CN210036182U

CN210036182U - Plastic particle drying device

Info

Publication number: CN210036182U
Application number: CN201920538638.9U
Authority: CN
Inventors: 王素萍; 单长忠
Original assignee: Xuzhou Zhongzhou New Material Technology Co Ltd
Current assignee: Xuzhou Zhongzhou New Material Technology Co Ltd
Priority date: 2019-04-19
Filing date: 2019-04-19
Publication date: 2020-02-07
Anticipated expiration: 2029-04-19

Abstract

A plastic particle drying device is characterized in that a rotary material distributing mechanism is arranged above the inside of a cylinder body, and a ventilating support body is arranged below the inside of the cylinder body; the rotary material distribution mechanism consists of a material receiving hopper and a material distribution pipe; the center of the upper opening end of the cylinder body is provided with a shaft sleeve which is fixedly connected with the upper opening end of the cylinder body through a plurality of cross beams; the lower end of a rotating shaft which is rotatably arranged in the shaft sleeve is fixedly connected with the inner side wall of the material receiving hopper through a plurality of inclined connecting rods, and the rotating shaft is driven by a driving motor; the lower end of the cylinder body is connected with a cover body, the lower end of the cover body is connected with an air outlet end of the fan through a heating pipeline, and a heating resistance wire is arranged in the heating pipeline; the breathable support body is fixedly connected with the inner side wall of the cover body through a plurality of inclined support rods; the lower end of the air-permeable support body extends to the outer side of the cylinder body from an annular opening formed in the side wall of the cylinder body; the fixed cover of collecting chute is established in the outside of barrel. The device can realize the even stoving to the plastics son, and it can effectively avoid taking place the condition of coking at the stoving in-process.

Description

Plastic particle drying device

Technical Field

The utility model relates to a plastic pellet production facility technical field, concretely relates to plastic pellet drying device.

Background

Since the polymer plastic has many excellent properties, it is widely used in many fields. In the preparation process of the polymer plastic, the drying of plastic particles is a very important process. The existing drying equipment has unsatisfactory drying effect and long time consumption, and often, one part of plastic particles are not dried and the other part of plastic particles are coked.

Disclosure of Invention

Problem to above-mentioned prior art exists, the utility model provides a plastic pellet drying device, the device can realize the even stoving to the plastics, and it can effectively avoid taking place the condition of partial plastic pellet coking at the stoving in-process.

In order to achieve the purpose, the utility model provides a plastic particle drying device, which comprises a cylinder body and an annular material collecting groove; the cylinder is supported by the frame; a rotary material distributing mechanism is arranged above the inner part of the cylinder body, and a regular pyramid-shaped breathable supporting body formed by sequentially connecting three sieve plates is arranged below the inner part of the cylinder body;

the rotary material distribution mechanism consists of a material receiving hopper and a material distribution pipe fixedly connected to the lower opening end of the material receiving hopper, and the discharge end of the material distribution pipe extends obliquely outwards and downwards;

the center of the upper opening end of the barrel is provided with a shaft sleeve positioned above the material receiving hopper, and the shaft sleeve is fixedly connected with the upper opening end of the barrel through a plurality of radial beams; one of the cross beams is fixedly connected with a driving motor, and an output shaft of the driving motor is provided with a first belt pulley;

the lower end of a rotating shaft which is rotatably arranged in the shaft sleeve extends into the material receiving hopper and is fixedly connected with the inner side wall of the material receiving hopper through a plurality of inclined connecting rods, the upper end of the rotating shaft is fixedly sleeved with a second belt pulley, and the second belt pulley is connected with the first belt pulley through a belt;

the lower end of the barrel is connected with an inverted frustum-shaped cover body, the lower end of the cover body is connected with an air outlet end of a fan through a vertically arranged heating pipeline, a heating resistance wire is arranged in the heating pipeline, and the heating resistance wire is connected with an external power supply through a heating switch;

the breathable support body is fixedly connected with the inner side wall of the cover body through a plurality of inclined support rods; the lower end of the air-permeable support body extends to the outer side of the barrel body through an annular opening formed in the side wall of the barrel body, a plurality of circumferentially distributed vertical connecting rods are arranged at the annular opening, and the vertical connecting rods are used for connecting the barrel body above and below the annular opening;

the fixed cover of collecting groove is established in the outside of barrel, and is located the below of ventilative supporter lower extreme, and collecting groove is used for receiving by ventilative supporter exhaust material.

