CN219043922U - Discharging device for eccentric granulator - Google Patents

Abstract

The application relates to a discharging device for eccentric granulator belongs to the field of eccentric granulator equipment, and it is including connecting the material pipe at the granulator discharge gate, and the both sides that the material pipe is on the back all are connected with slope downwardly extending's branch pipe, all rotate through the dabber in two branch pipes and be connected with the flashboard that is used for the inside confined of branch pipe, are equipped with on the branch pipe and are used for driving flashboard pivoted drive assembly. The application has the effects of saving labor, collecting material intervals and saving time and labor.

Description

Discharging device for eccentric granulator

Technical Field

The application relates to the field of eccentric granulator equipment, in particular to a discharging device for an eccentric granulator.

Background

Resin processing generally requires mixing, reacting, granulating, etc., and a granulator generally transversely cuts the resin raw material extruded from a die into smaller particles, and adopts a rotary cutting mode to continuously transversely cut the resin raw material by utilizing the continuous rotation of a cutter.

The cut resin particles fall from the discharge port of the granulator, an operator can place a pocket below the discharge port to collect the resin particles, the pocket is removed after being fully collected, the next pocket is placed below the discharge port, and the granulator is used for continuously cutting the cut resin particles transversely, so that the pocket filled with the resin particles is heavy and is easy to produce intervals by a single operator in the pocket replacement process, part of the resin particles are scattered, the scattered resin particles need to be manually collected, and the time and the labor are wasted.

Disclosure of Invention

In order to improve the in-process that the pocket was changed because the pocket that fills resin pellet is heavy and single operation produces the interval easily, leads to partial resin pellet unrestrained, needs the manual work to collect unrestrained resin pellet, the problem of wasting time and energy, this application provides a discharging device for eccentric granulator.

The application provides a discharging device for eccentric granulator adopts following technical scheme:

the utility model provides an eccentric discharging device for granulator, includes the material pipe of connection at the granulator discharge gate, the both sides that the material pipe is on the back all are connected with slope downwardly extending's branch pipe, two all be connected with the flashboard that is used for the inside confined of branch pipe through the dabber rotation in the branch pipe, be equipped with on the branch pipe and be used for driving flashboard pivoted drive assembly.

Through adopting above-mentioned technical scheme, the operator puts two pockets below the branch pipe respectively, and after one of them pocket received the material, the operator drove the flashboard through drive assembly and rotates, closes the branch pipe that is blowing, and another branch pipe is opened, has realized receiving the material in turn, has reduced the unrestrained possibility of resin particle, need not artifical repeated collection, labour saving and time saving.

Optionally, the drive assembly includes servo cylinder and push rod, the one end of dabber wears out outside the branch pipe and links to each other perpendicularly with the push rod, the cylinder body of servo cylinder articulates on the branch pipe, the actuating lever of servo cylinder articulates with the push rod.

Through adopting above-mentioned technical scheme, the actuating lever of servo jar drives the push rod and rotates, and the push rod drives the dabber and rotates, and the dabber drives the flashboard and rotates, and position accuracy is high, adjusts conveniently.

Optionally, the bottom of the material pipe is provided with guide plates corresponding to the branch pipes one by one, and one ends of the two guide plates, which are far away from the branch pipes, are connected with each other.

By adopting the technical scheme, the two guide plates form a V shape, so that resin particles slide along two sides of the guide plates, and the resin particles are prevented from being detained at the bottom of the material pipe.

Optionally, the branch pipe below is equipped with and is used for supporting subaerial bottom plate, it is connected with the stand to rotate on the bottom plate, coaxial being fixed with the carousel on the stand, the stand top is equipped with the spacing dish, the circumference is equipped with a plurality of groups gag lever post on the spacing dish, every group the quantity of gag lever post is two and is parallel to each other, be equipped with on the bottom plate and be used for driving stand pivoted power component.

