CN219446047U

CN219446047U - Plastic extruder hopper

Info

Publication number: CN219446047U
Application number: CN202320018658.XU
Authority: CN
Inventors: 汤晓飞
Original assignee: Nanjing Zeteng Electromechanical Equipment Co ltd
Current assignee: Nanjing Zeteng Electromechanical Equipment Co ltd
Priority date: 2023-01-05
Filing date: 2023-01-05
Publication date: 2023-08-01
Anticipated expiration: 2033-01-05

Abstract

The utility model relates to the technical field of hoppers, in particular to a plastic extruder hopper, which comprises a hopper body and a feed pipe communicated with the lower end of the hopper body, wherein a cover is connected above the hopper body through bolts, an anti-blocking assembly is arranged inside the hopper body, the anti-blocking assembly comprises a motor, a rotating rod and stirring blades, a hinged plate for shielding the hopper body is arranged on the left side above the cover, a connecting box is connected to the right side of the hopper body, an air suction assembly for absorbing dust in the hopper body is arranged between the connecting box and the hopper body, the air suction assembly comprises a filter plate, a screen plate, a drawer, an air outlet pipe, a first connecting pipe, a second connecting pipe, an air inlet pipe and an air pump, the motor is arranged on the right side above the cover, the rotating rod is connected to the power output end of the motor and inserted into the hopper body, the rotating rod is obliquely arranged, the stirring blades are provided with a plurality of blocks and are connected to the outside of the rotating rod, and through holes are formed in the left side and right side of the hopper body; the utility model can absorb and collect the dust in the hopper well, and avoid the dust from affecting the health of users and the environment around the plastic extruder.

Description

Plastic extruder hopper

Technical Field

The utility model relates to the technical field of hoppers, in particular to a plastic extruder hopper.

Background

The plastic extruder is used for carrying out extrusion molding processing on plastics, the plastic extruder is used for feeding the plastics to the inside of the plastic extruder through a hopper, the plastic raw material particles are transported, compressed and melted through a screw in the plastic extruder, the melted raw material particles can be extruded by the screw to enter a die for molding, the plastic extruder is connected with a plurality of molded auxiliary machines to produce pipes, bars and the like, the plastic extruder hopper is an important feeding part, the plastic extruder hopper is usually communicated with the upper end of the plastic extruder, the plastic raw material particles are added into the plastic extruder from the upper end of the plastic extruder hopper, the plastic raw material particles can enter the plastic extruder along the plastic extruder hopper, the subsequent processing is convenient, the plastic extruder hopper is usually funnel-shaped in shape, the addition of the plastic raw material particles is convenient, some chips and dust are usually present in the plastic raw material particles, the existing plastic extruder hopper is easy to float out of the hopper after the plastic raw material particles are added into the plastic extruder hopper, the dust in the plastic raw material particles is easy to float in the air, at the moment, the dust in the plastic raw material particles is easy to be inhaled by a user who is charged into the plastic extruder hopper, the dust is easy to influence the environment around the plastic extruder, the environment is easy to float the extruder, and the dust is influenced by the user around the plastic extruder.

Disclosure of Invention

The utility model aims to solve the problems and the defects, and provides a plastic extruder hopper which can better absorb and collect dust in the hopper and avoid the influence of dust on the health of a user and the environment around the plastic extruder.

A plastic extruder hopper comprises a hopper body and a feeding pipe communicated with the lower end of the hopper body;

the upper part of the bucket body is connected with a cover through a bolt, an anti-blocking assembly is arranged in the bucket body and comprises a motor, a rotating rod and stirring blades;

the utility model discloses a dust absorbing device, including lid, air inlet pipe, air pump, the articulated slab that is used for sheltering from the bucket body is installed in lid top left side, the bucket body right side is connected with the junction box, be equipped with the subassembly of breathing in that is used for absorbing the inside dust of bucket body between junction box and the bucket body, the subassembly of breathing in includes filter plate, otter board, drawer, outlet duct, connecting pipe one, connecting pipe two, intake pipe and air pump.

Preferably, the motor is installed on the right side above the cover, the rotating rod is connected to the power output end of the motor and inserted into the bucket body, the rotating rod is obliquely arranged, and the stirring blades are provided with a plurality of stirring blades and are connected to the outside of the rotating rod.

Preferably, the left side and the right side of the bucket body are respectively provided with a through hole, and the net plate is provided with two net plates and is respectively connected with the insides of the two through holes.

Preferably, two air outlet pipes are arranged and are respectively communicated with the left side and the right side of the bucket body, and the air outlet pipes are positioned outside the through holes.

Preferably, the air inlet pipe is communicated with the left side above the connecting box, the air pump is arranged on the right side above the connecting box, the second connecting pipe is communicated with the upper end of the air pump, and the first connecting pipe is communicated between the right side of the air pump and the connecting box.

Preferably, the filter plate is connected inside the connection box, the drawer is located inside the connection box, and the front end of the drawer penetrates out of the connection box.

