first gear, the cutting device 150 is internally connected with a first cutting roller 370, which saves a lot of time and simultaneously improves the precision by adjusting together.

Further, one side of the connecting block 220 is movably connected with a linkage rod 270 through a hinge shaft, the connecting block 220 is connected at the terminal of the linkage rod 270, the connecting block 220 is located at the outer side of the limiting block 280, the connecting block 220 is driven to ascend through traction of the lifting rod 230, when the connecting block 220 is pulled by an acting force to move upwards, the linkage rod 270 is driven to deflect in angle, and after the linkage rod 270 deflects in angle, the mounting cross block 250 and the blocking sheet 260 are driven to ascend and descend.

Further, the both ends of drive connecting rod 240 all fixed connection latch, lift bar 230 one side set up some slip logical groove 2120, the internal connection of slip logical groove 2120 has the rack, drive connecting rod 240 runs through the inside that the slip logical groove 2120 extends to lift bar 230, slip logical groove 2120 sliding connection, in the operation that rises that carries out lift bar 230, the rotation meshing through drive connecting rod 240 is in one side of lift bar 230, through the ascending decline that has driven lift bar 230 after the meshing, finally, the effect of traction has been played.

Further, the left and right sides of the driving connecting rod 240 are provided with limiting inserts 2110, two sets of limiting inserts 2110 slide and are in sliding connection with the driving connecting rod 240, the width of the limiting inserts 2110 is the same as that of the sliding through groove 2120, rubber gaskets are connected to two sides of the limiting inserts 2110, the connection stability is improved through the rubber gaskets, the limiting inserts 2110 are embedded in the sliding through groove 2120, the rotation of the driving connecting rod 240 is limited, when the driving connecting rod 240 cannot rotate, namely, the height of the lifting rod 230 is limited.

Furthermore, the blocking sheet 260 is embedded in the extrusion port 310, the upper end of the extrusion device 130 is provided with a long groove, the blocking sheet 260 is embedded in the long groove, the mounting cross block 250 is connected with the blocking sheet 260 and the long groove in a sliding manner, when the blocking sheet 260 covers the upper end of the extrusion port 310, the diameter of the interior of the extrusion port 310 is changed, after the diameter of the interior of the extrusion port 310 is changed, the extruded specifications are different, the distance between the first cutting roller 370 and the second cutting roller 380 is changed by adjusting the mounting cross block 250 and the blocking sheet 260, the common adjustment operation is simple and convenient, and the labor intensity of workers is greatly reduced.

Further, the limiting sliding block 320 is set to be U-shaped, two sets of sliding grooves are formed in the limiting sliding block 320, a second rack rod 340 is embedded in one set of sliding grooves, a first rack rod 330 is embedded in the other set of sliding grooves, the first rack rod 330 and the second rack rod 340 are meshed on two sides of the first gear 390, the second cutting roller 380 is driven to ascend and descend through ascending and descending of the first rack rod 330, when the diameter of the extrusion port 310 is large, the distance between the first cutting roller 370 and the second cutting roller 380 at the rear end is kept the same, therefore, the phenomenon that the distance between the first cutting roller 370 and the second cutting roller 380 is too far away, and the cutter collision caused by too much distance and continuous cutting can be avoided, and the cutting accuracy is improved.

Further, a second cutting drum 380 is connected to the end of the first rack bar 330, a crash bar 410 is connected to one side of the second cutting drum 380, the crash bar 410 is connected to both sides of the second cutting drum 380 through a rotating shaft, the crash bar 410 is provided in an L shape, the second cutting drum 380 is connected inside the cutting device 150, the cutting device 150 and the second cutting drum 380 are slidably connected, the second cutting drum 380 and the first cutting drum 370 are located on the same vertical plane, when the crash bar 410 is located between the first cutting drum 370 and the second cutting drum 380, when the distance is close to the crash bar, the distance between the first cutting drum 370 and the second cutting drum 380 is controlled through the crash bar 410, and the proximity distance therebetween is controlled.

