CN103599836A

CN103599836A - High-grease material smashing device

Info

Publication number: CN103599836A
Application number: CN201310660505.6A
Authority: CN
Inventors: 张丽琍; 祁斌; 吴雷
Original assignee: Anhui Yanzhifang Food Co Ltd
Current assignee: Anhui Yanzhifang Food Co Ltd
Priority date: 2013-12-10
Filing date: 2013-12-10
Publication date: 2014-02-26

Abstract

The invention discloses a high-grease material smashing device comprising a shell, a base arranged at the bottom of the shell and a screen mesh arranged inside the shell, wherein a feeding hole is formed above the shell, and a discharging hole is formed below the shell; one side of the shell is provided with a rotor through a bearing block; the end of the rotor, which is located inside the shell, is sleeved and fixedly provided with a first turntable and a second turntable; the inner side wall of the shell is provided with a fixed disk dead against the second turntable; a plurality of hammers are distributed along the circumference of the outer edge of the first turntable; the second turntable is provided with turntable teeth towards the side of the fixed disk; the fixed disk is provided with fixed disk teeth towards the side of the second turntable; the side wall of the shell is provided with an air injection tube above a coarse smashing chamber, so that high-pressure airflow is injected to the coarse smashing chamber and a fine smashing chamber. By using the high-grease material smashing device, the phenomena of screen blocking and screen pasting caused by smashing materials are avoided, and the smashing efficiency of the smashing device is effectively increased.

Description

A kind of high-lipid material reducing mechanism

Technical field

The present invention relates to the technical field of materiel machining, especially relate to a kind of high-lipid material reducing mechanism.

Background technology

At sesame, the contour oil material of peanut, carry out in the deep-processing process of miniaturization, pulverizer is a kind of conventional to the above-mentioned reducing mechanism containing the continuous feed of grease material, discharging.

In prior art, the crushing part of dry method impact grinder is blade type, pin bar type or hammer normally.For blade type, pulverize, because the power of blade cuts is strong far away from clashing into.Therefore the unit that material obtains pulverizes and can not, cause material particles to be difficult to carry out miniaturization pulverizing.And for pin bar type, beater grinder, it is pulverized is mainly to rely on effect of impact, but the high-lipid material for thermal sensitivity, bullet stickiness, clashing into moment, the heat gathering cannot shed and cause material to cohere and be difficult to pulverize, and the comminuting matter of high grease, multifilament, glutinous viscosity or dampness can cause stifled sieve or stick with paste sieve, thereby cause the crush efficiency of pulverizer low.

Summary of the invention

The object of the present invention is to provide a kind of high-lipid material reducing mechanism, can avoid high-lipid material cause stifled sieve or stick with paste sieve, effectively improve the crush efficiency of comminuting matter.

For achieving the above object, the present invention adopts following technical scheme:

A kind of high-lipid material reducing mechanism, comprise housing, the screen cloth of being located at the base of described housing bottom and being located at described enclosure interior, the top of described housing is provided with charging aperture, the below of described housing is provided with discharging opening, one side of described housing is provided with rotor by bearing block, described rotor is positioned at sheathed the first rotating disk and the second rotating disk of being fixed with on one end of housing, on described housing madial wall, over against described the second rotating disk, be provided with fixed disk, the outer rim of described the first rotating disk is circumferentially distributed with a plurality of hammer leaves along it, described the second rotating disk is provided with rolling disc tooth towards the side of described fixed disk, described fixed disk is provided with fixed disk tooth towards the side of described the second rotating disk, described the first rotating disk, the second rotating disk, between screen cloth and housing sidewall, form coarse crushing chamber, described the second rotating disk, between fixed disk and screen cloth, form thin pulverizing chamber, the sidewall of described housing is provided with air injection tube in top, described coarse crushing chamber, with to described coarse crushing chamber and thin pulverizing chamber inject high pressure air stream.

Further, in above-mentioned high-lipid material reducing mechanism, described in each, a plurality of hammer leaves comprise body, Access Division and sawtooth portion, and described body one end is located in described Access Division, and described sawtooth portion is along the circumferential setting of described body.

Further, in above-mentioned high-lipid material reducing mechanism, described a plurality of hammer leaves distribute along the even circumferential of the first rotating disk.

Further, in above-mentioned high-lipid material reducing mechanism, described a plurality of hammer leaves are removably connected to the outer rim of described the first rotating disk.

Further, in above-mentioned high-lipid material reducing mechanism, the land of described rolling disc tooth and fixed disk tooth is relative or be crisscross arranged.

Further, in above-mentioned high-lipid material reducing mechanism, described rolling disc tooth and fixed disk tooth are removably fixed in respectively on the second rotating disk and fixed disk.

