CN205380802U - Shredding machine - Google Patents

Abstract

The utility model discloses a shredding machine relates to plastics recycling technical field to old and useless ground membrane coat improves the qualification rate of the plastics piece that obtains after tearing to shreds. This shredding machine includes feed mechanism and shredding machine body, and the shredding machine body is equipped with the cutter that is used for tearing to shreds old and useless plastic film including the casing that has feeder hopper and discharge gate in to and be used for driving the drive arrangement of cutter work, feed mechanism is including promoting the unit and can be promoted the feed mechanism that the unit promoted, the last reciprocating sieve menu unit that is arranged in getting rid of the silt that old and useless plastic film contains that is equipped with of feed mechanism. Because reciprocating sieve menu unit can filter the old and useless plastic film that gets into before the feeder hopper to get rid of the silt that wherein contains, increase the area of contact of the blade on old and useless plastic film and the cutter, thereby improve the qualification rate of the plastics piece that obtains after old and useless ground membrane coat tears to shreds. The utility model provides a shredding machine is used for the old and useless plastic film field of retrieving.

Description

Shredding machine

Technical Field

The utility model relates to a plastics recovery technical field especially relates to a shredder.

Background

The shredder is equipment for smashing raw materials to enable the raw materials to be smaller in size, is mainly used for the industry of plastic recycling and regeneration, and is used for shredding waste plastics into small pieces to facilitate subsequent recycling.

At present, a common shredder can shred waste plastics into qualified plastic fragments, but for waste mulching films recovered from field lands, due to the fact that the waste mulching films contain a large amount of silt, the waste mulching films are prevented from being in contact with blades in a double-shaft shredder, and the qualification rate of the plastic fragments obtained after the waste mulching films are shredded is low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a shredder to improve the qualification rate of the plastic chips that old and useless plastic film obtained after being shredded.

In order to achieve the above object, the present invention provides the following technical solutions:

a shredder comprises a feeding mechanism and a shredder body, wherein the shredder body comprises a shell with a feeding hopper and a discharge port, and a cutter for shredding waste mulching films and a driving device for driving the cutter to work are arranged in the shell; wherein,

feed mechanism includes the hoisting unit and can by the feed mechanism that the hoisting unit promoted, be equipped with the vibrations screening unit that is arranged in getting rid of the silt that contains in the old and useless plastic film on the feed mechanism.

Preferably, the vibration screening unit includes the first reciprocating sieve that is used for once sieving to old and useless plastic film and is used for carrying out the second reciprocating sieve that sieves to old and useless plastic film again.

Preferably, the mesh aperture of the first vibrating screen is 10mm-30mm, and the mesh aperture of the second vibrating screen is 1mm-10 mm.

Preferably, the feeding mechanism comprises a support frame, and a first fixing piece and a second fixing piece which are arranged on the support frame; the first fixing piece is connected with the first vibrating screen, and the second fixing piece is connected with the second vibrating screen; be equipped with the arm that is used for shifting the old and useless plastic film on the first reciprocating sieve to the second reciprocating sieve on and fills the old and useless plastic film on the second reciprocating sieve into the feeder hopper on first reciprocating sieve or the second reciprocating sieve.

Further, the feeding mechanism also comprises a height measuring instrument and a control unit connected with the height measuring instrument;

the height measuring instrument is used for measuring the height difference between the second vibrating screen and the inlet of the feed hopper;

the control unit is used for controlling the mechanical arm to fill the waste mulching film on the second vibrating screen into the feeding hopper when the height difference between the second vibrating screen and the inlet of the feeding hopper is 0.

Preferably, the discharge hole is provided with a sampling hole for sampling and detecting the plastic fragments; the discharge port is respectively connected with a discharge pipeline and a conveying pipeline for conveying the plastic fragments at the discharge port to a feed hopper; the one end that ejection of compact pipeline and discharge gate are relative is connected with first valve, the one end that pipeline and discharge gate are relative is equipped with the second valve.

Preferably, the discharge gate even has the ejection of compact pipeline respectively and will the pipeline of feeder hopper is carried to the plastics piece of discharge gate, just the ejection of compact pipeline is connected with the screen cloth that is used for making qualified plastics piece pass through with the one end that the discharge gate is relative.

Preferably, the feed hopper is funnel-shaped; and the small opening end of the feed hopper is connected with the shell.

