CN211363103U - PE granule loading attachment - Google Patents

Abstract

A PE particle feeding device is used for solving the technical problem that the processing quality of a plastic product is influenced by dust attached to the surface of PE plastic particles in the process of conveying the PE plastic particles to processing equipment. Including a storage section of thick bamboo and a stereoplasm conveyer pipe of being connected and carrying PE granule level right with the storage section of thick bamboo output, the stereoplasm conveyer pipe includes the soaking dust removal section of buckling and buckling that turns back downwards and the stoving section of being connected with the soaking dust removal section of buckling, the soaking dust removal section of buckling and stoving section lateral wall are network structure, the soaking dust removal section of buckling below is equipped with open-top's water storage box, the soaking dust removal section of buckling is located the water storage box, the peripheral fixed cover of stoving section circumference is equipped with double-walled interbedded stoving section of thick bamboo, thereby form the intermediate layer cavity, the circumference inner wall of stoving section of thick bamboo is network structure, the water storage box outside is equipped with the hot-blast drying-machine of carrying to the intermediate layer cavity in with hot-blast, the utility model discloses can detach the dust on PE granule surface.

Description

PE granule loading attachment

Technical Field

The utility model relates to a PE granule processing technology field, concretely relates to PE granule loading attachment that can remove dust to PE granule when carrying out material loading processing to PE granule.

Background

Along with the rapid development of science and technology and the improvement of people's life, the plastic material has more promotion in the processingquality, and present plastic material article is widely used with advantages such as firm, durable, consequently the article of plastic material has become the essential important component in people's production life.

In the processing procedure of plastic articles, one processing procedure is to make the raw materials into PE plastic particles, and the PE plastic particles can become the processing materials of a plurality of subsequent processing procedures, in the subsequent processing steps, the PE plastic particles are transported to a predetermined processing equipment, because of the characteristics of light weight, easy rolling and the like of the PE plastic particles, a plurality of processing enterprises can not select a conveyor belt for conveying, and a plurality of enterprises generally select a hard conveying pipe for conveying the PE plastic particles, firstly the PE plastic particles are placed in a larger container, then the hard conveying pipe is connected with the output port of the container, PE plastic particles in the container are stably conveyed into the hard conveying pipe in a certain driving mode, and then the PE plastic particles are conveyed into the set processing equipment by the hard conveying pipe. The conveying mode can stably convey the PE plastic particles to the processing equipment.

However, in the processing method, some dust still adheres to the particle surfaces of the PE plastic particles during the processing, and the PE plastic particles adhered with the dust enter the processing equipment to be processed into certain semi-finished products or finished products, and due to the existence of the dust, the quality of the semi-finished products or finished products formed by processing can still be greatly affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is not enough to prior art, releases a PE granule loading attachment for thereby solve the PE plastic granule that mentions in the background art and carry the in-process PE plastic granule surface attachment of processing equipment to have the dust to influence the technical problem of plastic product processingquality.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a PE particle feeding device comprises a material storage cylinder capable of uniformly and quantitatively feeding PE particles outwards and a hard conveying pipe which is connected with the output end of the material storage cylinder and horizontally conveys the PE particles to the right in sequence according to the feeding sequence from left to right, the hard conveying pipe comprises a bending soaking dust removal section which is bent downwards and folded back and a drying section connected with the bending soaking dust removal section, the side walls of the bending water-soaking dust removal section and the drying section are both of a net structure, a water storage tank with an open top is arranged below the bending water-soaking dust removal section, the bending soaking dust removal section is positioned in the water storage tank, a drying cylinder with a double-wall interlayer is fixedly sleeved on the periphery of the drying section, so that an interlayer cavity is formed, the circumferential inner wall of the drying cylinder is of a net-shaped structure, and a hot air dryer which conveys hot air into the interlayer cavity is arranged on the outer side of the water storage tank so as to dry PE particles wetted by the water storage tank.