Preferably, the heating switch is a temperature control switch.

Preferably, the bottom plate of the material collecting groove is arranged in a manner that the inner side is higher than the outer side.

Preferably, the discharge end of the material distributing pipe is close to the center of the air-permeable supporting body.

In the utility model, the upper part of the cylinder body is provided with the rotary material distributing mechanism, so that the materials poured from the upper part of the material receiving hopper can be uniformly and circumferentially sprayed to the feeding end of the breathable supporting body in a uniform-speed rotating mode, and the purpose of fully evacuating the materials is achieved; the fan supplies an air source into the heating pipeline, and the heating pipeline is heated under the action of the heating resistance wires, so that hot air can be uniformly supplied upwards through the cover body and can perform sufficient heat exchange with falling materials, and moisture in plastic particles is removed; the breathable support body has a guiding effect on the materials, can extend the falling time of the materials, and can enable the discharged materials to reach the material collecting groove on the outer side of the cylinder body. The material distributing pipe is obliquely arranged and can evenly distribute materials fed by the material receiving hopper to the breathable supporting body in the circumferential direction.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. the device comprises a cylinder body, 2, a rack, 3, a material collecting groove, 4, a rotary material distributing mechanism, 5, a breathable supporting body, 6, a material collecting hopper, 7, a material distributing pipe, 8, a shaft sleeve, 9, a cross beam, 10, a driving motor, 11, a first belt pulley, 12, a rotating shaft, 13, an inclined connecting rod, 14, a second belt pulley, 15, a belt, 16, a cover body, 17, a heating pipeline, 18, a fan, 19, a heating resistance wire, 20, an inclined supporting rod, 21, an annular opening, 22 and a vertical connecting rod.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1, a plastic particle drying device comprises a cylinder 1 and an annular collecting trough 3; the cylinder 1 is supported by a frame 2; a rotary material distributing mechanism 4 is arranged above the inner part of the cylinder body 1, and a regular pyramid-shaped breathable supporting body 5 formed by sequentially connecting three sieve plates is arranged below the inner part;

the rotary material distribution mechanism 4 consists of a material receiving hopper 6 and a material distribution pipe 7 fixedly connected to the lower opening end of the material receiving hopper 6, and the discharge end of the material distribution pipe 7 obliquely extends outwards and downwards;

a shaft sleeve 8 positioned above the material receiving hopper 6 is arranged in the center of the upper opening end of the barrel body 1, and the shaft sleeve 8 is fixedly connected with the upper opening end of the barrel body 1 through a plurality of radial beams 9; one of the cross beams 9 is fixedly connected with a driving motor 10, and an output shaft of the driving motor 10 is provided with a first belt pulley 11;

the lower end of a rotating shaft 12 which is rotatably arranged in the shaft sleeve 8 extends into the material receiving hopper 6 and is fixedly connected with the inner side wall of the material receiving hopper 6 through a plurality of inclined connecting rods 13, a second belt pulley 14 is fixedly sleeved at the upper end of the rotating shaft, and the second belt pulley 14 is connected with the first belt pulley 11 through a belt 15;

the lower end of the barrel 1 is connected with an inverted frustum-shaped cover body 16, the lower end of the cover body 16 is connected with the air outlet end of a fan 18 through a vertically arranged heating pipeline 17, a heating resistance wire 19 is arranged in the heating pipeline 17, and the heating resistance wire 19 is connected with an external power supply through a heating switch;

the air-permeable supporting body 5 is fixedly connected with the inner side wall of the cover body 16 through a plurality of inclined supporting rods 20; the lower end of the air-permeable supporting body 5 extends to the outer side of the cylinder body 1 from an annular opening 21 formed in the side wall of the cylinder body 1, a plurality of circumferentially distributed vertical connecting rods 22 are arranged at the annular opening 21, and the vertical connecting rods 22 are used for connecting the cylinder body 1 above and below the annular opening 21;

the material collecting groove 3 is fixedly sleeved on the outer side of the barrel body 1 and is located below the lower end of the breathable supporting body 5, and the material collecting groove 3 is used for receiving materials discharged by the breathable supporting body 5.

