CN220808104U

CN220808104U - Plastic particle separating device

Info

Publication number: CN220808104U
Application number: CN202322173945.0U
Authority: CN
Inventors: 贾毅
Original assignee: Xiangyang Aoli Plastic Co ltd
Current assignee: Xiangyang Aoli Plastic Co ltd
Priority date: 2023-08-14
Filing date: 2023-08-14
Publication date: 2024-04-19
Anticipated expiration: 2033-08-14

Abstract

The utility model provides a plastic particle separating device which comprises a machine case, a separating cylinder and an inner cylinder, wherein a partition plate is welded on a top plate of the machine case, an inclined cover is lapped on the partition plate and the top plate of the machine case, a rotating rod is inserted on the partition plate, a fixed column and a conveying pipe are inserted on the top plate of the machine case, an air nozzle is embedded at the top of the separating cylinder, a discharge port is arranged at the bottom end of the separating cylinder, a chuck is embedded on a rear side plate of the machine case, a clamping groove is arranged on the side wall of the inner cylinder, a ventilation net is buckled on the clamping groove, a connecting plate is welded on the front side surface of the chuck, a driver is rotationally connected on the rear side surface of the chuck, fan blades and stirring rods are respectively connected at two ends of the rotating rod, and a heating mechanism and an air suction mechanism are arranged in the inner cylinder. The utility model solves the problems that the wind force is easy to carry light plastic particles to be discharged together, and condensed water can be generated to drop into the plastic particles again when the hot air carries water vapor to rise to contact with the top plate of the charging barrel.

Description

Plastic particle separating device

Technical Field

The utility model relates to the technical field of plastic particle processing, in particular to a plastic particle separating device.

Background

The plastic particles refer to granular plastic, generally are divided into more than 200 and can be divided into thousands of types, common plastic particles comprise general plastic, engineering plastic and special plastic, the plastic particles are easy to be doped with impurities such as dust in the production process, and the plastic particles are usually cleaned for separating the impurities in the plastic particles.

The chinese patent with the prior publication number CN217257552U discloses a drying and separating device for plastic particles, the above technical scheme adopts a connecting pipe to communicate with a blower and a conical shell, a rotating rod, a fan blade and a heating wire are installed in the conical shell, hot air blows the plastic particles to dry, meanwhile, a fan blade is driven by wind power to drive the rotating rod and a stirring plate to stir the plastic particles, but when the plastic particles are blown through from bottom to top by utilizing wind power, the plastic particles with light weight are easily carried to be discharged from an exhaust pipe together, and when the hot air carries water vapor to rise to contact with a top plate of a charging barrel, a condensing effect is generated, so that water drops into the plastic particles again, and the separation time is prolonged.

Disclosure of utility model

In order to overcome the defects existing in the prior art, a plastic particle separating device is provided at present, so that the problems that when the plastic particles are blown through from bottom to top by utilizing wind power in the prior art, the plastic particles with light weight are easily carried to be discharged from an exhaust pipe together, and when hot air carries water vapor to rise to contact a top plate of a charging barrel, a condensation effect is generated, water is enabled to drop into the plastic particles again, and the time required for separation is prolonged are solved.

In order to achieve the above purpose, a plastic particle separating device is provided, which comprises a case, a separating cylinder and an inner cylinder, wherein a partition plate is welded on a top plate of the case, the partition plate and an inclined cover is lapped on the top plate of the case, a rotating rod is inserted on the partition plate, a fixing column and a conveying pipe are inserted on the top plate of the case, an air nozzle is embedded at the top of the separating cylinder, a discharge opening is formed in the bottom end of the separating cylinder, a connecting clamp is fixed on the outer wall of the separating cylinder, a chuck is embedded on a rear side plate of the case, an air inlet is formed in the front end face of the inner cylinder, a clamping groove is formed in the side wall of the inner cylinder, a ventilation net is buckled on the clamping groove, a connecting plate is welded on the front side face of the chuck, a driver is connected to the rear side face of the chuck in a rotating mode, two ends of the rotating rod are respectively connected with a fan blade and a stirring rod, and a heating mechanism and an air exhausting mechanism are arranged in the inner cylinder.

Further, a collecting chamber is formed in the case, the bottom surface of the case is fixedly connected with a base, a dispersion disc is rotatably installed on the inner side surface of the bottom plate of the case, and the bottom end of the fixing column is inserted into a connecting clamp.