The working principle is as follows: placing PE particles into the material storage cylinder, uniformly and quantitatively discharging the PE particles from the material storage cylinder in a certain mode, feeding the PE particles into the hard conveying pipe, enabling the PE particles entering the hard conveying pipe to sequentially pass through the bending water immersion dust removal section according to a conveying sequence from left to right, injecting cleaning water into the water storage tank, enabling the PE particles passing through the bending water immersion dust removal section to be fully contacted with cleaning water in the water storage tank when passing through the water storage tank, cleaning dust attached to the surfaces of the PE particles by the cleaning water in the water storage tank, then sending the PE particles out of a pipe cavity of the bending water immersion dust removal section and entering a pipe cavity of the drying section, simultaneously conveying hot air into the interlayer cavity by the hot air dryer, blowing the hot air in the interlayer cavity onto the PE particles in the drying section through the inner wall of the drying cylinder, and enabling the hot air entering the drying section to pass through gaps among the PE particles and finally to be discharged from a net-shaped side wall of the drying section, therefore, the drying operation of the PE particles is realized, and then the PE particles are continuously conveyed rightwards and finally conveyed into processing equipment through a hard conveying pipe.

The utility model has the advantages that:

the utility model discloses set up respectively on the stereoplasm conveyer pipe and soaked dust removal section and the stoving section of buckling, soaked dust removal section below and set up the water storage box bending, set up a stoving section circumference periphery and dry a section to PE granule through hot air dryer will be located the stoving section is dried, has realized carrying the dust removal course of working to PE granule, thereby can improve the plastic semi-manufactured goods that processing formed or the off-the-shelf processingquality of plastic.

Drawings

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

fig. 2 is an enlarged schematic view of the structure at a in fig. 1.

Description of reference numerals: the device comprises a storage barrel 1, a hard conveying pipe 2, a bent water immersion dust removal section 2a, a drying section 2b, a water storage tank 3, a drying barrel 4, an interlayer cavity 4a, a hot air dryer 5, a water pump 6, a water outlet pipe 7, a bent drying reinforcement section 2c, an air supply pipe 8, an air supply hole 9, a first flow dividing rod 10, a second flow dividing rod 11, a motor 12, a horizontal screw rod 13, a discharge sheet 14, a feed inlet 15, a discharge plate 16, a supporting seat 17, an output pipe 18, a water pumping pipe 19, a sliding rail 20 and a sliding block 21.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1-2, a PE granule feeding device comprises, in order from left to right, a storage cylinder 1 for uniformly and quantitatively feeding PE granules outwards, and a rigid delivery pipe 2 connected to an output end of the storage cylinder 1 and horizontally delivering PE granules to the right, wherein the storage cylinder 1 is a horizontally disposed cylindrical cylinder, a motor 12 is fixed on the left side of the material storage barrel 1, the motor 12 is fixed on a supporting seat 17, the output end of the motor 12 is provided with a rotatable horizontal screw rod 13 which passes through the material storage barrel 1, the horizontal screw rod 13 is connected with a vertical material discharging sheet 14 through screw threads, the material discharging sheet 14 is matched with the inner diameter of the material storage barrel 1, the inner wall of the upper part of the storage barrel 1 is provided with a slide rail 20 parallel to the horizontal screw rod 13, the discharge sheet 14 is fixed with a slide block 21, and the slide block 21 is arranged in the slide rail 20 and can directionally slide along the length direction of the slide rail 20. The top of the storage cylinder 1 is provided with a feed inlet 15, the bottom of the storage cylinder 1 is clamped with a discharge plate 16 which is disassembled by clamping, the hard conveying pipe 2 comprises a bending water-soaking dust-removing section 2a which is bent downwards and folded back and a drying section 2b which is connected with the bending water-soaking dust-removing section 2a, the side walls of the bending water-soaking dust-removing section 2a and the drying section 2b are both of a net structure, the aperture of the mesh in the net structure of the side walls of the bending water-soaking dust-removing section 2a and the drying section 2b is smaller than the shortest side size of a PE particle structure so as to ensure that PE particles can not block the mesh in the net structure of the side walls of the bending water-soaking dust-removing section 2a, a water storage tank 3 with an open top is arranged below the bending water-soaking dust-removing section 2a, the bending water-soaking dust-removing section 2a is positioned in the water storage tank 3, and, thereby forming an interlayer cavity 4a, the circumferential inner wall of the drying cylinder 4 is of a net structure, a hot air dryer 5 for conveying hot air into the interlayer cavity 4a is arranged outside the water storage tank 3, and the output end of the hot air dryer 5 is connected with an output pipe 18 for supplying air into the interlayer cavity 4a so as to dry the PE particles moistened by the water storage tank 3. The intracavity of the bending soaking dust removal section 2a is dispersedly fixed with a plurality of second shunt rods 11, the second shunt rods 11 can divide PE particles entering the bending soaking dust removal section 2a into a plurality of strands, the process can realize the movement displacement of the PE particles in the bending soaking dust removal section 2a, and therefore the process can fully contact the PE particles with cleaning water in the water storage tank 3, and the dust removal efficiency of the surface of the PE particles is further improved.

