CN203935891U - A kind of honeycomb mill - Google Patents

Abstract

The utility model discloses a kind of honeycomb mill, comprise support, be arranged at the air quantity chamber on support, air quantity chamber comprises honeycomb mill housing, through honeycomb, grinds the main shaft of housing and be arranged at the dispersion wheel on main shaft, main shaft drives rotation by the first drive motors being arranged on support, also comprise: the depolymerization storehouse that is arranged at top, air quantity chamber, in depolymerization storehouse, there are a plurality of depolymerization wheel bodies that are sheathed on main shaft, the top of honeycomb mill housing has the centre bore that is communicated with depolymerization storehouse, and main shaft is through described centre bore.The honeycomb mill that the utility model provides, first material and hot blast enter air quantity chamber, material is evenly distributed in hot-air in rotary course at a high speed, be subject to good moisture evaporation, under the effect of centrifugal force, thick material is subject to impacting at the edge of honeycomb mill and has formed tiny particle, and the centre that acts on whirlpool that fine grained has been subject to centrifugal force is drawn into depolymerization storehouse.In depolymerization storehouse, by depolymerization, take turns the rotation of body and can rapidly material be worn into superfines.

Description

A kind of honeycomb mill

Technical field

The utility model relates to drying equipment technical field, more particularly, relates to a kind of honeycomb mill.

Background technology

Have in the market many similar drying equipments, as baking oven, band drier, rotary drum drying machine, fluid bed dryer, pneumatic drier, spray dryer, powerful smashing drying machine, whizzer, spray tower, they are at structural principle, though the aspect such as version and the scope of application is different, there is a common ground just can possess single functions/drying or simply break up function.But all can not synchronously realize function of more than two kinds, limit the development of industry and client's demand.

In many industries, powder needs to be dried after extra-fine grinding, such as wet ultra-fine grinding post-drying is easily formed bulk, can not revert to the particle diameter after wet grinding, must increase beater then reduce, but current beater can not revert to the fineness of wet grinding completely, has limited these sector applications.

In some industry, wet grinding is dried, also needs to carry out after breaing up reduction the surface modification of material, so also need to increase a modifying machine and complete these work, problem at modifying machine due to the restriction of equipment and the difference of principle, these techniques are often monopolized by overseas equipment, increased client's investment, the attended operation difficulty of import equipment is very large, and the result of modification is also undesirable.

In addition, well-known, material is less, and surface area is larger, and the scope of the hot-air radiation of contact is wider, and dry efficiency is higher.Particle is less simultaneously, and the modifier chance of the larger contact of surface area is more, and degree of modification is just higher.

Existing equipment hot-air and material are to separate access arrangement, and the hot-air that utilizes that can not be limited preheats material in Flows, has wasted a lot of heat energies.And existing equipment is owing to can not effectively breaing up the material of reunion, because hot-air is from the local access arrangement lower than charging aperture, material particles is large, moisture content is high, do not have predrying, surface area is little, the particle outside that material reunion forms is subject to suddenly the heating of hot-air, the rapidly evaporation and dry and hard of the moisture on surface, the moisture of granule interior forms the agglomerated particle that cannot break up because cannot come out after the dry and hard film that surface moisture evaporation forms, Here it is, and equipment drying efficiency is low at present, breaks up and goes back original error, the basic reason that degree of modification is low.

In addition, hot-air and material are all the side tangent line access arrangements from equipment, the monolateral impact that is subject to material and hot-air of equipment, fluctuation of service, fault probability increases, and the operation of bearing and main shaft is worked the mischief, so the Design of Transmission System of equipment is complicated, need auxiliary cooling, lubricating system.

A lot of producers are in order to overcome the problems referred to above, purchase separately the equipment of simple function, cause the numerous equipment of these complicated techniques to form very long production line, technological process is long, equipment is many, floor space is large, energy consumption is large, complicated operation, technique are difficult to adjustment, can not guarantee quality and the quality of product.

At present with scientific and technical progress and the demand of industry, increasing process application needs a kind of equipment that dry, depolymerization, modification, grinding are synchronously carried out that collect.

Therefore, how to make can to realize depolymerization after material grinds, break up, modification is dried, dry, grind, become those skilled in the art's technical problem urgently to be resolved hurrily.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of honeycomb mill so that after material grinds, can realize depolymerization, break up, modification is dried, dry, grind.

For achieving the above object, the utility model provides following technical scheme:

A kind of honeycomb mill, comprise support, be arranged at the air quantity chamber on described support, described air quantity chamber comprises honeycomb mill housing, through described honeycomb, grinds the main shaft of housing and be arranged at the dispersion wheel on described main shaft, described main shaft drives rotation by the first drive motors being arranged on described support, also comprises:

Be arranged at the depolymerization storehouse on top, described air quantity chamber, have a plurality of depolymerization wheel bodies that are sheathed on described main shaft in described depolymerization storehouse, the top of described honeycomb mill housing has the centre bore that is communicated with described depolymerization storehouse, and described main shaft is through described centre bore;

Be arranged at the sorting bin on top, described depolymerization storehouse, described sorting bin has the substandard product backward channel being communicated with the entrance of described air quantity chamber;

Be arranged at the finished product materials storehouse on described sorting bin top, described finished product materials storehouse has finished product materials outlet, is provided with the second drive motors on described sorting bin, and described the second drive motors is for driving the separation wheel in described sorting bin to rotate.

