CN1080215A - shredding device - Google Patents

Abstract

A chopping device comprising: a housing; two turntables respectively pivoted on two sides of the space; a predetermined number of rotating shafts which are pivoted on the two rotating discs in parallel; a first transmission shaft driven by external force to drive the two rotating discs and the rotating shaft therebetween to revolve; a second drive shaft which can rotate independently; a transmission mechanism; at least one power source for driving the two transmission shafts to rotate respectively; an overload protection mechanism; the predetermined number of outer cutters are arranged at the preset position of the shell; the preset number of inner cutters are respectively arranged on the rotating shafts and can rotate and revolve along with the rotating shafts, and the shearing action can be respectively formed between the inner cutters or between the inner cutters and the outer cutters of the two adjacent rotating shafts.

Description

Shredding mechanism

The invention relates to a kind of shredding mechanism.

Traditional shredding mechanism is in the casing central authorities rotating shaft that is pivoted, cutter in the installing on it, cutter outside the installing on casing.Motor drives the rotating shaft rotation via transmission mechanism, utilizes the interior cutter and fixing outer cutter meet of rotation, thereby object is shredded.

The improvement of above-mentioned shredding mechanism structure is parallel two rotating shafts that are pivoted in casing, and this two rotating shaft is rotated in opposite directions, and utilizing in two rotating shafts in opposite directions, the interior cutter of meet rubs object.

The further mode of ameliorating of aforesaid pair of rotating shaft shredding mechanism is that cutting knife is set as zigzag, and makes the concavo-convex position of the cutting knife in two rotating shafts be complementary fit, in order to article are rubbed.

The further change of above-mentioned zigzag cutting knife is to form the dog shape, utilizes the dog meet in opposite directions in two rotating shafts, and will treat that the mince body is clamped and urge in the middle of two rotating shafts, makes object be torn fragmentation, utilizes inside and outside cutter chopping again.

Be to promote shredding efficiency, further develop three rotating shafts or the shredding mechanism of multiaxis more, it is parallel side by side wherein each to be divided into upper and lower multilayer, cuts tossing about in bed.

Known shredding mechanism all is that interior cutter is installed on the axis of rotation, the powerful torsion that utilizes motor to supply with cooperates sharp cutting knife that article are shredded, if run into more tough and tensile article, its cutting knife may inlay card in article and make rotating shaft be forced to stop operating, the so as easy as rolling off a log motor that makes burns, causes fire or equipment loss.

Manufacturer's solution to the problems described above is the horsepower that improves constantly motor at present, want to come broken by force object with high torsion, cause shredding mechanism to do bigger and bigger, horsepower is more and more higher, its cost is also more and more expensive, the user may must invest higher equipment cost because of the horsepower that just can use occasionally, and economic benefit is lower.

The present invention is intended to overcome above-mentioned all problems, and its main purpose is to provide a kind of shredding mechanism, can carry out the fragmentation and the chopping work of article simultaneously, and its broken work can be carried out under setting torsion.

Another object of the present invention is to provide a kind of shredding mechanism, it has preferable stock-removing efficiency.

The structure that the present invention reaches above-mentioned purpose includes: a casing, middle tool one accommodation space; Two rotating disks are hubbed at the accommodation space both sides, are parallel arranged side by side; The rotating shaft of predetermined number, parallel two rotating disks that are hubbed on can be driven around its axle center rotation by external force; One first power transmission shaft, an end are installed in rotating disk central authorities, revolved round the sun around the axle center of this first power transmission shaft by external force driving this two rotating disk of drive and rotating shaft therebetween; One second power transmission shaft is positioned at another rotating disk outer side edges, turned by external force; One transmission mechanism conducts to these rotating shafts respectively in order to the power with second power transmission shaft and makes its rotation; At least one power source rotates in order to drive above-mentioned two power transmission shafts respectively; One overload protection mechanism is located between first power transmission shaft and the power source, in order to the protection power source; The interior cutter of predetermined number is located at these rotating shafts and rotation and revolution thereupon, and forms the rotation Cutting trajectory and the revolution Cutting trajectory of circle, in order to the cutting material.

Form high-speed cutting by the quick rotation face of rotating shaft, the rotating shaft rotation makes the interior circular rotation Cutting trajectory of knife-edge, the rotation Cutting trajectory forms the revolution Cutting trajectory with the rotating shaft revolution, therefore in accommodation space, form highdensity Cutting trajectory, the quick bump of cutting and rotating shaft and cracked of cutter produced at a high speed and the cutting effect of low noise in material was subjected in accommodation space.