Preferably, the shell comprises a tearing part and a material blocking part arranged at the top of the tearing part; the discharge port is arranged at the bottom of the tearing part, the cutter is arranged in the tearing part, and the feed hopper is connected with the material blocking part; the material blocking part is provided with a plurality of guide channels for enabling the waste mulching films to enter the tearing part.

Preferably, the cutter includes parallel arrangement's first arbor and second arbor, and is equipped with a plurality of blade discs that have the movable blade on the first arbor, is equipped with the blade disc of a plurality of stationary blades on the second arbor, first arbor hub connection is used for driving first arbor pivoted first drive arrangement, be connected with on the second arbor and be used for driving second arbor pivoted second drive arrangement.

Compared with the prior art, the utility model provides a shredder has following beneficial effect:

In the shredder provided by the utility model, a plurality of cutters for shredding waste mulching films are arranged in the shell; therefore, when the waste mulching films enter the shell from the feed hopper, the blades on the cutter can shred the waste mulching films into plastic fragments; furthermore, the utility model discloses a feed mechanism that shredder adopted includes the hoisting unit and can be promoted by the hoisting unit feed mechanism, and the last vibrations screening unit that is equipped with of feed mechanism, vibrations screening unit can screen old and useless plastic film before the feeding, gets rid of silt that contains wherein, consequently, after the old and useless plastic film that gets rid of silt gets into the casing from the feeder hopper, the contact of the blade on old and useless plastic film and the cutter can not receive the hindrance of silt, has improved the qualification rate of old and useless plastic film through the plastic chips that the shredding obtained greatly.

Additionally, the utility model provides an among the old and useless plastic film shredder, contain the lift unit among the feed mechanism, the lift unit can change feed mechanism's height according to actual need, has made things convenient for to feed and feeding.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

FIG. 1 is a schematic structural view of a shredder body according to an embodiment of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is a top view of FIG. 1;

fig. 4 is a schematic structural diagram of a feeding mechanism in an embodiment of the present invention;

fig. 5 is a flow chart of automatic feeding in an embodiment of the present invention;

fig. 6 is a first schematic structural diagram of a discharge hole in an embodiment of the present invention;

fig. 7 is a second schematic structural diagram of a discharge hole in the embodiment of the present invention;

reference numerals:

1-shell, 10-guide channel;

11-feed hopper, 12-discharge port;

2-cutter, 21-first cutter shaft;

22-a second cutter shaft, 3-a lifting unit;

4-feeding mechanism, 41-support frame;

411-first mount, 412-second mount;

42-mechanical arm, 5-vibration screening unit;

51-a first shaker, 52-a second shaker;

6-a discharge pipeline, 60-a first valve;

7-conveying pipeline, 70-second valve.

Detailed Description

For further explanation of the shredder according to the embodiment of the present invention, the following detailed description is made with reference to the accompanying drawings.

Referring to fig. 1 and 3, a shredder according to an embodiment of the present invention includes a feeding mechanism and a shredder body, wherein the shredder body includes a housing 1 having a feeding hopper 11 and a discharge port 12; a cutter 2 for shredding the waste mulching films is arranged in the shell 1, and the cutter 2 is connected with a driving device for driving blades on the cutter 2 to shred the waste mulching films; wherein,

Referring to fig. 4, the feeding mechanism includes a lifting unit 3 and a feeding mechanism 4 capable of being lifted by the lifting unit 3, and the feeding mechanism 4 is provided with a vibrating screening unit 5 for removing silt contained in the waste mulching film.

Before working, the cutter in the shredder of the embodiment runs for 15min in an idle load manner so as to ensure that the shredder can be normally used, if abnormal conditions are found, for example, abnormal sound exists in the shredder, the shredder is stopped in time, and the shredder is started to run after the abnormal conditions are relieved; then put old and useless plastic film in vibrations screening unit 5, make vibrations screening unit 5 carry out vibrations screening to old and useless plastic film, so that the silt that mix with in the old and useless plastic film can be sieved by vibrations screening unit 5 and remove, when vibrations screening unit 5 sieves silt, hoisting unit 3 promotes feed mechanism 4 and the vibrations screening unit 5 of establishing on feed mechanism 4 to feeder hopper 11 department, when reacing the feeder hopper, feed mechanism sends the old and useless plastic film on vibrations screening unit 5 to the casing from feeder hopper 11, with the cutter in the casing shredding into the plastics piece, the ejection of compact is followed from discharge gate 12 to the plastics piece. In addition, when the shredder is stopped, the cutter is operated for 15 minutes under the condition that the waste mulching film is not shredded, so that material blockage when the shredder is started next time is prevented.