Further, in above-mentioned high-lipid material reducing mechanism, described air injection tube comprises transverse tube portion and by described transverse tube portion one end vertically extending vertical tube portion, and the other end of described transverse tube portion is connected in source of high pressure air; One end of described vertical tube portion is gas outlet, with to described coarse crushing chamber and thin pulverizing chamber inject high pressure air stream.

Further, in above-mentioned high-lipid material reducing mechanism, described transverse tube portion stretches into part in housing and the both sides of vertical tube portion are provided with baffle.

Further, in above-mentioned high-lipid material reducing mechanism, described screen cloth is located at the top of the discharging opening of described housing.

Further, in above-mentioned high-lipid material reducing mechanism, be also provided with charging baffle plate on the inwall of described housing, described charging baffle plate tilts to be located at the below of described charging aperture.

High-lipid material reducing mechanism of the present invention is by carrying out two-stage pulverizing by material, form shock and cut dual crushing function, and arrange that air injection tube continues or by phased manner to described coarse crushing chamber inject high pressure air stream, thereby prevented that the comminuting matter stifled sieve causing and the phenomenon of sticking with paste sieve from producing, and effectively improved the crush efficiency of reducing mechanism.

Accompanying drawing explanation

Fig. 1 is the structural representation of high-lipid material reducing mechanism of the present invention;

Fig. 2 is along the generalized section of A-A ' line in Fig. 1;

Fig. 3 is the structural representation of hammer leaf in Fig. 2;

Fig. 4 is the effect schematic diagram that in Fig. 2, the second rotating disk and fixed disk carry out comminuting matter;

Fig. 5 is another effect schematic diagram that in Fig. 2, the second rotating disk and fixed disk carry out comminuting matter;

Fig. 6 is the structural representation of air injection tube in Fig. 2.

The specific embodiment

For the ease of understanding the present invention, below with reference to relevant drawings, the present invention is described more fully.In accompanying drawing, provided preferred embodiment of the present invention.But the present invention can realize in many different forms, be not limited to embodiment described herein.On the contrary, providing the object of these embodiment is to make to the understanding of disclosure of the present invention more thoroughly comprehensively.

Refer to Fig. 1 and Fig. 2, high-lipid material reducing mechanism of the present invention comprises housing 1, be located at the base 2 of described housing 1 bottom and the screen cloth 3 of being located at described housing 1 inside, the top of described housing 1 is provided with charging aperture 11, the below of described housing 1 is provided with discharging opening 12, one side of described housing 1 is provided with rotor 4 by bearing block (not shown), described rotor 4 is positioned at sheathed the first rotating disk 5 and the second rotating disk 6 of being fixed with on one end of housing 1, on described housing 1 madial wall, over against described the second rotating disk 6, be provided with fixed disk 7, the outer rim of described the first rotating disk 5 is circumferentially distributed with a plurality of hammer leaves 52 along it, described the second rotating disk 6 is provided with rolling disc tooth 8 towards the side of described fixed disk 7, described fixed disk 7 is provided with fixed disk tooth 9 towards the side of described the second rotating disk 6, described the first rotating disk 5, the second rotating disk 6, between screen cloth 3 and housing 1 sidewall, form coarse crushing chamber I, described the second rotating disk 6, between fixed disk 7 and screen cloth 3, form thin pulverizing chamber II, the sidewall of described housing 1 is provided with air injection tube 8 in described coarse crushing chamber I top, with to described coarse crushing chamber I and thin pulverizing chamber II inject high pressure air stream.

Wherein, the other end of described rotor 4 is connected in motor (not shown), can be under the driving of motor high speed rotating, thereby drive sheathed the first rotating disk 5 and the second rotating disk 6 being fixed on described rotor 4 to rotate.

Described screen cloth 3 is located at the inner chamber of described housing 1, and described screen cloth 3 coated described the first rotating disk 5, the second rotating disk 6 and fixed disk 7.Described screen cloth 3 is located at the top of the discharging opening 12 of described housing 1, and it,, for the high-lipid material after pulverizing is filtered and discharged, guarantees the fineness of crushing material, improves the degree of grinding of material.

On the inwall of described housing 1, be also provided with charging baffle plate 13, described charging baffle plate 13 tilts to be located at the below of described charging aperture 11, for coarse crushing chamber I that the material entering is led.Described charging baffle plate 13 is removably located at the inwall of described housing 1, if desired, can pull down described charging baffle plate 13, to increase the charging rate of material.

