CN110815620A

CN110815620A - Plastic processing wavy compounding mechanism

Info

Publication number: CN110815620A
Application number: CN201911065115.8A
Authority: CN
Inventors: 李�杰
Original assignee: Hangzhou Xinhe Engineering Management Consulting Co Ltd
Current assignee: GUANGDONG GUANG SO TECHNOLOGY Co.,Ltd.
Priority date: 2019-11-04
Filing date: 2019-11-04
Publication date: 2020-02-21
Anticipated expiration: 2039-11-04
Also published as: CN112140381A; CN110815620B; CN112140381B

Abstract

The invention relates to the field of plastic processing, in particular to a plastic processing wavy mixing mechanism which comprises a supporting mechanism, a blanking mechanism, a feeding mechanism, a mixing mechanism, a stirring mechanism, a control mechanism and a limiting mechanism, wherein the blanking mechanism is arranged on the supporting mechanism; the top sliding connection of box has feed mechanism, the inside sliding connection of box has the compounding mechanism of contradicting with feed mechanism, after filling up the plastic granules to feed mechanism's inside, promote the handle and realize feed mechanism and conflict with the compounding board that is wave structure, further realized that the inside plastics that is located feed mechanism are even the surface that drops compounding mechanism, feed mechanism conflicts compounding mechanism when not reinforced, avoid compounding mechanism to take place rotatory plastics to spill, stop gear and box sliding connection when the compounding, cooperation feed mechanism is spacing to compounding mechanism, it inclines to avoid compounding mechanism to take place, deviate from box pulling stop gear when the unloading, realize that stop gear and box separation no longer carry on spacingly to compounding mechanism, do benefit to the unloading.

Description

Plastic processing wavy compounding mechanism

Technical Field

The invention relates to the field of plastic processing, in particular to a wave type mixing mechanism for plastic processing.

Background

Plastics are high molecular compounds obtained by polymerizing monomers by addition polymerization or polycondensation, which have a moderate deformation resistance between fibers and rubber, and are composed of synthetic resins, fillers, plasticizers, stabilizers, lubricants, colorants and other additives.

However, when the existing wet granular plastic is mixed, the wet granular plastic is directly poured into the stirring barrel for mixing, the volume of the stirring barrel is small, the contact area between the stirring blades positioned in the stirring barrel and the wet granular material is small, and layering is easily formed during stirring, so that the plastic mixing is not uniform, and the processing of the plastic is influenced; the granular plastic passing through the stirring barrel passes through the tubular blanking pipe during blanking, and the wet granular plastic is easily adhered to the blanking pipe, so that the blanking pipe is blocked, and the blanking speed is influenced; and all reinforced at the top of agitator when reinforced to agitator inside, the inside material of adding the agitator piles up together, inconvenient material loading, also the stirring of inconvenient plastics.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a wave type mixing mechanism for plastic processing.

The technical scheme adopted by the invention for solving the technical problems is as follows: a plastic processing wavy material mixing mechanism comprises a supporting mechanism, a blanking mechanism, a loading mechanism, a material mixing mechanism, a stirring mechanism, a control mechanism and a limiting mechanism; be used for realizing supporting whole mechanism install at supporting mechanism's top and be used for carrying out the compounding to plastics compounding mechanism, compounding mechanism's one end install with sliding connection between the supporting mechanism stop gear, supporting mechanism's top sliding connection has feed mechanism, feed mechanism's lateral wall is installed and is used for controlling the plastics unloading control mechanism, mixing mechanism's inside equidistance is installed and is used for carrying out the rabbling mechanism that shakes to plastics, supporting mechanism's lateral wall install be used for the unloading, with control mechanism contradicts unloading mechanism.

Specifically, the supporting mechanism comprises a box body and a support, the mixing mechanism is installed in the box body, and the support is installed at the four corners of the bottom of the box body.

Specifically, the material mixing mechanism comprises an electric push rod, a material mixing plate, a fixed frame, a material mixing groove, a pressure spring and a sliding column, wherein the electric push rod is arranged on one side surface of the hollow box body, one end of the electric push rod extends into the box body, the fixed frame is placed in the box body, the two sides of the fixing frame are welded with the sliding columns in a cylindrical structure, the opposite ends of the two sliding columns are welded with the side wall of the fixing frame, one of them the traveller with one end with electric putter's one end fixed connection, the welding of the horizontal equidistance of fixed frame has and is wave structure the flitch that mixes, it is a plurality of the surface of mixing the flitch forms and is used for placing plastic granules the compounding groove deviates from electric putter one side the medial surface of box install relatively with fixed frame is contradicted the pressure spring.