The beneficial effects are that:

1. the plastic extruder hopper is communicated with the feeding end of the plastic extruder and is used for feeding the plastic extruder, the hinged plate is firstly opened, the left end of the cover can be exposed at the moment, so that the left end of the hopper body connected with the hinged plate is exposed, plastic particles are added through the left end of the cover, at the moment, the plastic particles can enter the hopper body and flow into the plastic extruder through the feeding pipe, after the plastic particles are added, a user can cover the hinged plate, at the moment, the hinged plate can shade the cover and the upper end of the hopper body, dust and impurities outside the plastic particles are prevented from entering the hopper body through the hinged plate of the cover, and therefore the pollution of the dust and the impurities to raw material particles is avoided even after the dust and the impurities enter the hopper body and enter the plastic extruder;

2. the air pump is connected with an external power supply, the air inlet pipe and the two air outlet pipes are communicated through the hose, the connecting box can be communicated with the inside of the bucket body through the air inlet pipe, the air inside the bucket body is sucked through the connecting pipe, at the moment, the air inside the bucket body can enter the connecting box through the air outlet pipe, the hose and the air inlet pipe, at the moment, dust inside the plastic raw materials enters the connecting box through the screen plate along with the air, the air enters the connecting box and is filtered through the filter plate after entering the connecting box, at the moment, the dust in the air can be filtered and sucked into the air pump, the air can be discharged through the connecting pipe at the upper end of the air pump, and therefore the dust can fly out from the bucket body to influence the environment around the plastic extruder when the plastic raw materials are prevented from being added, and the health of a user and the environment around the plastic extruder are prevented from being influenced by dust.

Drawings

FIG. 1 is a schematic overall perspective view of the present utility model;

FIG. 2 is a schematic view of the whole front cross-section structure of the present utility model;

fig. 3 is a schematic view of a partial enlarged structure of fig. 2 according to the present utility model.

The marks in the figure: the device comprises a bucket body 101, a cover 102, a motor 103, a rotating rod 104, a hinged plate 105, stirring blades 106, a connecting box 107, a filter plate 108, through holes 109, a screen 110, an air outlet pipe 111, a drawer 112, a connecting pipe I113, a connecting pipe II 114, an air inlet pipe 115, an air pump 116 and a feeding pipe 117.

Detailed Description

As shown in fig. 1 to 3, the present application is a plastic extruder hopper, comprising a hopper body 101 and a feed pipe 117 communicating with the lower end thereof;

the upper part of the bucket body 101 is connected with a cover 102 through a bolt, an anti-blocking component is arranged in the bucket body 101 and comprises a motor 103, a rotating rod 104 and stirring blades 106;

a hinged plate 105 for shielding the bucket body 101 is arranged on the left side above the cover 102, a connecting box 107 is connected to the right side of the bucket body 101, an air suction component for absorbing dust in the bucket body 101 is arranged between the connecting box 107 and the bucket body 101, and the air suction component comprises a filter plate 108, a screen plate 110, a drawer 112, an air outlet pipe 111, a first connecting pipe 113, a second connecting pipe 114, an air inlet pipe 115 and an air pump 116;

the plastic particle adding step into the plastic extruder hopper is as follows:

the plastic extruder hopper is communicated with the feeding end of the plastic extruder and is used for feeding the inside of the plastic extruder, as the hinged plate 105 for shielding the hopper body 101 is arranged on the left side above the cover 102, the hinged plate 105 is firstly opened, the left end of the cover 102 can be exposed at the moment, the left end of the inside of the hopper body 101 connected with the hinged plate is exposed, plastic particles are added through the left end of the inside of the cover 102, and at the moment, the plastic particles can enter the inside of the hopper body 101 and flow into the inside of the plastic extruder through the feeding pipe 117;

the motor 103 is arranged on the right side above the cover 102, the rotating rod 104 is connected to the power output end of the motor 103 and is inserted into the bucket body 101, the rotating rod 104 is obliquely arranged, and the stirring blades 106 are provided with a plurality of stirring blades and are all connected to the outside of the rotating rod 104;

the stirring assembly is used as follows:

firstly, the motor 103 is connected with an external power supply, after a user adds plastic particles into the bucket body 101 according to the steps, the motor 103 can drive the rotating rod 104 at the power output end of the motor to rotate, the stirring blade 106 outside the rotating rod 104 can rotate, at the moment, the stirring blade 106 can stir the plastic particles added into the bucket body 101, so that a good stirring effect is achieved, the plastic particles are not easy to accumulate at one place after being stirred, and the plastic particles are prevented from being blocked in the bucket body 101;

after the plastic particles are added, a user can cover the hinged plate 105, at the moment, the hinged plate 105 can shield the cover 102 and the upper end of the hopper body 101, so that dust and impurities outside the plastic particles are prevented from entering the inside of the hopper body 101 through the hinged plate 105 of the cover 102 after the plastic particles are added, and further, the dust and impurities are prevented from entering the hopper body 101 and even entering the inside of the plastic extruder to pollute the raw material particles;

the left side and the right side of the bucket body 101 are respectively provided with a through hole 109, and the two screen plates 110 are respectively connected to the inside of the two through holes 109;