Further, an anti-collision stable structure 4 is connected inside the cutting device 150, the anti-collision stable structure 4 comprises an installation bin body 440, the installation bin body 440 is connected inside the cutting device 150, a second gear 420 is connected inside the installation bin body 440, a third gear 430 is connected to one side of the first cutting roller 370, a reinforcing groove 450 is formed in the upper end of the third gear 430, a rotating inserted bar 460 is embedded and connected inside the reinforcing groove 450, the rotation of the third gear 430 is driven by the rotation of the motor, when the third gear 430 is engaged with the outer wall of the second cutting drum 380, the first cutting drum 370 is rotated in the reverse direction by the motor when the second cutting drum 380 is rotated in the forward direction, thereby performing a cutting operation, by installing a plurality of sets of cutters, after the high-speed rotation, the cutting operation is carried out on the processed material by the cutter, and the processing and cutting-off are further realized.

Further, the end of the third gear 430 is embedded in the mounting cabin 440, the two sides of the rotary inserted bar 460 are connected in the mounting cabin 440, the reinforcing grooves 450 are provided with two sets, the two sets of reinforcing grooves 450 are provided in the two sides of the third gear 430 and run through the third gear 430, the stability of the reinforcing grooves 450 is improved by rotating the inserted bar 460, and the reinforcing grooves 450 are more stable in rotation.

The working principle is as follows: in operation, the raw material is pulverized by the pulverizing blade 170 inside the feed port 110 by feeding the raw material into the feed port 110, and the plastic is converted into a molten state by pulverizing and then in a heated environment, and the extrusion operation is performed by the rotation of the screw when the plastic is formed into a molten state.

The raw material is extruded through the extrusion port 310, and is cooled and formed by cooling water in the cooling water tank 140, the connecting rod 240 is driven by rotation to ascend the lifting rod 230, the linkage rod 270 is driven by the ascending rod 230 after ascending, the connecting block 220 is driven by the ascending rod 230 after ascending, the second rack bar 340 is driven by the traction of the connecting block 220 to ascend, the first gear 390 is driven to rotate after ascending the second rack bar 340, the first gear 390 is driven to descend under the action of teeth after rotating, the first rack bar 330 is driven to descend, the second cutting roller 380 is driven to descend by the descending of the first rack bar 330, the distance between the first cutting roller 370 and the second cutting roller 380 is changed, and the distance between the first cutting roller 370 and the second cutting roller 380 is reduced when the diameter of the extruded material is reduced, consequently, the effect of corresponding regulation has been played, has driven stopper 280 to descend certain numerical value after installation horizontal piece 250 and jam thin slice 260 descend certain numerical value, has played the effect of corresponding regulation, and during the adjustment in later stage, easy operation is convenient, rises when installation horizontal piece 250 and jam thin slice 260, and the material specification grow of extruding, cuts off the distance between the cylinder 380 through adjusting first cutting roller 370 and second for the distance grow, has avoided the too near sword of bumping of appearing.

In order to control the distance between the first cutting drum 370 and the second cutting drum 380, the distance between the first cutting drum 370 and the second cutting drum 380 is controlled by the crash bar 410, and the material flow is cut when the cutting blades installed at the upper ends correspond to each other by the rotation of the second cutting drum 380 and the rotation of the first cutting drum 370, and the operation is simple and convenient, and when the third gear 430 is rotated by the driving of the motor, the rotation of the third gear 430 is embedded inside the reinforcing groove 450 by the rotation of the insertion bar 460, and the rotation of the third gear 430 is more stable by the support of the rotation insertion bar 460.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a granulation unit under high integrated water of integration, includes unit equipment (1), its characterized in that: the unit equipment (1) comprises a feeding hole (110), one side of the feeding hole (110) is connected with extrusion equipment (120), one side of the extrusion equipment (120) is connected with an extrusion device (130), one side of the extrusion device (130) is connected with a cooling water tank (140), one side of the cooling water tank (140) is connected with cutting equipment (150), the outer side of the feeding hole (110) is connected with a motor (160), the output end of the motor (160) is connected with a crushing knife (170), one side of the feeding hole (110) is connected with an adjusting component (2), the adjusting component (2) comprises a connecting block (220), one side of the feeding hole (110) is connected with a mounting frame (210), the inner part of the feeding hole (110) is connected with a lifting rod (230), the inner part of the lifting rod (230) is connected with a driving connecting rod (240), and the inner part of the lifting rod (230), the end-to-end connection of promotion pole (230) has connecting block (220), the upper end at gangbar (270) is cup jointed in connecting block (220), the upper end of gangbar (270) is connected with stopper (280), the end-to-end connection of gangbar (270) has the lift active lever (290), the bottom of lifting active lever (290) is connected with installation horizontal piece (250), the bottom of installation horizontal piece (250) is connected with blocks up thin slice (260), spacing abaculus (2110) have been seted up to one side of promotion pole (230), cup jointed spacing abaculus (2110) on the outer wall of drive connecting rod (240), one side of extrusion device (130) is connected with linkage regulation structure (3), linkage regulation structure (3) are including extruding mouth (310).