Specifically, control mechanism includes flange, control panel, first spring and discharge opening, one of them lateral wall border department of fixed frame about the compounding groove corresponds, is the arc structure the discharge opening, the lateral wall equidistance sliding connection of fixed frame have with the discharge opening corresponds the control panel, it is a plurality of the top of control panel with all install between the top of fixed frame first spring, it is a plurality of the bottom welding of control panel has the bottom to be the arc structure the flange, the flange runs through the bottom of compounding board.

It is specific, rabbling mechanism includes axle sleeve, connecting axle, pendulum rod and stirring leaf, and is a plurality of the welding of the inner wall equidistance of material mixing plate has and is cylindrical structure the connecting axle, it is a plurality of the surface equidistance of connecting axle rotates and is connected with the axle sleeve, it is a plurality of the welding of the bottom of axle sleeve has the pendulum rod, it is a plurality of the welding of the bottom of pendulum rod has the side to be arc structure, the bottom is the sawtooth structure the stirring leaf.

Specifically, stop gear includes connecting plate, gag lever post and second spring, deviates from electric putter one end the traveller extends to the outside of box is located the box outside the skin weld of traveller has the connecting plate, the surface of connecting plate about traveller symmetry sliding connection has the gag lever post, two are "Y" shape structure the top of gag lever post is equipped with two sets ofly the second spring, two sets of the one end of second spring with the gag lever post welding, two the other end of second spring with the lateral wall welding of connecting plate, two the gag lever post with sliding connection between the box.

Specifically, unloading mechanism includes drainage plate and lower hopper, the lateral wall of box is the slope welding and is connected lower hopper is located inside the box the bottom welding of lower hopper has the drainage plate, the drainage plate is located the bottom of flange.

Specifically, the feeding mechanism comprises rollers, chutes, handles, a feeding hopper, a top plate, a bottom plate, a discharging chute, a rotating shaft, a baffle plate, a sealing plate, torsion springs and protrusions, the chutes are oppositely formed in the edge of the surface of the box body, the two rollers are slidably connected inside the chutes, the protrusions which are in rolling connection with the rollers are arranged at equal intervals on the top of the box body, the two rollers are arranged at the bottom of the feeding hopper with the side surface in an inverted trapezoidal structure, the discharging chute is formed in the bottom of the feeding hopper, the width of the discharging chute is equal to one half of the width of the discharging chute, the rotating shaft is rotatably connected to one half of the bottom of the feeding hopper, the two torsion springs are wound on the surface of the rotating shaft, one ends of the two torsion springs are fixed at the bottom of the feeding hopper, and the other ends of the two torsion springs are fixed on, the lateral wall welding of pivot has and is located the feed chute bottom the closing plate, the bottom welding of pivot has the baffle, the baffle with contained angle between the closing plate is 85 degrees, is located the feeder hopper bottom the top welding of fixed frame has the bottom plate, the bottom welding of feeder hopper have with the bottom plate is contradicted the roof, the top surface height of mixing the flitch is greater than the bottom surface height of baffle.

The invention has the beneficial effects that:

(1) the invention relates to a plastic processing wavy material mixing mechanism, wherein the top of a box body is slidably connected with a feeding mechanism, the interior of the box body is slidably connected with a material mixing mechanism which is abutted against a feeding mechanism, after plastic particles are filled in the feeding mechanism, a handle is pushed to realize that the feeding mechanism is abutted against a material mixing plate with a wavy structure, further, the plastic in the feeding mechanism uniformly falls onto the surface of the material mixing mechanism, the feeding mechanism is abutted against the material mixing mechanism when not feeding, the plastic splashing caused by the rotation of the material mixing mechanism is avoided, a limiting mechanism which is slidably connected with the material mixing mechanism is slidably connected with one side of the box body, the limiting mechanism is slidably connected with the box body when mixing, the material mixing mechanism is limited by matching with the feeding mechanism, the inclination of the material mixing mechanism is avoided, the limiting mechanism is pulled away from the box body when discharging, the limiting mechanism is separated from the box body, and the material mixing mechanism is not limited any, the blanking is facilitated; a stirring mechanism is arranged in the mixing tank, and the stirring mechanism swings to drive the stirring mechanism to swing so as to stir wet plastic particles in the mixing mechanism, so that the particles are prevented from being bonded together, and uniform mixing is realized; namely: after the plastic particles with moisture are fed by the feeding mechanism, the feeding mechanism is moved to the end part of the box body, the electric push rod is connected with a power supply, the electric push rod pushes one of the sliding columns, the two sliding columns slide on the side surface of the box body, and the fixing frame further shakes in the box body, the material is shaken in the mixing groove in the process of turning the fixing frame, and the material mixing plate is in a wave-shaped structure, the granular plastic cups in the mixing groove are shaken and turned over when the fixing frame moves to the maximum value, the fixed frame is limited by the feeding mechanism and the limiting mechanism when sliding in the box body, so that the mixing plate is prevented from overturning, plastic particles in the mixing groove are prevented from splashing, the wavy mixing plate increases the contact area of plastic particles, enlarges the mixing range of the plastic and ensures that the plastic is mixed more uniformly; the sealing plate seals the blanking groove when feeding materials into the feeding hopper, the materials in the feeding hopper are prevented from falling off, the handle is pushed to realize that the roller rolls in the sliding groove when feeding materials, further, the baffle plate is abutted to the mixing plate with a wave-shaped structure when the roller slides in the sliding groove, the sealing plate is opened when the baffle plate is abutted to the mixing plate, the torsion spring is further contracted, the plastic in the feeding hopper flows into the mixing groove when the sealing plate is opened, the plastic can be prevented from splashing because the length of the blanking groove is equal to that of the mixing groove, the plastic is uniformly sprayed into the mixing groove, the mixing is facilitated, and the included angle between the baffle plate and the sealing plate is proper, so that the sealing plate can continuously move to the bottom of the feeding hopper when moving the feeding hopper to the bottom plate direction, the baffle is prevented from blocking the movement of the feed hopper; realized fixed frame at the inside of box along side direction reciprocating motion behind electric putter switch on, and then at fixed frame wobbling in-process because the gravity of pendulum rod and stirring leaf, further because rotate between axle sleeve and the connecting axle and be connected, so the stirring leaf is stirred by the plastics that the swing will be located mixing tank inside, makes the more even that plastics mix.

(2) According to the plastic processing wavy material mixing mechanism, the blanking mechanism located at the bottom of the material mixing mechanism is mounted on the side wall of the box body, the limiting mechanism is rotated after being separated from the box body, so that the material mixing mechanism is inclined, and further, after the material mixing mechanism is abutted against the blanking mechanism, the control mechanism located inside the material mixing mechanism is opened, so that mixed plastic flows into the blanking mechanism from the material mixing mechanism, blanking is facilitated, and the blanking speed is increased; namely: when the plastic particles in the material mixing groove are mixed, the back of the plastic particles is pulled away from the electric push rod to pull the limiting rod fixing frame to rotate in the box body, the connecting plate is rotated anticlockwise, when the material mixing plate inclines to a certain angle, the convex plate is abutted against one end of the blanking mechanism, the convex plate is further abutted against one end of the blanking mechanism, the control plate is further moved away from one end of the blanking mechanism, the first spring is opened, finally, the discharge hole in the side wall of the material mixing plate is opened, the plastic particles in the material mixing plate are further moved to the inside of the blanking mechanism along with the inclination of the fixing frame, and the rapid blanking is facilitated; after the flange supported with the drainage board takes place, continued to rotate the connecting plate and realized that the flange released the top of discharge opening with the control panel, so the inside plastics of compounding groove is poured, and the plastics poured flows the inside of hopper down through the drainage board, convenient quick unloading.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of a wave-type mixing mechanism for plastic processing according to the present invention;

FIG. 2 is a schematic view of a connecting structure of the base plate and the mixing mechanism shown in FIG. 1;

FIG. 3 is an enlarged view of portion A of FIG. 2;

FIG. 4 is a schematic view of a connecting structure of the mixing mechanism and the stirring mechanism shown in FIG. 1;

FIG. 5 is a schematic structural view of the feeding mechanism shown in FIG. 1;

FIG. 6 is a schematic view of a connection structure between the box body and the feeding mechanism shown in FIG. 1;

FIG. 7 is a schematic cross-sectional view of the loading mechanism shown in FIG. 1;

fig. 8 is an enlarged view of the portion B shown in fig. 7.