In addition can be outside casing inner wall be established cutter or double wedge make be hit collision and broken of material, to promote cutting effect.

Above-mentioned revolution Cutting trajectory can be tangent with outer cutter or double wedge, forms shear action, to promote the chopping effect.

Above-mentioned rotation Cutting trajectory can make it tangent, to increase cutting rate.

Also can be by the design of the shape of tool and position, make between the adjacent cutting track tangently or crossing, can further promote the cutting crushing effect.

Now the present invention is made a detailed description by embodiment and conjunction with figs..

First figure is the structural representation of the embodiment of the invention;

Second figure is the cutaway view along 1-1 hatching line among first figure;

The 3rd figure is the cutaway view along 2-2 hatching line among first figure;

The 4th figure is the schematic diagram of Tool in Cutting track;

The 5th figure is the use schematic diagram of present embodiment;

The 6th figure is another enforcement shape of interior cutter;

The 7th figure is the another enforcement shape of cutter;

The 8th figure is the Cutting trajectory of the cutter of the 7th figure;

The 9th figure is an enforcement shape again of present embodiment cutter;

The tenth figure is the Cutting trajectory of the cutter of the 9th figure;

The 11 figure is the schematic diagram that the present invention sets up cooling body;

The 12 figure is the cutaway view along 3-3 hatching line among the 11 figure;

The 13 figure is the another kind of configuration mode of Tool in Cutting track of the present invention;

The 14 figure is another configuration mode of Tool in Cutting track of the present invention;

The 15 figure generally is same as the 14 figure, but only shows that outer cutter replaces situation with double wedge.

At first see also first to three figure, the present invention includes:

One casing 10, centre have an accommodation space 11, and end face is established a charging through hole 12, and a discharge through hole 13 is established in the bottom surface, all are communicated with accommodation space 11.The discharge through hole is covered with a filter screen 14, and the mesh of these filter screen 14 tool preset apertures is shredded out the particle diameter of article in order to control.

Two rotating disks 15,16 are hubbed at casing 10 respectively and are positioned at accommodation space 11 left and right sides, are parallel arranged side by side.

Three rotating shafts 17 uniformly-spaced parallelly are hubbed on this two rotating disk 15,16 and are positioned at accommodation space 11, driven around its axle center rotation by external force.

One first power transmission shaft, 18, one ends are installed in a rotating disk 15 central authorities, are located at casing 10 rotationally, and the other end protrudes out outside the casing 10, can be subjected to this two rotating disk 15,16 of external force driving drive to reach three rotating shafts 17 that are pivoted therebetween and revolve round the sun around the axle center of this first power transmission shaft 18.

One second power transmission shaft 19 is hubbed on casing 10, one ends and is hubbed on another rotating disk 16 central authorities, and the other end stretches out outside the casing 10, can be subjected to external force to drive rotation, and can produce relative motion with the rotating disk 16 that is pivoted.

One rotating mechanism 20 includes shown in the 3rd figure: a driving wheel 21 is fixedly arranged on second power transmission shaft 19 and between casing 10 and another rotating disk 16, and is positioned at the center of these three rotating shafts 17; Three driven pulleys 22 are fixedly arranged on these three rotating shafts 17 respectively and between casing 10 and another rotating disk 16, and all are connected with this driving wheel 21, drive corresponding rotating shaft 17 rotations respectively in order to the transmission that is subjected to this driving wheel 21.

Two motor 23,24 is divided into casing 10 2 sides, rotates in order to drive this two power transmission shaft 18,19 respectively.

One reduction box 25 is located between this motor 23 and first power transmission shaft 18, in order to deceleration transmission.

One overload protection mechanism 27 is located between this motor 23 and this reduction box 23, avoids over load and burns in order to protection motor 23.

Four groups of outer cuttves 29 are embedded at casing 10 front and back two sidewalls removably respectively, and its knife edge protrudes into predetermined length in this accommodation space 11.

Cuttves 30 in nine groups are divided into three groups, three every group, be installed in this three rotating shaft 17 in detachable mode, each rotating shaft 17 respectively have three be 120 degree uniformly-spaced arrange within cutter 30, cuttves 30 are with these rotating shaft 17 rotations and revolution in these.