The heating switch is a temperature control switch.

The bottom plate of the material collecting groove 3 is arranged in a manner that the inner part is high and the outer part is low.

The discharge end of the material distributing pipe 7 is close to the center of the air-permeable supporting body 5.

The rotary material distributing mechanism is arranged at the upper part of the cylinder body, so that materials poured from the upper part of the material receiving hopper can be uniformly and circumferentially sprayed to the feeding end of the breathable supporting body in a uniform-speed rotating mode, and the purpose of fully dispersing the materials is achieved; the fan supplies an air source into the heating pipeline, and the heating pipeline is heated under the action of the heating resistance wires, so that hot air can be uniformly supplied upwards through the cover body and can perform sufficient heat exchange with falling materials, and moisture in plastic particles is removed; the breathable support body has a guiding effect on the materials, can extend the falling time of the materials, and can enable the discharged materials to reach the material collecting groove on the outer side of the cylinder body. The material distributing pipe is obliquely arranged and can evenly distribute materials fed by the material receiving hopper to the breathable supporting body in the circumferential direction.

Claims

1. A plastic particle drying device comprises a cylinder body (1), wherein the cylinder body (1) is supported by a rack (2); it is characterized by also comprising an annular material collecting groove (3); a rotary material distributing mechanism (4) is arranged above the inner part of the cylinder body (1), and a regular pyramid-shaped ventilating support body (5) formed by sequentially connecting three sieve plates is arranged below the inner part;

the rotary material distribution mechanism (4) consists of a material receiving hopper (6) and a material distribution pipe (7) fixedly connected to the lower opening end of the material receiving hopper (6), and the discharge end of the material distribution pipe (7) obliquely extends towards the outer side and the lower part;

a shaft sleeve (8) positioned above the material receiving hopper (6) is arranged in the center of the upper opening end of the barrel body (1), and the shaft sleeve (8) is fixedly connected with the upper opening end of the barrel body (1) through a plurality of radial cross beams (9); one of the cross beams (9) is fixedly connected with a driving motor (10), and an output shaft of the driving motor (10) is provided with a first belt pulley (11);

the lower end of a rotating shaft (12) which is rotatably arranged in the shaft sleeve (8) extends into the material receiving hopper (6) and is fixedly connected with the inner side wall of the material receiving hopper (6) through a plurality of inclined connecting rods (13), the upper end of the rotating shaft is fixedly sleeved with a second belt pulley (14), and the second belt pulley (14) is connected with the first belt pulley (11) through a belt (15);

the lower end of the barrel (1) is connected with an inverted frustum-shaped cover body (16), the lower end of the cover body (16) is connected with the air outlet end of a fan (18) through a vertically arranged heating pipeline (17), a heating resistance wire (19) is arranged in the heating pipeline (17), and the heating resistance wire (19) is connected with an external power supply through a heating switch;

the air-permeable supporting body (5) is fixedly connected with the inner side wall of the cover body (16) through a plurality of inclined supporting rods (20); the lower end of the air-permeable supporting body (5) extends to the outer side of the cylinder body (1) through an annular opening (21) formed in the side wall of the cylinder body (1), a plurality of circumferentially distributed vertical connecting rods (22) are arranged at the annular opening (21), and the vertical connecting rods (22) are used for connecting the cylinder body (1) above and below the annular opening (21);

the material collecting groove (3) is fixedly sleeved on the outer side of the barrel body (1) and is located below the lower end of the breathable supporting body (5), and the material collecting groove (3) is used for receiving materials discharged by the breathable supporting body (5).

2. The plastic particle drying device as claimed in claim 1, wherein the heating switch is a temperature control switch.

3. A plastic particle drying apparatus as claimed in claim 1 or 2, wherein said collecting chute (3) is formed to be inclined to the inside of the bottom plate.

4. A plastic particle drying apparatus according to claim 3, wherein the discharge end of the material distributing pipe (7) is located near the center of the air permeable support (5).