In the figure: 1. the device comprises a supporting mechanism, 11, a box body, 12, a bracket, 2, a blanking mechanism, 21, a drainage plate, 22, a blanking hopper, 3, a feeding mechanism, 31, a sliding block, 32, a sliding groove, 33, a handle, 34, a feeding hopper, 35, a top plate, 36, a bottom plate, 37, a blanking groove, 38, a rotating shaft, 39, a baffle plate, 39a, a sealing plate, 39b, a torsion spring, 39c, a protrusion, 4, a mixing mechanism, 41, an electric push rod, 42, a mixing plate, 43, a fixing frame, 44, a mixing groove, 45, a pressure spring, 46, a sliding column, 5, a mixing mechanism, 51, a shaft sleeve, 52, a connecting shaft, 53, a swinging rod, 54, a mixing blade, 6, a control mechanism, 61, a convex plate, 62, a control plate, 63, a first spring, 64, a discharging hole, 7, a limiting mechanism, 71, a connecting plate, 72, a limiting rod.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-8, the wave-type mixing mechanism for plastic processing according to the present invention includes a supporting mechanism 1, a blanking mechanism 2, a feeding mechanism 3, a mixing mechanism 4, a stirring mechanism 5, a control mechanism 6, and a limiting mechanism 7; be used for realizing supporting whole mechanism the top of supporting mechanism 1 is installed and is used for carrying out the compounding to plastics compounding mechanism 4, compounding mechanism 4 one end install with sliding connection between the supporting mechanism 1 stop gear 7, the top sliding connection of supporting mechanism 1 has feed mechanism 3, the lateral wall of feed mechanism 3 is installed and is used for controlling the plastics unloading control mechanism 6, the inside equidistance of compounding mechanism 4 is installed and is used for carrying out the rabbling mechanism 5 that shakes to plastics, the lateral wall of supporting mechanism 1 install be used for the unloading, with control mechanism 6 contradicts unloading mechanism 2.

Specifically, supporting mechanism 1 includes box 11 and support 12, compounding mechanism 4 install in the inside of box 11, install in the bottom four corners department of box 11 support 12 the bottom installation of box 11 is four support 12 has realized the support to whole mechanism.

Specifically, the mixing mechanism 4 includes an electric push rod 41, a mixing plate 42, a fixed frame 43, a mixing groove 44, a pressure spring 45 and a sliding column 46, the electric push rod 41 is installed on one side surface of the hollow box body 11, one end of the electric push rod 41 extends into the box body 11, the fixed frame 43 is placed inside the box body 11, the sliding column 46 with a cylindrical structure is welded on two sides of the fixed frame 43, opposite ends of the two sliding columns 46 are welded with a side wall of the fixed frame 43, one end of each of the sliding columns 46 is fixedly connected with one end of the electric push rod 41, the mixing plate 42 with a wave-shaped structure is welded on the fixed frame 43 at equal intervals in the transverse direction, the mixing groove 44 for placing plastic particles is formed on the surface of a plurality of the mixing plates 42, the pressure spring 45 which is abutted against the fixed frame 43 is installed on the inner side surface of the box body 11 on one side of the electric push rod 41, after the feeding mechanism 3 discharges the wet plastic particles, the feeding mechanism 3 is moved to the end of the box body 11, the electric push rod 41 is powered on to push the electric push rod 41 to push one of the sliding columns 46, further, two sliding columns 46 slide on the side surface of the box body 11, and the fixing frame 43 rocks inside the box body 11, so that the materials rock inside the material mixing groove 44 in the process of overturning the fixing frame 43, and the material mixing plate 42 is in a wave-shaped structure, so that the particle-shaped plastic cup inside the material mixing groove 44 rocks and overturns when the fixing frame 43 moves to the maximum value, and the fixing frame 43 is limited by the feeding mechanism 3 and the limiting mechanism 7 when sliding inside the box body 11, so as to prevent the material mixing plate 42 from overturning, the plastic particles in the mixing groove 44 are prevented from splashing, and the waved material mixing plate 42 increases the contact area of the plastic particles, enlarges the plastic mixing range and ensures that the plastic is mixed more uniformly.

Specifically, the control mechanism 6 includes a convex plate 61, a control plate 62, a first spring 63 and a discharge hole 64, the discharge hole 64 corresponding to the mixing groove 44 and having an arc structure is located at the edge of one of the side walls of the fixed frame 43, the control plate 62 corresponding to the discharge hole 64 is connected to the side wall of the fixed frame 43 in an equidistant sliding manner, the first spring 63 is installed between the top of the control plates 62 and the top of the fixed frame 43, the convex plate 61 having an arc structure at the bottom is welded to the bottom of the control plates 62, the convex plate 61 penetrates through the bottom of the mixing plate 42, when the mixing of the plastic particles in the mixing groove 44 is completed, the limiting mechanism 7 is pulled in the direction away from the electric push rod 41, the feeding mechanism 3 can rotate in the box 11, and the limiting mechanism 7 rotates counterclockwise, work as when mixing flitch 42 inclines to certain angle protruding board 61 with the one end of unloading mechanism 2 is contradicted, further realization the control panel 62 deviates from the one end of unloading mechanism 2 remove first spring 63 opens, finally, is located mixing flitch 42 lateral wall discharge opening 64 is opened, and then has realized being located the inside plastic granules of mixing flitch 42 along with the slope of fixed frame 43 to the inside of unloading mechanism 2 removes, convenient quick unloading.