Described the first rotating disk 5 is fixed in described rotor 4 by axle sleeve (not shown) is sheathed, and described a plurality of hammer leaves 52 are removably connected to the outer rim of described the first rotating disk 5, when there is wear damage in described hammer leaf 52, and conveniently replaced hammer leaf; And described a plurality of hammer leaf 52 distributes along the even circumferential of the first rotating disk 52, like this, when high-lipid material enters into coarse crushing chamber I by charging aperture 11, described the first rotating disk 5 rotates, drive described a plurality of hammer leaf 52 to smash described material, thereby material is carried out to coarse crushing processing.

See also Fig. 2 and Fig. 3, described in each, a plurality of hammer leaves 52 comprise body 522, Access Division 524 and sawtooth portion 526, and described body 522 one end are located in described Access Division 524, and described sawtooth portion 526 is along the circumferential setting of described body 522.Described Access Division 524 can connect and fix in described the first rotating disk 5.Like this, by sawtooth portion 526 is set, hammer leaf 52 is when shock smashes described material, and the land of described sawtooth portion 526 can cut the material of process, thereby form, clashes into and cuts dual crushing function, has greatly improved the crushing effect of material.

See also Fig. 2, Fig. 4 and Fig. 5, the land of described rolling disc tooth 8 and fixed disk tooth 9 is relative or be crisscross arranged, and form narrow space between described rolling disc tooth 8 and fixed disk tooth 9, when the material after coarse crushing enters in thin pulverizing chamber II, the land of described rolling disc tooth 8 and fixed disk tooth 9 corresponding thereto carries out strong shear action to material, thereby be fine particle by material cutting, and described rotor 4 can drive described rolling disc tooth 8 to rotate forward or backwards, make like this land bilateral of described rolling disc tooth 8 and fixed disk tooth 9 corresponding thereto all can cut material, more strengthened the shear action to material, in addition, the land of described rolling disc tooth 8 and fixed disk tooth 9 sides corresponding thereto also can cut or effect of impact material, thereby further improves the crushing effect of material.

Wherein, described rolling disc tooth 8 is to be all removably fixed in respectively on the second rotating disk 6 and fixed disk 7 with fixed disk tooth 9, like this when there is effect of attrition crushing effect in rolling disc tooth 8 and fixed disk tooth 9, can only change tooth bar, and do not need to change the second rotating disk or fixed disk, save like this material, reduced cost, be conducive to energy-conserving and environment-protective.

Refer to Fig. 6, described air injection tube 8 comprises transverse tube portion 82 and by 82 one end vertically extending vertical tube portions 84 of described transverse tube portion, and the other end of described transverse tube portion 82 is connected in source of high pressure air (not shown), is air inlet; One end of described vertical tube portion 84 is gas outlet, towards coarse crushing chamber I and thin pulverizing chamber II, for to described coarse crushing chamber I and thin pulverizing chamber II inject high pressure air stream.Like this, by when this high-lipid material reducing mechanism is worked, source of high pressure air continues by described air injection tube 8 or by phased manner to described coarse crushing chamber I and thin pulverizing chamber II inject high pressure air stream, and under the rotary action of rotor 4, forming random pressure-air stream sends forth to coarse crushing chamber I and thin pulverizing chamber II, pressure-air stream is impacted fully to the material of coarse crushing chamber I and thin pulverizing chamber II, destroy the formation of the material ring of material, prevented that the comminuting matter stifled sieve causing and the phenomenon of sticking with paste sieve from producing, shortened the time of crushing material, effectively improved the crush efficiency of reducing mechanism, and saved the energy, reduced cost.

Described transverse tube portion 82 stretches into part in housing 1 and the both sides of vertical tube portion 84 are provided with baffle 86, for preventing that crushing process material from directly clashing into transverse tube portion 82 and vertical tube portion 84, thereby has extended the service life of air injection tube 8.

High-lipid material reducing mechanism operation principle of the present invention is as follows:

First, high-lipid material enters housing 1 by described charging aperture 13, and enters into coarse crushing chamber I by the effect of charging baffle plate 13; Now, starter motor rotor driven 4 starts to rotate, and drive described the first rotating disk 5 and described a plurality of hammer leaf 52 high speed rotating, on the one hand, described hammer leaf 52 smashes material by shock, on the other hand, land by sawtooth portion 526 on hammer leaf 52 cuts the material of process, thereby form, clash into and cut dual crushing function, greatly having improved the crushing effect of material, so just having completed the first order crushed work to material.