According to the working process of the shredder provided by the embodiment, the plurality of cutters 2 are arranged in the shell 1, so that waste mulching films can be shredded into plastic fragments by the blades on the cutters 2 after entering the shell 1 from the feed hopper 11; moreover, the feed mechanism that the shredder of this embodiment adopted includes hoisting unit 3 and the feed mechanism 4 that can be promoted by hoisting unit 3, be equipped with vibrations screening unit 5 on feed mechanism 4 in order to screen old and useless plastic film before the feeding, get rid of silt that contains wherein, consequently, after the old and useless plastic film that gets into the casing from feeder hopper 11 when getting rid of silt, the contact of the blade on old and useless plastic film and the cutter 2 can not receive the hindrance of silt, has improved the qualification rate of old and useless plastic film through the plastics piece that the shredding obtained greatly.

In addition, among the old and useless plastic film shredder that this embodiment provided, contain lifting unit 3 among the feed mechanism, lifting unit 3 can change the height of feed mechanism 4 according to actual need, has made things convenient for to feed and feeding.

Please refer to fig. 2, the housing 1 in the above embodiment may be divided into a tearing portion and a material blocking portion disposed at the top of the tearing portion; the discharge port 12 is arranged at the bottom of the shredding part, the cutter 2 is arranged in the shredding part, and the feed hopper 11 is connected with the material blocking part; the material blocking part is provided with a plurality of guide channels 10 for enabling the waste mulching films to enter the tearing part, and the guide channels are of inclined plane structures so as to further facilitate the waste mulching films to enter the tearing part. Because keep off material portion and feeder hopper 11 and link to each other, and keep off and be equipped with a plurality of messenger's old and useless plastic film on the material portion and get into the direction passageway 10 of tearing the portion, old and useless plastic film gets into from feeder hopper 11 like this and keeps off the material portion after, can get into along direction passageway 10 and tear the portion to make the carrying out of tearing that old and useless plastic film can be orderly tear, improve the efficiency of tearing, increase the qualification rate of the plastic chip that obtains.

In addition, the shape of the feeding hopper 11 is various, and in order to increase the feeding speed, please refer to fig. 1, the feeding hopper is arranged in a funnel shape, and the small opening end of the feeding hopper 11 is connected with the housing 1. Meanwhile, the specific form adopted by the cutter 2 of the above embodiment is also diversified, for example, the cutter 2 shown in fig. 2 may include a first cutter shaft 21 and a second cutter shaft 22 which are arranged in parallel, and the first cutter shaft 21 is provided with a plurality of cutter heads with movable blades, and the second cutter shaft 22 is provided with a plurality of cutter heads with fixed blades; the first cutter shaft 21 is connected with a first driving device for driving the first cutter shaft 21 to rotate, and the second cutter shaft 22 is connected with a second driving device for driving the second cutter shaft 22 to rotate. The rotating diameter of the cutter head on the cutter 2 can be 320mm, the thickness of the movable blade is 30mm, the number of the movable blades is 40, and the rotating speed of the movable blades is 10/11.5 r/min. Moreover, those skilled in the art will appreciate that the diameter of the cutter head and the number of cutter heads can be set according to practical situations, and are not limited to the disclosure of the present embodiment.

It should be noted that, in order to prevent the problem that the fixed blade and the movable blade bite the knife, the gap between the movable blade and the fixed blade adjacent to the movable blade needs to be ensured to be 0.4 mm-0.5 mm; the blade is made of Cr ₁₂Mo₁V₁The alloy (Japanese material brand SKD-11) steel is refined through the procedures of forging, normalizing, mechanical rough machining, thermal refining, mechanical semi-finishing, vacuum quenching, high-temperature tempering, finishing and the like, and has sufficient strength and wear resistance.

Specifically, the number of the driving devices in the above embodiments corresponds to the number of the knife shafts, and the ac horizontal motor can be generally selected from Y250M-4, the rotation speed 1480r/min, the voltage 380V/50HZ/3P, and the power 55KW, but is not limited thereto.