Specifically, the stirring mechanism 5 includes a shaft sleeve 51, a connecting shaft 52, a swing link 53 and a stirring blade 54, the connecting shaft 52 having a cylindrical structure is welded to the inner wall of the material mixing plate 42 at equal intervals, the shaft sleeve 51 is connected to the surface of the connecting shaft 52 at equal intervals in a rotating manner, the swing link 53 is welded to the bottom of the shaft sleeve 51, the stirring blade 54 having an arc-shaped side surface and a zigzag bottom surface is welded to the bottom of the swing link 53, the fixed frame 43 is moved back and forth inside the box 11 along the side direction after the power of the electric push rod 41 is turned on, and then the stirring blade 54 is swung to stir the plastic inside the material mixing groove 44 due to the gravity of the swing link 53 and the stirring blade 54 in the swinging process of the fixed frame 43 and further due to the rotating connection between the shaft sleeve 51 and the connecting shaft 52, the plastic is mixed more uniformly.

Specifically, the limiting mechanism 7 includes a connecting plate 71, a limiting rod 72 and second springs 73, the sliding column 46 departing from one end of the electric push rod 41 extends to the outer side of the box 11, the surface of the sliding column 46 located on the outer side of the box 11 is welded with the connecting plate 71, the surface of the connecting plate 71 is symmetrically and slidably connected with the limiting rod 72 about the sliding column 46, two sets of the second springs 73 are arranged on the top of the two Y-shaped limiting rods 72, one end of each set of the second springs 73 is welded with the limiting rod 72, the other end of each set of the second springs 73 is welded with the side wall of the connecting plate 71, the two limiting rods 72 are slidably connected with the box 11, when the electric push rod 41 is powered on, the fixing frame 43 swings inside the box 11, and further two sliding columns 46 slide inside the box 11, when blanking is not needed, the two limiting rods 72 slide on the side walls of the box body 11, at the moment, the two limiting rods 72 limit the two sliding pillars 46, so that the plastic particles in the mixing groove 44 are prevented from splashing due to the fact that the fixing frame 43 rotates while swinging, when blanking is needed, the limiting rods 72 are pulled in the direction away from the box body 11 to achieve contraction of the two second springs 73, one end of each of the two limiting rods 72 is further abutted against the box body 11, the limiting rods 72 do not limit the sliding pillars 46, then, the connecting plate 71 is rotated to achieve driving of the sliding pillars 46 to drive the fixing frame 43 to rotate, further, the mixing plate 42 in a wave-shaped structure is inclined to move the plastic in the mixing groove 44 to one side of the mixing plate 42, and after the convex plate 61 and the blanking mechanism 2, the material in the mixing groove 44 is poured into the mixing groove 44 to abut against the fixing frame 46 Inside the blanking mechanism 2.

Specifically, unloading mechanism 2 includes drainage plate 21 and lower hopper 22, the lateral wall of box 11 is the slope welding and is in lower hopper 22, be located inside the box 11 the bottom welding of lower hopper 22 has drainage plate 21, drainage plate 21 is located the bottom of flange 61, work as flange 61 with after drainage plate 21 takes place to support, continue to rotate connecting plate 71 realizes flange 61 will control panel 62 is released the top of discharge opening 64, so the inside plastics of compounding groove 44 are poured, and the plastics that are poured pass through drainage plate 21 flows the inside of lower hopper 22, convenient quick unloading.