The water storage tank 3 is fixed with the water pump 6 which is used for pumping cleaning water in the water storage tank 3, the input end of the water pump 6 is connected with the water pumping pipe 19, the water pumping pipe 19 extends into the water storage tank 3, the output end of the water pump 6 is connected with the hard water outlet pipe 7, the water outlet opening of the water outlet pipe 7 faces downwards and is positioned above the bending soaking dust removal section 2a and is close to the connection part of the bending soaking dust removal section 2a and the drying section 2b so as to spray water to the bending soaking dust removal section 2a, and the method is favorable for improving the circulation rate between cleaning water discharged from the water outlet of the water outlet pipe 7 and the surface of PE particles, so that the efficiency of flushing dust on the surface of the PE particles by the cleaning water discharged from the water outlet of the water outlet pipe 7 can be improved, and the dust removal effect is further. The water outlet of the water outlet pipe 7 is positioned in the boundary of the water storage tank 3, so that the cleaning water discharged from the water outlet is enabled to enter the water storage tank 3 again, and the cleaning water flowing out of the water outlet pipe 7 can enter the water storage tank 3 again by the mode, so that the recycling of the cleaning water is realized.

The drying device is characterized in that a bending drying reinforcing section 2c which is bent downwards and folded is further arranged on the right side of the drying section 2b on the hard conveying pipe 2, the bending drying reinforcing section 2c is of a net structure, the output end of the hot air dryer 5 is connected with an air supply pipe 8 matched with the bending drying reinforcing section 2c in shape, the air supply pipe 8 is communicated with an output pipe, the air supply pipe 8 is located below the bending drying reinforcing section 2c, the top of the air supply pipe 8 is provided with a plurality of air supply holes 9 blowing towards the bending drying reinforcing section 2c, and the drying efficiency of the surface of the PE particles is further improved through the matching of the bending drying reinforcing section 2c, the air supply pipe 8 and the air supply holes 9. The opening direction of each air supply hole 9 is against the conveying direction of the PE particles in the bent drying reinforcing section 2c, and the circulation rate between hot air and the surfaces of the PE particles can be improved by the mode, so that the moisture on the surfaces of the PE particles is brought out in an accelerating manner, and the drying efficiency of the surfaces of the PE particles is improved. The pipe cavity of the bending drying reinforcing section 2c is internally and dispersedly fixed with a plurality of first shunt rods 10, the first shunt rods 10 can divide PE particles entering the bending drying reinforcing section 2b into a plurality of strands, the moving displacement of the PE particles in the bending drying reinforcing section 2c can be realized in the process, so that the PE particles can be fully contacted with hot air discharged from the air supply holes 9 in the process, the drying efficiency of the surface of the PE particles is further improved, and in the same way, the mesh aperture in the side wall mesh structure of the bending drying reinforcing section 2c is smaller than the shortest side size of the side wall mesh structure of the PE particle structure, so that the PE particles cannot block meshes in the side wall mesh structure of the bending drying reinforcing section 2 c.