Further, a blowing port is formed in the top plate of the inclined cover, a condensing chamber is formed around the top plate of the inclined cover, the partition plate and the chassis, the condensing chamber is communicated with the blowing port, a feeding chamber is formed between the partition plate and the rear side plate of the chassis, and the feeding chamber is communicated with a conveying pipe.

Further, two ends of the separating cylinder are abutted to the front plate and the rear plate of the case, the top of the separating cylinder penetrates out of the top plate of the case, the upper end of the conveying pipe is connected with the feeding chamber, and the lower end of the conveying pipe is connected with the separating cylinder.

Further, the air inlet penetrates through the front side plate of the case, a filter box is buckled in the air inlet, a heating chamber is formed in the inner cylinder, two ends of the ventilation net are bent to form an anti-falling block, the inner wall of the ventilation net is connected with a limiting rod, the limiting rod is inserted in the clamping groove, and the ventilation net faces the air nozzle.

Further, the connecting plate separates the annular area between the separating cylinder and the inner cylinder to form an isolation chamber, the isolation chamber and the connecting plate are alternately distributed, the air nozzle is communicated with the condensing chamber and the isolation chamber, and the discharge port is communicated with the isolation chamber and the collecting chamber.

Further, the roof of machine case horizontally extends to surpass the room that gathers materials, and the extension department installs the collecting bottle, collecting bottle intercommunication condensation chamber, fixed mounting has the support on the trailing flank of machine case, it is equipped with the driver to press from both sides between the support.

Further, the fan blades and the stirring rod are respectively arranged in the condensing chamber and the feeding chamber, the condensing chamber is of a triangle-like structure, and the feeding chamber is of a trapezoid structure.

The plastic particle separating device has the beneficial effects that the chuck is utilized to drive the connecting plate to rotate, so that the isolation chamber between the partition plates sequentially passes through the conveying pipe, the air nozzle and the discharge port, the inner cylinder blows hot air to the air nozzle, plastic particles passing between the ventilation net and the air nozzle are dried, air flow carries moisture to enter the condensing chamber, condensed water flows into the collecting bottle along the inclined cover, meanwhile, the air flow drives the fan blade and the rotating rod to rotate, the rotating rod drives the stirring rod to rotate, and when the isolation chamber carries the plastic particles to pass through the discharge port, the plastic particles fall into the collecting chamber from the discharge port.

Drawings

FIG. 1 is a schematic cross-sectional elevation view of an embodiment of the present utility model;

FIG. 2 is a schematic side view of a cross-sectional structure of an embodiment of the present utility model;

FIG. 3 is a schematic cross-sectional view of a separator according to an embodiment of the present utility model;

FIG. 4 is an enlarged schematic view of a rotary lever according to an embodiment of the present utility model;

fig. 5 is an enlarged schematic structural view of a ventilation net according to an embodiment of the present utility model.

In the drawings, the list of components represented by the various numbers is as follows:

1. A chassis; 2. an inclined cover; 3. a separation cylinder; 4. an inner cylinder; 5. a collection bottle; 6. a chuck; 7. a rotating lever; 8. a delivery tube; 9. a dispersion plate; 11. a collection chamber; 12. a base; 13. fixing the column; 21. a condensing chamber; 22. blowing an air port; 23. a partition plate; 24. a feed chamber; 31. an air nozzle; 32. a discharge port; 33. an isolation chamber; 34. a connecting clip; 41. an air inlet; 42. a heating chamber; 43. a clamping groove; 44. a ventilation net; 45. a limit rod; 46. an anti-falling block; 47. a filter box; 61. a connecting plate; 62. a bracket; 63. a driver; 71. a fan blade; 72. an agitating rod.

Detailed Description

Other advantages and effects of the present utility model will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present utility model with reference to specific examples. The utility model may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present utility model.

Referring to fig. 1 to 5, the utility model provides a plastic particle separating device, which comprises a case 1, a separating cylinder 3 and an inner cylinder 4, wherein a baffle plate 23 is welded on the top plate of the case 1, a bevel cover 2 is lapped on the baffle plate 23 and the top plate of the case 1, a rotating rod 7 is inserted on the baffle plate 23, a fixed column 13 and a conveying pipe 8 are inserted on the top plate of the case 1, an air nozzle 31 is inserted on the top of the separating cylinder 3, a discharge opening 32 is arranged at the bottom end of the separating cylinder 3, a connecting clamp 34 is fixed on the outer wall of the separating cylinder 3, a chuck 6 is inserted on the rear side plate of the case 1, an air inlet 41 is arranged on the front end face of the inner cylinder 4, a clamping groove 43 is arranged on the side wall of the inner cylinder 4, an air permeable net 44 is buckled on the clamping groove 43, a connecting plate 61 is welded on the front side face of the chuck 6, a rear side face of the chuck 6 is rotationally connected with a driver 63, two ends of the rotating rod 7 are respectively connected with a 71 and a stirring rod 72, and a heating mechanism and an air exhausting mechanism are arranged inside the inner cylinder 4.