Specifically, the feeding mechanism 3 includes rollers 31, a chute 32, a handle 33, a feeding hopper 34, a top plate 35, a bottom plate 36, a discharging chute 37, a rotating shaft 38, a baffle 39, a sealing plate 39a, a torsion spring 39b and a protrusion 39c, the chute 32 is oppositely arranged at the edge of the surface of the box body 11, the two rollers 31 are slidably connected to the inside of the chute 32, the protrusion 39c which is in rolling connection with the rollers 31 is equidistantly arranged at the top of the box body 11, the two rollers 31 are mounted at the bottom of the feeding hopper 34 with an inverted trapezoidal structure at the side, the discharging chute 37 is arranged at the bottom of the feeding hopper 34, the width of the discharging chute 37 is equal to one half of the width of the discharging chute 37, the rotating shaft 38 is rotatably connected at one half of the bottom of the feeding hopper 34, and the two torsion springs 39b are wound on the surface of the rotating shaft 38, one end of each of the two torsion springs 39b is fixed to the bottom of the feed hopper 34, the other end of each of the two torsion springs 39b is fixed to the surface of the rotating shaft 38, the sealing plate 39a located at the bottom of the blanking chute 37 is welded to the side wall of the rotating shaft 38, the baffle 39 is welded to the bottom of the rotating shaft 38, the included angle between the baffle 39 and the sealing plate 39a is 85 degrees, the bottom plate 36 is welded to the top of the fixing frame 43 located at the bottom of the feed hopper 34, the top plate 35 abutting against the bottom plate 36 is welded to the bottom of the feed hopper 34, and the height of the top surface of the mixing plate 42 is greater than the height of the bottom surface of the baffle 39; when plastic particles with moisture are added into the mixing groove 44, the feeding hopper 34 is firstly slid to the top of the bottom plate 36, the top plate 35 limits the bottom plate 36, the limiting rod 72 is further matched to limit the fixing frame 43, the stability of the fixing frame 43 during swinging is ensured, the sealing plate 39a seals the blanking groove 37 during feeding into the feeding hopper 34 to prevent the material inside the feeding hopper 34 from falling off, the handle 33 is pushed during feeding to realize the rolling of the roller 31 inside the sliding groove 32, the baffle 39 is further realized to interfere with the mixing plate 42 in a wave-shaped structure while the roller 31 slides inside the sliding groove 32, and the sealing plate 39a is opened when the baffle 39 interferes with the mixing plate 42, further, the torsion spring 39b contracts, when the sealing plate 39a is opened, the plastic in the feeding hopper 34 flows into the mixing groove 44, because the length of the discharging groove 37 is equal to that of the mixing groove 44, plastic splashing can be avoided, the plastic can be uniformly sprayed into the mixing groove 44, mixing is facilitated, and the included angle between the baffle plate 39 and the sealing plate 39a is 85 degrees, so that the sealing plate 39a can continuously move 5 degrees towards the bottom of the feeding hopper 34 when the feeding hopper 37 is moved towards the bottom plate 36, and the baffle plate 39 is prevented from blocking the movement of the feeding hopper 34.