Material after hammer leaf 52 is pulverized enters in thin pulverizing chamber II with air-flow, the land of described rolling disc tooth 8 and fixed disk tooth 9 carries out strong shear action to material, thereby be fine particle by material cutting, and described rotor 4 can drive described rolling disc tooth 8 to rotate forward or backwards, make the land bilateral of described rolling disc tooth 8 and fixed disk tooth 9 corresponding thereto all can cut material, more strengthened the shear action to material; In addition, the land of described rolling disc tooth 8 and fixed disk tooth 9 sides corresponding thereto also can cut or effect of impact material, thereby further improves the crushing effect of material.So just complete two-stage crushed work, crushing material to required fine particle, and is finally discharged by discharging opening 12 through screen cloth 3, carry out finished product packing.

In crushing material process, by source of high pressure air, by described air injection tube 8, continued or by phased manner to described coarse crushing chamber I and thin pulverizing chamber II inject high pressure air stream, prevented that the comminuting matter stifled sieve causing and the phenomenon of sticking with paste sieve from producing, and effectively improved the crush efficiency of reducing mechanism.

Than prior art, high-lipid material reducing mechanism of the present invention is by carrying out two-stage pulverizing by material, form shock and cut dual crushing function, and arrange that air injection tube continues or by phased manner to described coarse crushing chamber inject high pressure air stream, thereby prevented that the comminuting matter stifled sieve causing and the phenomenon of sticking with paste sieve from producing, and effectively improved the crush efficiency of reducing mechanism.

Here description of the invention and application is illustrative, not wants by scope restriction of the present invention in the above-described embodiments.Here the distortion of disclosed embodiment and change is possible, and for those those of ordinary skill in the art, the various parts of the replacement of embodiment and equivalence are known.Those skilled in the art are noted that in the situation that not departing from spirit of the present invention or substantive characteristics, and the present invention can be with other form, structure, layout, ratio, and realizes with other assembly, material and parts.In the situation that not departing from the scope of the invention and spirit, can carry out other distortion and change to disclosed embodiment here.

Claims

1. a high-lipid material reducing mechanism, it is characterized in that, comprise housing, the screen cloth of being located at the base of described housing bottom and being located at described enclosure interior, the top of described housing is provided with charging aperture, the below of described housing is provided with discharging opening, one side of described housing is provided with rotor by bearing block, described rotor is positioned at sheathed the first rotating disk and the second rotating disk of being fixed with on one end of housing, on described housing madial wall, over against described the second rotating disk, be provided with fixed disk, the outer rim of described the first rotating disk is circumferentially distributed with a plurality of hammer leaves along it, described the second rotating disk is provided with rolling disc tooth towards the side of described fixed disk, described fixed disk is provided with fixed disk tooth towards the side of described the second rotating disk, described the first rotating disk, the second rotating disk, between screen cloth and housing sidewall, form coarse crushing chamber, described the second rotating disk, between fixed disk and screen cloth, form thin pulverizing chamber, the sidewall of described housing is provided with air injection tube in top, described coarse crushing chamber, with to described coarse crushing chamber and thin pulverizing chamber inject high pressure air stream.

2. high-lipid material reducing mechanism according to claim 1, is characterized in that, described in each, a plurality of hammer leaves comprise body, Access Division and sawtooth portion, and described body one end is located in described Access Division, and described sawtooth portion is along the circumferential setting of described body.

3. high-lipid material reducing mechanism according to claim 2, is characterized in that, described a plurality of hammer leaves distribute along the even circumferential of the first rotating disk.

4. high-lipid material reducing mechanism according to claim 3, is characterized in that, described a plurality of hammer leaves are removably connected to the outer rim of described the first rotating disk.

5. high-lipid material reducing mechanism according to claim 1, is characterized in that, the land of described rolling disc tooth and fixed disk tooth is relative or be crisscross arranged.

6. high-lipid material reducing mechanism according to claim 5, is characterized in that, described rolling disc tooth and fixed disk tooth are removably fixed in respectively on the second rotating disk and fixed disk.

7. high-lipid material reducing mechanism according to claim 1, is characterized in that, described air injection tube comprises transverse tube portion and by described transverse tube portion one end vertically extending vertical tube portion, and the other end of described transverse tube portion is connected in source of high pressure air; One end of described vertical tube portion is gas outlet, with to described coarse crushing chamber and thin pulverizing chamber inject high pressure air stream.

8. high-lipid material reducing mechanism according to claim 7, is characterized in that, described transverse tube portion stretches into part in housing and the both sides of vertical tube portion are provided with baffle.

9. high-lipid material reducing mechanism according to claim 1, is characterized in that, described screen cloth is located at the top of the discharging opening of described housing.

10. high-lipid material reducing mechanism according to claim 1, is characterized in that, is also provided with charging baffle plate on the inwall of described housing, and described charging baffle plate tilts to be located at the below of described charging aperture.