The working principle is as follows: the motor 12 is started, the horizontal screw rod 13 at the output end of the motor 12 rotates, so that the discharging sheet 14 in the storage cylinder 1 is driven to move left and right in the storage cylinder 1, when the discharging sheet 14 moves right, the discharging sheet 14 can extrude PE particles on the right side of the discharging sheet 14, so that the PE particles enter the hard conveying pipe 2 from the discharging port on the right side of the storage cylinder 1, the PE particles in the hard conveying pipe 2 sequentially enter the pipe cavity of the bending soaking dust removal section 2a, the PE particles in the pipe cavity of the bending soaking dust removal section 2a are fully contacted with the cleaning water injected into the water storage tank 3, the PE particles retain dust attached to the surface in the cleaning water in the water storage tank 3 in the conveying process of the bending soaking dust removal section 2a, and in the process, the PE particles are blocked by the second flow dividing rods 11 to form multi-flow dividing flows, this process enables further contacting of the PE particles with clean water. Then the PE particles enter the pipe cavity of the drying section 2b, the hot air dryer 5 conveys hot air into the interlayer cavity 4a under the action of the hot air dryer 5, the hot air in the interlayer cavity 4a directly contacts with the surface of the PE particles through the net-shaped structure of the inner wall of the drying cylinder 4, thereby achieving the processing process of drying the PE particles, then the PE particles are continuously conveyed rightwards and enter the tube cavity of the bending drying reinforcing section 2c, the PE particles in the tube cavity of the bending drying reinforcing section 2c are blocked by the first shunt rods 10 to form a plurality of shunt flows, meanwhile, the hot air dryer 5 conveys hot air into the air supply pipe 8, outputs the hot air through the air supply hole 9, contacts with the PE particles in the bent drying reinforcing section 2c, further dries the PE particles, and finally conveys the PE particles to processing equipment through the right end of the hard conveying pipe 2.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (7)

1. The utility model provides a PE granule loading attachment, is according to from a left side to the defeated material order on the right side including in proper order that can even ration outwards carry storage cylinder (1) and one with storage cylinder (1) output be connected and with the stereoplasm conveyer pipe (2) that the PE granule level was carried right, its characterized in that: stereoplasm conveyer pipe (2) include the soaking dust removal section of buckling (2a) that buckles downwards and turn back and drying section (2b) of being connected with the soaking dust removal section of buckling (2a), should buckle soaking dust removal section (2a) and drying section (2b) lateral wall and be network structure, it is equipped with open-top's water storage box (3) to buckle soaking dust removal section (2a) below, and this it soaks dust removal section (2a) and is located water storage box (3) to buckle, the fixed cover of drying section (2b) circumference periphery is equipped with double-walled interbedded drying tube (4) to form intermediate layer cavity (4a), the circumference inner wall of this drying tube (4) is network structure, water storage box (3) outside is equipped with carries hot-blast drying machine (5) to intermediate layer cavity (4a) in with hot-blast to will be dried through moist PE granule of water storage box (3).

2. A PE particle loading apparatus as claimed in claim 1, wherein: the water storage tank (3) is fixed with at the top with wasing water pump (6) that water pump (3) internal cleaning water took out, and the outlet pipe (7) of a stereoplasm is connected to the output of this water pump (6), and the delivery port opening of this outlet pipe (7) is down and is located the bending and soaks dust removal section (2a) top to be close to the junction of bending and soaking dust removal section (2a) and stoving section (2b), with to spray water on bending and soaking dust removal section (2 a).

3. A PE particle loading apparatus as claimed in claim 2, wherein: the water outlet of the water outlet pipe (7) is positioned in the boundary of the water storage tank (3) so that the cleaning water discharged from the water outlet enters the water storage tank (3) again.

4. A PE particle charging apparatus as set forth in any one of claims 1-3, characterized in that: the drying device is characterized in that a bending and drying reinforcing section (2c) which is bent downwards and folded is further arranged on the right side of the drying section (2b) on the hard conveying pipe (2), the bending and drying reinforcing section (2c) is of a net-shaped structure, an air supply pipe (8) matched with the bending and drying reinforcing section (2c) in shape is connected to the output end of the hot air dryer (5), the air supply pipe (8) is located below the bending and drying reinforcing section (2c), and a plurality of air supply holes (9) blowing towards the bending and drying reinforcing section (2c) are formed in the top of the air supply pipe (8).

5. A PE particle feeding device according to claim 4, wherein: the opening direction of each air supply hole (9) is opposite to the conveying direction of the PE particles in the bent drying and reinforcing section (2 c).

6. A PE particle feeding device according to claim 5, wherein: a plurality of first shunt rods (10) are fixed in the pipe cavity of the bending drying reinforcing section (2c) in a dispersing way.

7. A PE particle charging apparatus as set forth in any one of claims 1-3, characterized in that: a plurality of second shunt rods (11) are fixed in the pipe cavity of the bending water-soaking dust-removing section (2a) in a dispersing way.

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