When in use, firstly, four brackets 12 are arranged at the bottom of the box body 11 to realize the support of the whole mechanism, when moist plastic particles are added into the mixing groove 44, the feed hopper 34 is firstly slid to the top of the bottom plate 36 to realize the limit of the top plate 35 to the bottom plate 36, the fixing frame 43 is further limited by the limiting rod 72, the stability of the fixing frame 43 in swinging is ensured, when feeding is carried out to the inside of the feed hopper 34, the sealing plate 39a seals the discharging groove 37 to avoid the falling of the material in the feed hopper 34, when feeding, the handle 33 is pushed to realize the rolling of the roller 31 in the chute 32, further, when the roller 31 slides in the chute 32, the baffle 39 is abutted to the mixing plate 42 with a wave structure, when the baffle 39 is abutted to the mixing plate 42, the sealing plate 39a is opened, and the torsion spring 39b is further contracted, when the sealing plate 39a is opened, the plastic in the feeding hopper 34 flows into the mixing groove 44, the length of the discharging groove 37 is equal to that of the mixing groove 44, so that plastic splashing can be avoided, the plastic is uniformly sprayed into the mixing groove 44 to facilitate mixing, and the included angle between the baffle 39 and the sealing plate 39a is 85 degrees, so that the sealing plate 39a can continuously move 5 degrees to the bottom of the feeding hopper 34 when the feeding hopper 37 is moved towards the bottom plate 36, and the baffle 39 is prevented from blocking the movement of the feeding hopper 34; then, the feeding hopper 34 is moved to the end of the box body 11 after the moist plastic particles are fed by the feeding hopper 34, the electric push rod 41 is switched on to realize that the electric push rod 41 pushes one of the sliding columns 46, and further realize that the two sliding columns 46 slide on the side surface of the box body 11, so that the fixing frame 43 swings inside the box body 11, and the materials swing inside the material mixing groove 44 in the process of overturning the fixing frame 43, and because the material mixing plate 42 is of a wave-shaped structure, the granular plastic cups inside the material mixing groove 44 swing and overturn when the fixing frame 43 moves to the maximum value, and are limited by the feeding mechanism 3 and the limiting mechanism 7 when the fixing frame 43 slides inside the box body 11, the material mixing plate 42 is prevented from overturning, the splashing of the plastic particles inside the material mixing groove 44 is avoided, and the wave-shaped material mixing plate 42 increases the contact area of the plastic particles, the mixing range of the plastic is expanded, so that the plastic is mixed more uniformly and further; when the electric push rod 41 is powered on, the fixed frame 43 swings inside the box body 11, further two sliding columns 46 slide inside the box body 11, when blanking is not needed, the two limiting rods 72 slide on the side walls of the box body 11, at the moment, the two limiting rods 72 limit the two sliding columns 46, plastic particles in the mixing groove 44 are prevented from splashing due to the fact that the fixed frame 43 rotates while swinging, when blanking is needed, the limiting rods 72 are pulled to deviate from the direction of the box body 11 to achieve contraction of the two second springs 73, further, one end of each of the two limiting rods 72 is abutted against the box body 11, the limiting rods 72 do not limit the sliding columns 46, then the sliding columns 46 are driven to rotate by rotating the connecting plate 71, and further, the mixing plate 42 in a wave-shaped structure is inclined to move the plastic in the mixing groove 44 to one side of the mixing plate 42, when the convex plate 61 is abutted against the lower drainage plate 21, the material in the mixing groove 44 is poured into the lower hopper 22; finally, the fixing frame 43 is reciprocated along the side direction inside the box body 11 after the electric push rod 41 is powered on, and then the plastic inside the material mixing groove 44 is stirred by the swinging of the stirring blade 54 due to the gravity of the swing rod 53 and the stirring blade 54 in the swinging process of the fixing frame 43 and further due to the rotating connection between the shaft sleeve 51 and the connecting shaft 52, so that the plastic is mixed more uniformly, the feeding mechanism 3 of the limiting mechanism 7 can be pulled to rotate inside the box body 11 after the mixing of the plastic particles inside the material mixing groove 44 is completed and the direction of the plastic particles away from the electric push rod 41, the limiting mechanism 7 is rotated anticlockwise, when the material mixing plate 42 is inclined to a certain angle, the convex plate 61 is abutted against one end of the blanking mechanism 2, and the movement of the control plate 62 away from one end of the blanking mechanism 2 is further realized, First spring 63 opens, finally, the discharge opening 64 that is located flitch 42 lateral wall is opened, and then realized being located the inside plastic granules of flitch 42 and along with the slope of fixed frame 43 removes to the inside of feed mechanism 2, convenient quick unloading, after protruding board 61 and drainage plate 21 take place to support, continue to rotate connecting plate 71 and realize that protruding board 61 releases the top of discharge opening 64 with control panel 62, the inside plastics of mixing groove 44 is poured so, the plastics of pouring flow to the inside of hopper 22 down through drainage plate 21, convenient quick unloading.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the embodiments and descriptions given above are only illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a plastic processing wavy compounding mechanism which characterized in that: comprises a supporting mechanism (1), a blanking mechanism (2), a feeding mechanism (3), a mixing mechanism (4), a stirring mechanism (5), a control mechanism (6) and a limiting mechanism (7); be used for realizing supporting whole mechanism the top of supporting mechanism (1) is installed and is used for carrying out the compounding to plastics compounding mechanism (4), the one end of compounding mechanism (4) install with sliding connection between supporting mechanism (1) stop gear (7), the top sliding connection of supporting mechanism (1) has feed mechanism (3), the lateral wall of feed mechanism (3) is installed and is used for controlling the plastics unloading control mechanism (6), the inside equidistance of compounding mechanism (4) is installed and is used for carrying out rabbling mechanism (5) that trembles plastics, the lateral wall of supporting mechanism (1) install be used for the unloading, with control mechanism (6) contradict unloading mechanism (2).

2. The plastic processing wavy mixing mechanism of claim 1, wherein: supporting mechanism (1) includes box (11) and support (12), compounding mechanism (4) install in the inside of box (11), install the bottom four corners department of box (11) support (12).

3. The plastic processing wavy mixing mechanism of claim 2, wherein: the mixing mechanism (4) comprises an electric push rod (41), a mixing plate (42), a fixing frame (43), a mixing groove (44), a pressure spring (45) and sliding columns (46), wherein the electric push rod (41) is installed on one side surface of the box body (11) which is hollow inside, one end of the electric push rod (41) extends into the box body (11), the fixing frame (43) is placed inside the box body (11), the sliding columns (46) which are of a cylindrical structure are welded on two sides of the fixing frame (43), opposite ends of the two sliding columns (46) are welded with the side wall of the fixing frame (43), one end of one sliding column (46) is fixedly connected with one end of the electric push rod (41), the mixing plate (42) which is of a wave-shaped structure is welded on the transverse equal distance of the fixing frame (43), and the mixing groove (44) for placing plastic particles is formed on the surface of the plurality of the mixing plate (42), the inner side face of the box body (11) deviating from one side of the electric push rod (41) is relatively provided with the pressure spring (45) which is abutted against the fixed frame (43).