Through adopting above-mentioned technical scheme, the operator wears to establish the pocket on every group gag lever post, makes the pocket open, and after the material was received to a pocket, power pack drove the stand and rotates, rotates next pocket to corresponding branch pipe below, convenient and fast does benefit to and improves material receiving efficiency.

Optionally, the power component includes servo motor and sprocket, servo motor installs on the bottom plate, the sprocket is equipped with two and fixes respectively on the motor shaft of stand and servo motor, two the sprocket passes through the chain to be connected, with the stand is connected the sprocket is located between carousel and the bottom plate.

Through adopting above-mentioned technical scheme, servo motor drive sprocket rotates, drives the stand through chain drive and rotates, and the bearing capacity is big.

Optionally, limiting plate sliding connection is on the stand, be equipped with the stop collar that supplies the stand to pass on the limiting plate, threaded connection has the stop screw with the stand butt on the stop collar.

Through adopting above-mentioned technical scheme, the operator can adjust the height of spacing dish according to the length of pocket for pocket bottom can support on the carousel, reduces the load that resin granule gravity applyed the gag lever post.

Optionally, a sinking groove for inserting the limit screw is formed in the upright post, and the sinking groove extends along the axial direction of the upright post.

Through adopting above-mentioned technical scheme, the grafting of stop screw and heavy groove has played the guide effect to the spacing dish on the one hand, and on the other hand heavy groove tank bottom and stop screw tip face contact have increased the fixed stability of stop screw.

Optionally, a pin hole is formed at the end of the limiting rod, and a limiting pin is inserted into the pin hole.

By adopting the technical scheme, the limiting pin prevents the pocket from sliding off the limiting rod.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the continuous discharging and receiving are realized in an alternate rotation mode, the possibility of resin particle scattering is reduced, manual repeated collection is not needed, and time and labor are saved;

2. the mode that the pocket is switched in the rotation of the turntable is adopted, so that labor and time are saved, and the material receiving efficiency is improved.

Drawings

Fig. 1 is a schematic overall structure of an embodiment of the present application.

Fig. 2 is a schematic structural view of a shutter according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of an embodiment of the present application for embodying a driving assembly.

Fig. 4 is a schematic structural view of an embodiment of the present application for embodying a base plate and a stopper plate.

Fig. 5 is a schematic structural view of a stop lever according to an embodiment of the present application.

Reference numerals illustrate: 1. a material pipe; 11. a branch pipe; 12. a flashboard; 121. a mandrel; 13. a guide plate; 2. a drive assembly; 21. a servo cylinder; 22. a push rod; 3. a bottom plate; 31. a column; 32. a turntable; 33. a limiting disc; 34. a limit rod; 35. a limit sleeve; 351. a limit screw; 36. sinking grooves; 37. a pin hole; 38. a limiting pin; 4. a power assembly; 41. a servo motor; 42. a sprocket; 43. and (3) a chain.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-5.

The embodiment of the application discloses a discharging device for an eccentric granulator. As shown in fig. 1, the discharging device for the eccentric granulator comprises a material pipe 1 and two bottom plates 3, wherein the material pipe 1 is vertically connected to a discharging hole of the granulator, the bottom of the material pipe 1 is closed, two opposite sides of the material pipe 1 are respectively connected with branch pipes 11 symmetrically distributed about the material pipe, the branch pipes 11 extend obliquely downwards, and the bottom edges of the connecting ends of the branch pipes 11 and the material pipe 1 are flush with the bottom of the material pipe 1.

As shown in fig. 2, two guide plates 13 are obliquely arranged at the bottom of the material pipe 1, the two guide plates 13 respectively correspond to the two branch pipes 11, one downward inclined ends of the two guide plates 13 are connected with the bottom edges of the corresponding branch pipes 11, one upward inclined ends of the two guide plates 13 are mutually connected to form a V-shaped structure, and when the resin particles fall from the material pipe 1, the resin particles are split by the two guide plates 13 and respectively enter the two branch pipes 11.