Present embodiment is with two motor 23,24 transmission two power transmission shafts 18,19 rotations respectively.Wherein first power transmission shaft 18 drives rotating disk 15 interlocks, three rotating shafts 17 and drives another rotating disk 16 around the revolution of first power transmission shaft, 18 axle center, and second power transmission shaft 19 drives three driven pulleys 22 via driving wheel 21 and drives three rotating shafts, 17 rotations.Shown in the 4th figure, interior cutter 30 rotations in this three rotating shaft 17 respectively form a circular rotation Cutting trajectory 32.32 revolution of described three circular rotation Cutting trajectories form revolution Cutting trajectories 31, cutting position 33 in three of these three circular rotation Cutting trajectory 32 tangent formation.Revolution Cutting trajectory 31 and four groups of outer cuttves 29 form four outer cutting positions 34, and the speed that moment is sheared at wherein interior cutting position 33 is the twice of spin velocity, and cutting the speed of shearing moment in position 34 outward is the spin velocity and the angular speed sum that revolves round the sun.

During use, first power transmission shaft 18 rotates with low torsion at a slow speed, and 19 of second power transmission shafts are with the high torque transmission of high speed.Treat that the mince product fall in the accommodation space 11 from the charging through hole 12 of casing 10 end faces, be subjected to the shearing of inside and outside cutting knife 30,29 and be broken into particulate, particle diameter is then discharged by discharge through hole 13 less than filter screen 14 mesh persons, and the greater then continues to be subjected to inside and outside cutting knife 30,29 to shear, until passing through filter screen 14.

Shown in the 5th figure, if run into relatively large article, may be stuck in charging through hole 12 for the moment can't all fall in the accommodation space 11 during use.The hardness of these article will be impacted fragmentation because of the angular impulse of rotating shaft 17 revolution if lower, and fall into chopping in the accommodation space 11; If hardness is higher or toughness is bigger; when the angular impulse of rotating shaft 17 revolution can't once smash it; rotating shaft 17 will be obstructed and can't be continued revolution; this moment this overload protection mechanism 27 motor 23 will be stopped and reversing the scheduled time or revolution after again the recovery just change; even just change again after also the revolution direction reverses a set angle, cause motor 23,24 to burn to avoid rotating shaft 17 to be stuck.These rotating shafts 17 this moment still continue rotation, and satisfy the gradually cutting repeatedly of small pieces with 30 pairs of article of the interior cutter on it, corrode so gradually, are cut off to article, and rotating shaft 17 recovers again normally to revolve round the sun.

Above-mentioned overload protection mechanism 27 can be traditional type frame for movement or electronic protection circuit.

The motor 23 that drives first power transmission shaft 18 can be torque motor, and it stops when bearing the moment of torsion that surpasses setting value automatically.

In addition, if when not needing the article of high-power chopping, can also single motor drive this two power transmission shaft 18,19 and rotate via another transmission mechanism.

Moreover, shown in the 6th figure, also whole rotating shaft 17 surfaces can be made the some cutting of spirality cutter tooth 28 with line cutting becoming the circular knife tooth and the plane knife plate of aforementioned knife plate and knife plate, this measure can reduce the cutting shear surface of moment, the required torsion of device running is reduced, and horsepower that can be lower drives this device.

Again, shown in the 7th figure, inside and outside cutter also can be set as zigzag, and the track of its cutting is shown in the 8th figure.Shaggy tooth portion by adjacent inside and outside cutter cooperatively interacts, and makes rotation Cutting trajectory 35 formation intersection area 36(double wedge and groove agree with the position mutually), revolution Cutting trajectory 37 and 38 on outer cutter also form intersection area 39; Utilize the intersection of double wedge and groove, article embedding folder is torn cut fragmentation.

In addition, at the inside and outside cutter of above-mentioned zigzag, also can set the position and set up dog 40 and short slot 41 at it, shown in nine, ten liang of figure, the material that utilizes dog 40 will be positioned at charging through hole 12 is dialled in accommodation space 11, or it is torn up, and can form intersections in three rotation tracks, 42 central authorities.

Or, shown in the 11 figure, 12 figure, two figure, can establish a pipe 43 at aforementioned three rotation Cutting trajectory central parts, this pipe 43 is fixed between two rotating disks 44,45.Pipe shaft is provided with several through holes 46, and its axis hole 47 is communicated with the axis hole 49 that first power transmission shaft 48 is preset.Axis hole 49 outer ends of first power transmission shaft 48 connect a universal joint 50 again, this universal joint 50 is connected to high pressure cooling fluid (as cold air or cold water an etc.) source of supply 52 with pipeline 51 again, make of through hole 46 ejections of high pressure cooling fluid, in order to the inside of cooling shredding mechanism by pipe 43.This measure can cool cutting material and inside and outside cutter, and the life-span of cutter is prolonged, and does not have the high heat that anxiety produces because of cutting the plastic cement material fusion of chopping is coated on sand grains or dust and other impurities in the cutting material.The fluid of high pressure ejection has the additional function that cleans cutting material surface, is convenient to follow-up recovery cleaning.