It should be noted that, the specific structure of the vibrating screening unit 5 in the feeding mechanism in the above embodiment is many, and in order to thoroughly screen out the silt contained in the waste mulching film before feeding, please refer to fig. 4, the vibrating screening unit 5 specifically includes a first vibrating screen 51 for primarily screening the waste mulching film, and a second vibrating screen 52 for secondarily screening the waste mulching film; in order to sieve the waste mulching films on the first vibrating screen 51 for the second time, the first vibrating screen 51 is generally connected with the second vibrating screen 52 through a conveyor belt, and after the waste mulching films are sieved for the first time through the first vibrating screen 51, the waste mulching films after the first sieving can be transferred to the second vibrating screen 52 to continuously sieve the silt mixed in the waste mulching films. Through twice sieving, the silt contained in the waste mulching film is basically sieved out, the obstruction between the waste mulching film and the blade on the cutter is further reduced, and therefore the qualification rate of plastic fragments is improved. The mode of transferring the waste mulching films after primary sieving to the second vibrating screen 52 is various, for example, a common mechanical arm is used for grabbing the waste mulching films after primary sieving, and the waste mulching films are transferred to the second vibrating screen 52 for secondary sieving, and the mechanical arm can be arranged on the first vibrating screen 51 or the second vibrating screen 52.

Referring to fig. 4, the feeding mechanism 4 in the above embodiment includes a supporting frame 41, and a first fixing member 411 and a second fixing member 412 disposed on the supporting frame 41; the first fixed part 411 is connected with the first vibrating screen 51, and the second fixed part 412 is connected with the second vibrating screen 52; the second vibrating screen 52 is provided with a mechanical arm 42, and the mechanical arm 42 can be arranged on the second vibrating screen 52 and also can be arranged on the first vibrating screen; the mechanical arm 42 can transfer the waste mulching films on the first vibrating screen 51 to the second vibrating screen 52, and can also fill the waste mulching films on the second vibrating screen 52 into the feed hopper 11. When the 5 vibrations screening unit that promote unit 3 set up on with feed mechanism 4 promoted to feeder hopper 11 like this, arm 42 just can snatch the old and useless plastic film that passes through the secondary and sieve on the second reciprocating sieve 52 to in filling the feeder hopper with old and useless plastic film, avoided the cost that manual operation brought to improve.

In order to realize the automatic feeding of the feeding mechanism, please refer to fig. 5, the feeding mechanism of the above embodiment includes a height measuring instrument and a control unit connected to the height measuring instrument; the height measuring instrument is used for measuring the height difference between the second vibrating screen and the inlet of the feed hopper; the control unit is used for controlling the mechanical arm 42 to fill the waste mulching films on the second vibrating screen 52 into the feed hopper 11 when the height difference between the second vibrating screen and the inlet of the feed hopper is 0. Because height measurement appearance and the control unit have been added at feed mechanism for the control unit can receive the difference in height information between the entry of second reciprocating sieve and feeder hopper that height measurement appearance sent in real time, and when the difference in height between the entry of second reciprocating sieve and feeder hopper was 0, control unit can control arm 42 and fill into feeder hopper 11 with the old and useless plastic film on the second reciprocating sieve, has realized the automation of feeding.

As for the mesh aperture of well first reciprocating sieve 51 and the mesh aperture of second reciprocating sieve 52 in the above-mentioned embodiment specifically can be according to big-first little principle, and the mesh aperture of first reciprocating sieve 51 is than the mesh aperture of second reciprocating sieve 52 greatly promptly, just can sieve away the great silt of particle diameter in the old and useless plastic film like this when once sieving, and then follow-up when sieving for a second time, can sieve away the less silt of particle diameter in the old and useless plastic film, realize that the old and useless plastic film sieves in grades. For example, the first vibrating screen 51 may be defined to have a mesh size of 10mm to 30mm, and the second vibrating screen 52 may be defined to have a mesh size of 1mm to 10mm, but not limited thereto.

In addition, in order to better understand whether the particle diameter of the plastic fragments that obtain after the old and useless plastic film is torn up is qualified, can carry out following two kinds of settings to the structure of discharge gate department, wherein the qualification rate of plastic fragments can be guaranteed to arbitrary homoenergetic.

The first method comprises the following steps: referring to fig. 6, a sampling hole for sampling and detecting plastic fragments is formed on the discharge port 12; therefore, the operator can sample and detect the plastic fragments at any time in the working process so as to judge whether the granularity of the plastic fragments is qualified. In addition, in order to improve the qualified rate of the plastic fragments, the discharge port 12 is respectively connected with the discharge pipeline 6 and the conveying pipeline 7 for conveying the plastic fragments at the discharge port 12 to the feed hopper 11, a first valve 60 is arranged at one end of the discharge pipeline 6 opposite to the discharge port 12, and a second valve 70 is arranged at one end of the conveying pipeline 7 opposite to the discharge port; if the particle size of the plastic fragments is detected to be unqualified, the unqualified plastic fragments can be shredded again by closing the first valve 60 and opening the second valve 70 to return to the feed hopper 11 through the conveying pipeline 7; if qualified, the second valve 70 is closed, and the first valve 60 is opened, so that the qualified plastic chips are discharged through the discharge pipe 6.