As shown in fig. 2 and 3, a mandrel 121 is rotatably connected to the branch pipe 11, a shutter 12 for sealing the inside of the branch pipe 11 is fixed to the mandrel 121, and a driving assembly 2 for driving the shutter 12 to rotate is provided on the branch pipe 11. The driving assembly 2 comprises a servo cylinder 21, a cylinder body of the servo cylinder 21 is hinged to the side wall of the branch pipe 11, a push rod 22 is hinged to the end portion of a driving rod of the servo cylinder 21, and one end of a mandrel 121 penetrates out of the branch pipe 11 and is vertically connected with one end, away from the servo cylinder 21, of the push rod 22.

As shown in fig. 1 and fig. 4, two bottom plates 3 are supported on the ground and respectively correspond to two branch pipes 11, upright posts 31 are respectively connected to the two bottom plates 3 in a rotating way, rotary tables 32 are respectively and coaxially fixed on the two upright posts 31, pedestals for supporting and supplying the rotary tables 32 to rotate are arranged on the bottom plates 3, coaxially distributed limit plates 33 are arranged on the upright posts 31 in a penetrating way, limit sleeves 35 for the upright posts 31 to penetrate are fixedly arranged on the limit plates 33, limit screws 351 are connected to the limit sleeves 35 in a threaded way, sinking grooves 36 for the limit screws 351 to vertically insert are formed in the upright posts 31, the sinking grooves 36 extend along the axes of the upright posts 31, the limit screws 351 can move along the sinking grooves 36 when the limit plates 33 move up and down, the end parts of the limit screws 351 are abutted to the bottoms of the sinking grooves 36, and the limit plates 33 are fixed with the upright posts 31.

The limiting plate 33 is provided with a plurality of groups of limiting rods 34 which are equidistantly arranged along the circumferential direction, the number of the limiting rods 34 in each group is two and mutually parallel, the limiting rods 34 are perpendicular to the axis of the limiting plate 33, one end, far away from the limiting plate 33, of each limiting rod 34 is provided with a cone, each group of limiting rods 34 is provided with a pocket in a penetrating mode, and the opening of the pocket is kept open.

As shown in fig. 5, the end of each limiting rod 34 is vertically provided with a pin hole 37, a limiting pin 38 is inserted into the pin hole 37, and both ends of the limiting pin 38 extend out of the limiting rods 34, so that the outward sliding of the pocket is prevented.

As shown in fig. 4, a power assembly 4 for driving the upright 31 to rotate is arranged on the bottom plate 3, the power assembly 4 comprises a servo motor 41 and two chain wheels 42, the servo motor 41 is arranged on the bottom plate 3, the axis of the servo motor 41 is parallel to the upright 31, one chain wheel 42 is coaxially connected on the upright 31 and located between the turntable 32 and the bottom plate 3, the other chain wheel 42 is coaxially connected on a motor shaft of the servo motor 41, and the two chain wheels 42 are connected through a chain 43.

The implementation principle of the embodiment of the application is as follows: in the initial state, a pocket is corresponding to the lower part of each branch pipe 11, wherein the flashboard 12 of one branch pipe 11 is opened, and the flashboard 12 of the other branch pipe 11 is closed; during discharging, the resin particles fall from the material pipe 1 and respectively enter the two branch pipes 11, and the resin particles fall into the lower pocket from the branch pipes 11 with the flashboard 12 opened.

When the first pocket is full, the two servo cylinders 21 are started simultaneously, and the driving rod of the servo cylinder 21 pushes the push rod 22, so that the push rod 22 drives the flashboard 12 to rotate through the mandrel 121, the states in the two branch pipes 11 are switched, and resin particles fall from the other branch pipe 11 to the second pocket below to continue to receive materials. The servo motor 41 on the bottom plate 3 corresponding to the first pocket drives the turntable 32 to rotate, and the second pocket is rotated to the lower part of the branch pipe 11 so as to receive materials for the next time, and the circulation is repeated, so that uninterrupted material receiving operation on the basis of continuous discharging is realized, the requirements for manpower and repeated operation are reduced, time and labor are saved, and the efficiency of material receiving operation is improved.