two air outlet pipes 111 are respectively communicated with the left side and the right side of the bucket body 101, and the air outlet pipes 111 are positioned outside the through holes 109;

the air inlet pipe 115 is communicated with the left side above the connecting box 107, the air pump 116 is arranged on the right side above the connecting box 107, the second connecting pipe 114 is communicated with the upper end of the air pump 116, and the first connecting pipe 113 is communicated between the right side of the air pump 116 and the connecting box 107;

the filter plates 108 are connected to the inside of the connecting box 107, the drawers 112 are positioned in the connecting box 107, and the front ends of the drawers 112 penetrate out of the connecting box 107;

the steps of the air suction assembly are as follows:

the air pump 116 is connected with an external power supply, the air inlet pipe 115 and the two air outlet pipes 111 are communicated through a hose, the two air outlet pipes 111 are arranged above the connecting box 107 and are respectively communicated with the left side and the right side of the hopper body 101, the air outlet pipes 111 are positioned outside the through holes 109, the connecting box 107 can be communicated with the inside of the hopper body 101 through the air inlet pipe 115, the hose and the air outlet pipes 111, the connecting pipe II 114 is communicated with the upper end of the air pump 116, the connecting pipe I113 is communicated between the right side of the air pump 116 and the connecting box 107, the air pump 116 can suck air in the inside of the connecting box 107 through the connecting pipe I113, at the moment, the air in the hopper body 101 can enter the inside of the connecting box 107 through the air outlet pipes 111, the hose and the air inlet pipe 115, and the mesh diameter of the mesh plate 110 is smaller than the size of plastic raw material particles, at the moment, dust in the plastic raw material can enter the inside the connecting box 107 through the mesh plate 110, and air enters the inside the connecting box 107 through the filter plate 108 for filtering, at the moment, dust in the air can be filtered and sucked into the air pump 116, and the air can be discharged through the connecting pipe I113, and the air can be discharged out of the connecting pipe II, thereby avoiding the air from the surrounding environment of the plastic hopper 101 from affecting the environment, and the health of a user, and the environment is prevented from being influenced by the extrusion of the plastic hopper;

the dust filtered by the filter plate 108 can enter the drawer 112 under the action of gravity, a user pulls the drawer 112 out of the connecting box 107 to pour the dust in the drawer 112 into the garbage can, and inserts the drawer 112 back into the connecting box 107 to enable the drawer 112 to continue to store the dust, and after the user pulls the drawer 112 out, the filter plate 108 is wiped through the opening at the drawer 112 of the connecting box 107, so that the effect of cleaning the filter plate 108 is achieved, and the filter plate 108 is prevented from being blocked to influence the filtration of the dust.

Claims

1. A plastic extruder hopper, comprising a hopper body (101) and a feed pipe (117) communicated with the lower end of the hopper body, characterized in that:

a cover (102) is connected above the bucket body (101) through a bolt, an anti-blocking assembly is arranged inside the bucket body (101), and the anti-blocking assembly comprises a motor (103), a rotating rod (104) and stirring blades (106);

the novel dust collector is characterized in that a hinged plate (105) used for shielding the bucket body (101) is arranged on the left side above the cover (102), the right side of the bucket body (101) is connected with a connecting box (107), an air suction component used for absorbing dust inside the bucket body (101) is arranged between the connecting box (107) and the bucket body (101), and the air suction component comprises a filter plate (108), a net plate (110), a drawer (112), an air outlet pipe (111), a first connecting pipe (113), a second connecting pipe (114), an air inlet pipe (115) and an air pump (116).

2. A plastic extruder hopper as claimed in claim 1 wherein: the motor (103) is arranged on the right side above the cover (102), the rotating rod (104) is connected to the power output end of the motor (103) and is inserted into the bucket body (101), the rotating rod (104) is obliquely arranged, and the stirring blades (106) are provided with a plurality of stirring blades and are all connected to the outside of the rotating rod (104).

3. A plastic extruder hopper as claimed in claim 1 wherein: the left side and the right side of the bucket body (101) are respectively provided with through holes (109), and the screen plate (110) is provided with two screen plates and is respectively connected with the insides of the two through holes (109).

4. A plastic extruder hopper as claimed in claim 3 wherein: two air outlet pipes (111) are arranged and are respectively communicated with the left side and the right side of the bucket body (101), and the air outlet pipes (111) are positioned outside the through holes (109).

5. A plastic extruder hopper as recited in claim 4 wherein: the air inlet pipe (115) is communicated with the left side above the connecting box (107), the air pump (116) is arranged on the right side above the connecting box (107), the second connecting pipe (114) is communicated with the upper end of the air pump (116), and the first connecting pipe (113) is communicated between the right side of the air pump (116) and the connecting box (107).

6. A plastic extruder hopper as claimed in claim 1 wherein: the filter plate (108) is connected to the inside of the connecting box (107), the drawer (112) is positioned in the connecting box (107), and the front end of the drawer (112) penetrates out of the connecting box (107).