When the plastic particle separating device is used, the cleaned plastic particles are put into the feeding chamber 24, the plastic particles enter the separating cylinder 3 through the conveying pipe 8, the chuck 6 drives the connecting plate 61 to rotate, the separating chamber 33 carries the plastic particles to rotate around the inner cylinder 4, when the plastic particles move to the ventilation net 44, the air suction mechanism in the inner cylinder 4 is started, wind force enters the heating chamber 42 from the air inlet 41, heated air flow blows through the ventilation net 44 from bottom to top, hot air blows through the plastic particles in the separating chamber 33, air flow carries moisture to blow into the condensing chamber 21 from the air nozzle 31, condensed water flows into the collecting bottle 5 along the inclined cover 2, air flow is discharged outwards from the air blowing opening 22, the air flow drives the fan blades 71 to rotate, the rotating rod 7 drives the stirring rod 72 to rotate, the dried plastic particles move to the discharge opening 32 along with the separating chamber 33, and the plastic particles drop into the collecting chamber 11 from the discharge opening 32, and at the moment, the dispersing disc 9 rotates to prevent the plastic particles from piling up.

In this embodiment, as shown in fig. 1, a collecting chamber 11 is formed in the chassis 1, a bottom surface of the chassis 1 is fixedly connected with a base 12, a dispersion disc 9 is rotatably installed on an inner side surface of a bottom plate of the chassis 1, a bottom end of a fixing column 13 is inserted into a connecting clip 34, a top plate of the chassis 1 horizontally extends beyond the collecting chamber 11, a collecting bottle 5 is installed at the extending position, the collecting bottle 5 is communicated with a condensing chamber 21, a support 62 is fixedly installed on a rear side surface of the chassis 1, a driver 63 is clamped between the supports 62, the connecting clip 34 is matched with the fixing column 13, the connection effect of the separating drum 3 and the chassis 1 is enhanced, and the dispersion disc 9 is used for dispersing materials discharged from a discharge port 32, so that the materials are prevented from being stacked and blocked.

In this embodiment, as shown in fig. 1, a top plate of the inclined cover 2 is provided with a blowing port 22, a condensing chamber 21 is formed around the inclined cover 2, a partition plate 23 and the top plate of the case 1, the condensing chamber 21 is communicated with the blowing port 22, a feeding chamber 24 is formed between the partition plate 23 and a rear side plate of the case 1, the feeding chamber 24 is communicated with a conveying pipe 8, and the inclined cover 2 guides condensed water to the direction of the collecting bottle 5 so that the condensed water flows into the collecting bottle 5.

In this embodiment, as shown in fig. 1 and 2, both ends of the separating tube 3 are abutted against the front and rear plates of the casing 1, the top of the separating tube 3 passes through the top plate of the casing 1, the upper end of the conveying tube 8 is connected to the feeding chamber 24, the lower end of the conveying tube 8 is connected to the separating tube 3, and the conveying tube 8 feeds the plastic particles into the isolation chamber 33.

In this embodiment, as shown in fig. 3 and 5, the air inlet 41 penetrates through the front side plate of the chassis 1, the filter box 47 is buckled in the air inlet 41, the heating chamber 42 is formed in the inner cylinder 4, the two ends of the ventilation net 44 are bent to form the anti-drop block 46, the inner wall of the ventilation net 44 is connected with the limit rod 45, the limit rod 45 is inserted in the clamping groove 43, the ventilation net 44 faces the air nozzle 31, the air flow enters the heating chamber 42 through the air inlet 41 and then is heated by the heating mechanism, and the hot air is blown out upwards from the ventilation net 44.

In this embodiment, as shown in fig. 3, the annular region between the separating drum 3 and the inner drum 4 is partitioned by the connecting plate 61 to form the isolation chambers 33, the isolation chambers 33 are alternately arranged with the connecting plate 61, the air nozzles 31 communicate with the condensation chambers 21 and the isolation chambers 33, the discharge ports 32 communicate with the isolation chambers 33 and the collection chamber 11, and the isolation chambers 33 are circulated around the inner drum 4 by moving the connecting plate 61.