And the second method comprises the following steps: referring to fig. 7, the discharge port 12 is connected to a discharge pipe 6 and a conveying pipe 7 for conveying plastic chips from the discharge port to the feed hopper 11, and one end of the discharge pipe 6 opposite to the discharge port 12 is connected to a screen for passing qualified plastic chips. Because the screen is arranged at the end of the discharge pipeline 6 opposite to the discharge port 12, as long as unqualified plastic fragments are deposited on the screen, the plastic fragments can easily enter the conveying pipeline 7 and return to the feed hopper 11 for re-shredding; and qualified plastic chips are discharged from the discharge pipeline 6.

In the foregoing description of embodiments, the particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A shredder is characterized by comprising a feeding mechanism and a shredder body, wherein the shredder body comprises a shell with a feeding hopper and a discharging port, and a cutter for shredding waste mulching films and a driving device for driving the cutter to work are arranged in the shell; wherein,

feed mechanism includes the hoisting unit and can by the feed mechanism that the hoisting unit promoted, be equipped with the vibrations screening unit that is arranged in getting rid of the silt that contains in the old and useless plastic film on the feed mechanism.

2. The shredder according to claim 1, wherein the vibrating screen unit comprises a first vibrating screen for primary screening of the used mulching films and a second vibrating screen for secondary screening of the used mulching films.

3. A shredder according to claim 2, wherein said first screen has a mesh size of 10mm to 30mm and said second screen has a mesh size of 1mm to 10 mm.

4. A shredder according to claim 2, wherein the feed mechanism includes a support frame, and first and second mounts provided on the support frame; the first fixing piece is connected with the first vibrating screen, and the second fixing piece is connected with the second vibrating screen; be equipped with the arm that is used for shifting the old and useless plastic film on the first reciprocating sieve to the second reciprocating sieve on and fills the old and useless plastic film on the second reciprocating sieve into the feeder hopper on first reciprocating sieve or the second reciprocating sieve.

5. A shredder according to claim 4, characterised in that the feeding mechanism further comprises a height measuring gauge and a control unit connected to the height measuring gauge;

the height measuring instrument is used for measuring the height difference between the second vibrating screen and the inlet of the feed hopper;

the control unit is used for controlling the mechanical arm to fill the waste mulching film on the second vibrating screen into the feeding hopper when the height difference between the second vibrating screen and the inlet of the feeding hopper is 0.

6. The shredder according to claim 1, wherein the discharge opening is provided with a sampling hole for sampling and detecting the plastic fragments; the discharge port is respectively connected with a discharge pipeline and a conveying pipeline for conveying the plastic fragments at the discharge port to a feed hopper; the one end that ejection of compact pipeline and discharge gate are relative is connected with first valve, the one end that pipeline and discharge gate are relative is equipped with the second valve.

7. The shredder according to claim 1, wherein the discharge port is respectively connected with a discharge pipe and a conveying pipe for conveying the plastic fragments of the discharge port to the feed hopper, and one end of the discharge pipe opposite to the discharge port is connected with a screen for passing the qualified plastic fragments.

8. A shredder according to claim 1, characterised in that the feed hopper is funnel-shaped; and the small opening end of the feed hopper is connected with the shell.

9. The shredder of claim 1 wherein the housing includes a shredder portion and a dam portion disposed at a top of the shredder portion; the discharge port is arranged at the bottom of the tearing part, the cutter is arranged in the tearing part, and the feed hopper is connected with the material blocking part; the material blocking part is provided with a plurality of guide channels for enabling the waste mulching films to enter the tearing part.

10. The shredder according to claim 1, wherein the cutters comprise a first cutter shaft and a second cutter shaft which are arranged in parallel, the first cutter shaft is provided with a plurality of cutter heads with movable blades, the second cutter shaft is provided with a plurality of cutter heads with fixed blades, the first cutter shaft is connected with a first driving device for driving the first cutter shaft to rotate, and the second cutter shaft is connected with a second driving device for driving the second cutter shaft to rotate.