2. The integrated high integration underwater pelletizer unit as claimed in claim 1, wherein: one side of connecting block (220) has gangbar (270) through articulated shaft swing joint, connecting block (220) are connected at the terminal of gangbar (270), connecting block (220) are located the outside of stopper (280).

3. The integrated high integration underwater pelletizer unit as claimed in claim 1, wherein: the both ends of drive connecting rod (240) all fixed connection latch, one side of lift bar (230) set up the slip logical groove (2120) that have, the internal connection that slides logical groove (2120) has the rack, drive connecting rod (240) run through the inside that slides logical groove (2120) extends to the inside of lift bar (230), slide logical groove (2120) sliding connection.

4. An integrated high integration underwater pelletizer unit as claimed in claim 3, wherein: the left side and the right side of the driving connecting rod (240) are provided with limiting embedded blocks (2110), the limiting embedded blocks (2110) are connected with the driving connecting rod (240) in a sliding mode, the width of each limiting embedded block (2110) is equal to that of each sliding through groove (2120), and rubber gaskets are connected to the two sides of each limiting embedded block (2110).

5. The integrated high integration underwater pelletizer unit as claimed in claim 1, wherein: one side of the feed port (110) is connected with an extrusion port (310), the interior of the extrusion port (310) is connected with a molding material main body (350), the interior of the cooling water tank (140) is connected with a supporting cushion rod (360), the tail end of the linkage rod (270) is connected with a second rack rod (340), the second rack rod (340) is embedded in the limiting sliding block (320), the interior of the limiting sliding block (320) is embedded and connected with a first rack rod (330), the interior of the limiting sliding block (320) is connected with a first gear (390), the interior of the cutting equipment (150) is embedded and connected with a second cutting roller (380), the interior of the cutting equipment (150) is connected with a first cutting roller (370), the blocking sheet (260) is embedded in the extrusion port (310), the upper end of the extrusion device (130) is provided with a long groove, the blocking sheet (260) is embedded in the long groove, and the mounting cross block (250), the blocking sheet (260) and the long groove are connected in a sliding mode.

6. The integrated high integration underwater pelletizer unit as claimed in claim 5, wherein: the limiting sliding block (320) is arranged to be U-shaped, two sets of sliding grooves are formed in the limiting sliding block (320), a second rack rod (340) is embedded into one set of sliding grooves, a first rack rod (330) is connected into the other set of sliding grooves in an embedded mode, and the first rack rod (330) and the second rack rod (340) are meshed on two sides of the first gear (390).

7. The integrated high integration underwater pelletizer unit as claimed in claim 5, wherein: the tail end of the first rack rod (330) is connected with a second cutting roller (380), one side of the second cutting roller (380) is connected with an anti-collision rod (410), the anti-collision rod (410) is connected to two sides of the second cutting roller (380) through a rotating shaft, the anti-collision rod (410) is arranged in an L shape, the second cutting roller (380) is connected inside the cutting equipment (150), the cutting equipment (150) is connected with the second cutting roller (380) in a sliding mode, and the second cutting roller (380) and the first cutting roller (370) are located on the same vertical plane.

8. The integrated high integration underwater pelletizer unit as claimed in claim 1, wherein: the inside connection of cutting equipment (150) has crashproof stable structure (4), crashproof stable structure (4) are including the installation storehouse body (440), the inside connection of cutting equipment (150) has the installation storehouse body (440).

9. An integrated high integration underwater pelletizer unit as claimed in claim 5 or 8, wherein: the inside of installation storehouse body (440) is connected with second gear (420), one side of first cutting drum (370) is connected with third gear (430), reinforced groove (450) have been seted up to the upper end of third gear (430), the inside embedding in reinforced groove (450) is connected with rotates inserted bar (460).

10. The integrated high integration underwater pelletizer unit as claimed in claim 9, wherein: the tail end of the third gear (430) is embedded in the mounting cabin body (440), two sides of the rotary inserted bar (460) are connected to the inside of the mounting cabin body (440), two groups of reinforcing grooves (450) are formed, and the two groups of reinforcing grooves (450) are formed in two sides of the third gear (430) and penetrate through the third gear (430).