In this embodiment, as shown in fig. 1, the fan blade 71 and the stirring rod 72 are respectively located in the condensing chamber 21 and the feeding chamber 24, the condensing chamber 21 is in a triangle-like structure, the feeding chamber 24 is in a trapezoid-like structure, the air blowing opening 22 is located near the fan blade 71, the fan blade 71 drives the rotating rod 7 to rotate under the action of wind force, and the rotating rod 7 drives the stirring rod 72 to rotate, so that plastic particles enter the conveying pipe 8.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims

1. The utility model provides a plastic granules separator, includes quick-witted case (1), separating drum (3) and inner tube (4), its characterized in that: the utility model discloses a heating device, including baffle (23) has been welded on the roof of machine case (1), baffle (23) with overlap joint has oblique lid (2) on the roof of machine case (1), inserted on baffle (23) have dwang (7), inserted on the roof of machine case (1) fixed column (13) and conveyer pipe (8), air nozzle (31) have been inlayed at the top of separating drum (3), bin outlet (32) have been seted up to the bottom of separating drum (3), be fixed with on the outer wall of separating drum (3) link clamp (34), inlay on the posterior lateral plate of machine case (1) is equipped with chuck (6), be equipped with air intake (41) on the preceding terminal surface of inner tube (4), draw-in groove (43) have been seted up on the lateral wall of inner tube (4), air-permeable net (44) have been buckled on the draw-in groove (43), the leading flank butt fusion of chuck (6) has link plate (61), the trailing flank of chuck (6) rotates and connects driver (63), both ends of dwang (7) are connected with flabellum (71) and heating device respectively, flabellum (72) are installed to the inside of inner tube (4).

2. A plastic particle separating device according to claim 1, characterized in that the inside of the machine case (1) is provided with a collecting chamber (11), the bottom surface of the machine case (1) is fixedly connected with a base (12), the inner side surface of the bottom plate of the machine case (1) is rotatably provided with a dispersion disc (9), and the bottom end of the fixing column (13) is inserted into a connecting clamp (34).

3. A plastic particle separating device according to claim 1, characterized in that the top plate of the inclined cover (2) is provided with a blowing port (22), the top plates of the inclined cover (2), the partition plate (23) and the machine case (1) are surrounded to form a condensing chamber (21), the condensing chamber (21) is communicated with the blowing port (22), a feeding chamber (24) is formed between the partition plate (23) and the rear side plate of the machine case (1), and the feeding chamber (24) is communicated with the conveying pipe (8).

4. A plastic particle separating device according to claim 1, characterized in that both ends of the separating cylinder (3) are abutted on the front and rear plates of the chassis (1), the top of the separating cylinder (3) penetrates out of the top plate of the chassis (1), the upper end of the conveying pipe (8) is connected with the feeding chamber (24), and the lower end of the conveying pipe (8) is connected with the separating cylinder (3).

5. A plastic particle separating device according to claim 1, characterized in that the air inlet (41) penetrates through the front side plate of the chassis (1), a filter box (47) is buckled in the air inlet (41), a heating chamber (42) is formed in the inner cylinder (4), two ends of the ventilation net (44) are bent to form an anti-falling block (46), the inner wall of the ventilation net (44) is connected with a limiting rod (45), the limiting rod (45) is inserted in the clamping groove (43), and the ventilation net (44) faces the air nozzle (31).

6. A plastic particle separating device according to claim 1, characterized in that the connecting plate (61) separates the annular area between the separating drum (3) and the inner drum (4) to form separating chambers (33), the separating chambers (33) are alternately distributed with the connecting plate (61), the air nozzles (31) are communicated with the condensing chamber (21) and the separating chambers (33), and the discharge opening (32) is communicated with the separating chambers (33) and the collecting chamber (11).

7. A plastic particle separating device according to claim 2, characterized in that the top plate of the chassis (1) horizontally extends beyond the collecting chamber (11), a collecting bottle (5) is arranged at the extension, the collecting bottle (5) is communicated with the condensing chamber (21), a bracket (62) is fixedly arranged on the rear side surface of the chassis (1), and a driver (63) is clamped between the brackets (62).

8. A plastic particle separating device according to claim 7, characterized in that the fan blades (71) and the stirring rod (72) are respectively arranged in a condensing chamber (21) and a feeding chamber (24), the condensing chamber (21) is in a triangular-like structure, and the feeding chamber (24) is in a trapezoid-like structure.