During unloading, an operator pulls out the limiting pin 38, moves the pocket to slide out of the limiting rod 34, then wears a new pocket on the limiting rod 34, and reinserts the limiting pin 38.

The operator can adjust the distance between the limiting plate 33 and the turntable 32 to be matched with the length of the pocket by moving the limiting plate, so that the whole length of the pocket is ensured to be unfolded when the bottom of the pocket is effectively supported on the turntable 32, and the storage space of the pocket is fully utilized.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a discharging device for eccentric pelleter which characterized in that: including connecting material pipe (1) at granulator discharge gate, the both sides that material pipe (1) are opposite to each other all are connected with slope downwardly extending's branch pipe (11), two all be connected with in branch pipe (11) through dabber (121) rotation and be used for branch pipe (11) inside confined flashboard (12), be equipped with on branch pipe (11) and be used for driving flashboard (12) pivoted drive assembly (2).

2. The discharge device for an eccentric pelletizer as claimed in claim 1, wherein: the driving assembly (2) comprises a servo cylinder (21) and a push rod (22), one end of the mandrel (121) penetrates out of the branch pipe (11) and is vertically connected with the push rod (22), a cylinder body of the servo cylinder (21) is hinged to the branch pipe (11), and a driving rod of the servo cylinder (21) is hinged to the push rod (22).

3. The discharge device for an eccentric pelletizer as claimed in claim 2, wherein: the bottom of the material pipe (1) is provided with guide plates (13) which are in one-to-one correspondence with the branch pipes (11), and one ends of the two guide plates (13) far away from the branch pipes (11) are connected with each other.

4. The discharge device for an eccentric pelletizer as claimed in claim 1, wherein: the utility model discloses a power pack, including branch pipe (11), stand (3), stand (31) are equipped with branch pipe (11) below and are used for supporting subaerial bottom plate (3), rotate on bottom plate (3) and be connected with stand (31), coaxial carousel (32) are fixed with on stand (31), stand (31) top is equipped with spacing dish (33), circumference is equipped with a plurality of sets of gag lever post (34) on spacing dish (33), every set of the quantity of gag lever post (34) is two and is parallel to each other, be equipped with on bottom plate (3) and be used for driving stand (31) pivoted power pack (4).

5. The discharge device for an eccentric pelletizer as claimed in claim 4, wherein: the power assembly (4) comprises a servo motor (41) and a chain wheel (42), the servo motor (41) is arranged on the bottom plate (3), the chain wheels (42) are provided with two chain wheels and are respectively fixed on motor shafts of the upright posts (31) and the servo motor (41), the two chain wheels (42) are connected through a chain (43), and the chain wheels (42) connected with the upright posts (31) are located between the turntable (32) and the bottom plate (3).

6. The discharge device for an eccentric pelletizer as claimed in claim 4, wherein: the limiting plate (33) is slidably connected to the upright post (31), a limiting sleeve (35) for the upright post (31) to pass through is arranged on the limiting plate (33), and a limiting screw (351) abutted to the upright post (31) is connected to the limiting sleeve (35) in a threaded mode.

7. The discharge device for eccentric pelletizer as claimed in claim 5, wherein: the upright post (31) is provided with a sinking groove (36) for inserting a limit screw (351), and the sinking groove (36) extends along the axial direction of the upright post (31).

8. The discharge device for an eccentric pelletizer as claimed in claim 4, wherein: the end part of the limiting rod (34) is provided with a pin hole (37), and a limiting pin (38) is inserted into the pin hole (37).

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