4. The plastic processing wavy mixing mechanism of claim 3, wherein: control mechanism (6) include flange (61), control panel (62), first spring (63) and discharge opening (64), one of them lateral wall border department of fixed frame (43) about mixing bowl (44) correspond, be the arc structure discharge opening (64), the lateral wall equidistance sliding connection of fixed frame (43) have with discharge opening (64) correspond control panel (62), a plurality of the top of control panel (62) with all install between the top of fixed frame (43) first spring (63), a plurality of the bottom welding of control panel (62) has the bottom to be the arc structure flange (61), flange (61) run through the bottom of mixing plate (42).

5. The plastic processing wavy mixing mechanism of claim 3, wherein: rabbling mechanism (5) are including axle sleeve (51), connecting axle (52), pendulum rod (53) and stirring leaf (54), and are a plurality of the inner wall equidistance welding of mixing plate (42) has and is cylindrical structure connecting axle (52), a plurality of the surface equidistance of connecting axle (52) is rotated and is connected with axle sleeve (51), a plurality of the bottom welding of axle sleeve (51) has pendulum rod (53), and is a plurality of the bottom welding of pendulum rod (53) has the side to be arc structure, the bottom is saw-toothed structure stirring leaf (54).

6. The plastic processing wavy mixing mechanism of claim 3, wherein: stop gear (7) include connecting plate (71), gag lever post (72) and second spring (73), deviate from electric putter (41) one end traveller (46) extend to the outside of box (11), be located the box (11) outside the skin weld of traveller (46) has connecting plate (71), the surface of connecting plate (71) about traveller (46) symmetry sliding connection has gag lever post (72), two are "Y" shape structure the top of gag lever post (72) is equipped with two sets of second spring (73), two sets of the one end of second spring (73) with gag lever post (72) welding, two the other end of second spring (73) with the lateral wall welding of connecting plate (71), two gag lever post (72) with sliding connection between the box (11).

7. The plastic processing wavy mixing mechanism of claim 4, wherein: unloading mechanism (2) are including drainage plate (21) and lower hopper (22), the lateral wall of box (11) is the slope welding and is connected lower hopper (22), is located box (11) are inside the bottom welding of lower hopper (22) has drainage plate (21), drainage plate (21) are located the bottom of flange (61).

8. The plastic processing wavy mixing mechanism of claim 3, wherein: the feeding mechanism (3) comprises rollers (31), a sliding groove (32), a handle (33), a feeding hopper (34), a top plate (35), a bottom plate (36), a discharging groove (37), a rotating shaft (38), a baffle plate (39), a sealing plate (39 a), a torsion spring (39 b) and protrusions (39 c), the sliding groove (32) is oppositely formed in the edge of the surface of the box body (11), the two rollers (31) are connected to the inside of the sliding groove (32) in a sliding mode, the protrusions (39 c) in rolling connection with the rollers (31) are arranged on the top of the box body (11) at equal intervals, the two rollers (31) are arranged at the bottom of the feeding hopper (34) with the side surface of an inverted trapezoid structure, the discharging groove (37) is formed in the bottom of the feeding hopper (34), and the width of the discharging groove (37) is equal to one half of the width of the discharging groove (37), the bottom half of the feed hopper (34) is rotatably connected with the rotating shaft (38), the surface of the rotating shaft (38) is wound with two torsion springs (39 b), one ends of the two torsion springs (39 b) are fixed at the bottom of the feed hopper (34), the other ends of the two torsion springs (39 b) are fixed at the surface of the rotating shaft (38), the sealing plate (39 a) at the bottom of the lower trough (37) is welded on the side wall of the rotating shaft (38), the baffle plate (39) is welded at the bottom of the rotating shaft (38), an included angle between the baffle plate (39) and the sealing plate (39 a) is 85 degrees, the bottom plate (36) is welded at the top of the fixed frame (43) at the bottom of the feed hopper (34), and the top plate (35) which is abutted against the bottom plate (36) is welded at the bottom of the feed hopper (34), the height of the top surface of the mixing plate (42) is greater than that of the bottom surface of the baffle plate (39).