What need supplementary notes is that the present invention also can have other different variation pattern except above-mentioned embodiment.

Shown in the 13 figure, the formed rotation Cutting trajectory 52 of three rotating shafts also can be not tangent, makes it only shear action be arranged and do not have a shear action, and its revolution Cutting trajectory 53 is then still tangent and produce shear action with outer cutter 54, and this measure can reduce the demand of running horsepower.

Shown in the 14 figure, rotation Cutting trajectory 55 is not tangent, and revolution Cutting trajectory 55 is also not tangent with outer cutter 56, makes this shredding mechanism that quick shear action only be arranged and does not have shear action, therefore can make interior cutter rotary-cut material by high rotating speed, but not need too big horsepower.

Shown in the 15 figure, the double wedge 57 that outer cutter is set up with casing inner wall can be replaced, quick rotation of cutter and revolution rotary-cut material also can in only utilizing.

Again, this transmission mechanism 20 can be meshed transmission gear, can also pass through frictional drive with rubber tire, or with belt transmission.

Claims (12)

1, a kind of shredding mechanism comprises:

One casing, middle tool one accommodation space;

Two rotating disks are hubbed at the accommodation space both sides, are parallel arranged side by side;

The rotating shaft of predetermined number, parallel two rotating disks that are hubbed on can be driven around its axle center rotation by external force;

One first power transmission shaft, an end are installed with rotating disk central authorities, revolved round the sun around the axle center of this first power transmission shaft by external force driving this two rotating disk of drive and rotating shaft therebetween;

One second power transmission shaft is positioned at another rotating disk outer side edges, turned by external force;

One transmission mechanism reaches these rotating shafts respectively in order to the power with second power transmission shaft and makes its rotation;

At least one power source rotates in order to drive above-mentioned two power transmission shafts respectively;

One overload protection mechanism is located between first power transmission shaft and the power source, in order to the protection power source;

The interior cutter of predetermined number is located at these rotating shafts and along with rotation and revolution, and forms circular rotation Cutting trajectory and revolution Cutting trajectory, in order to the cutting material.

2,, it is characterized in that this casing wall is provided with outer cutter according to the described shredding mechanism of claim 1.

3,, it is characterized in that this casing wall is provided with double wedge according to the described shredding mechanism of claim 1.

4, according to the described shredding mechanism of claim 2, the revolution Cutting trajectory of cutter is tangent with outer cutter in it is characterized in that.

5, according to claim 1,2,3 or 4 described shredding mechanisms, it is characterized in that adjacent within cutter rotation Cutting trajectory tangent.

6,, it is characterized in that this power source is a motor, and this overload protection mechanism is a holding circuit according to the described shredding mechanism of claim 1.

7, according to claim 1 or 6 described shredding mechanisms, it is characterized in that this overload protection mechanism when the power source overload, use so that power source reverses predetermined space or after the time, recovering just changes again.

8,, it is characterized in that this transmission mechanism includes according to the described shredding mechanism of claim 1: a driving wheel, be located at the shaft core position of revolution, turned by second power transmission shaft; The driven pulley of predetermined number is driven by driving wheel and drives these rotating shaft rotations.

9, according to the described shredding mechanism of claim 1, it is characterized in that being provided with between this two rotating disk the pipe fitting of predetermined number, its pipe shaft is provided with several its axis holes of through hole conducting, this first power transmission shaft also is provided with axis hole and is communicated with aforementioned pipe fitting axis hole, the external again universal joint of the axis hole of this first power transmission shaft, this universal joint is connected to high pressure cooling fluid provider with pipeline.

10,, it is characterized in that these rotary shaft body bodies are provided with spiraled knife and cutter in integrally formed according to the described shredding mechanism of claim 1.

11,, it is characterized in that this inside and outside cutter indentation, and adjacent inside and outside cutter double wedge and groove cooperatively interact, and between adjacent rotation Cutting trajectory, form the intersection area according to the described shredding mechanism of claim 2; The revolution Cutting trajectory and outside also form the intersection area between cutter.

12,, it is characterized in that the predetermined position of this inside and outside cutter is provided with dog and short slot, and the dog between adjacent inside and outside cutter and short slot can cooperatively interact according to the described shredding mechanism of claim 2.

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