Preferably, in above-mentioned honeycomb mill, on the sidewall of described honeycomb mill housing, be provided with for pass into the hot blast material inlet of hot blast and material simultaneously.

Preferably, in above-mentioned honeycomb mill, described dispersion wheel at least comprises the first dispersion wheel and the second dispersion wheel that radius of turn is different.

Preferably, in above-mentioned honeycomb mill, described the first dispersion wheel comprises two dispersion wheel blades along the axis centre symmetry of described main shaft;

Described the second dispersion wheel comprises two dispersion wheel blades along the axis centre symmetry of described main shaft;

Two dispersion wheel blades of described the first dispersion wheel are vertical with two dispersion wheel blades of described the second dispersion wheel.

Preferably, in above-mentioned honeycomb mill, the axis of described hot blast material inlet and the intersect vertical axis of described main shaft.

Preferably, in above-mentioned honeycomb mill, described depolymerization wheel body is a plurality of, and along described main shaft axial distribution;

On described main shaft, be arranged with a plurality of clamping plate fixed disks;

Described depolymerization wheel body comprises:

Train wheel bridge, is clamped between two clamping plate fixed disks corresponding with described train wheel bridge;

Lower plate, is clamped between two clamping plate fixed disks corresponding with described lower plate;

Depolymerization impeller blade, is fixed between described train wheel bridge and described lower plate.

Preferably, in above-mentioned honeycomb mill, described depolymerization impeller blade is a plurality of, and is evenly arranged along the circumferencial direction of described train wheel bridge.

Preferably, in above-mentioned honeycomb mill, the edge of described train wheel bridge offers a plurality of upper fixing holes, and the edge of described lower plate offers and fixed hole lower fixed hole one to one;

The upper end of described depolymerization impeller blade is provided with the upper fixed part coordinating with fixed hole, and the lower end of described depolymerization impeller blade is provided with the lower fixed part coordinating with described lower fixed hole.

Preferably, in above-mentioned honeycomb mill, described depolymerization wheel body also comprises for straining the pull bar of described train wheel bridge and described lower plate.

Preferably, in above-mentioned honeycomb mill, described pull bar comprises:

Be arranged at the fixedly swivel nut between described train wheel bridge and described lower plate;

The upper set bolt coordinating with the threaded one end of described fixedly swivel nut through described train wheel bridge;

Pass the lower set bolt of the other end threaded engagement of described lower plate and described fixedly swivel nut.

Preferably, in above-mentioned honeycomb mill, described depolymerization also has the wind wheel being sheathed on described main shaft in storehouse, and described wind wheel is arranged in the porch in depolymerization storehouse;

Described wind wheel comprises:

Be sheathed on the wheel sheet mounting disc on described main shaft;

A plurality of sheets of taking turns that are evenly arranged along described circumferencial direction of taking turns sheet mounting disc, the described sheet of taking turns is arranged in and describedly takes turns sheet mounting disc near a side of the porch in depolymerization storehouse.

Preferably, in above-mentioned honeycomb mill, on the outer tube inner wall in described depolymerization storehouse, be provided with depolymerization tooth plate, described depolymerization tooth plate has a plurality of depolymerization teeth.

From above-mentioned technical scheme, can find out, the honeycomb mill that the utility model provides, mainly consists of air quantity chamber, depolymerization storehouse and sorting bin three chambers.First material and hot blast enter air quantity chamber, in air quantity chamber, be subject to the impact of dispersion wheel, formed a large whirlpool, material is evenly distributed in hot-air in rotary course at a high speed, be subject to good moisture evaporation, under the effect of centrifugal force, thick material is subject to impacting at the edge of honeycomb mill and has formed tiny particle, and the centre bore that fine grained has been subject to the centre that acts on whirlpool of centrifugal force grinding housing by honeycomb is drawn into depolymerization storehouse.In depolymerization storehouse, by depolymerization, take turns the rotation of body and can rapidly material be worn into superfines, superfines is drawn into sorting bin, under the rotation of separation wheel, the superfines of lighter weight is extracted into finished product materials storehouse, and discharge in finished product materials outlet, the heavier substandard product of quality returns to air quantity chamber by substandard product backward channel and circulates.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skills, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

The structural representation that the honeycomb that Fig. 1 provides for the utility model embodiment grinds;

The structural representation of the air quantity chamber that Fig. 2 provides for the utility model embodiment;

The top view of the air quantity chamber that Fig. 3 provides for the utility model embodiment;

The structural representation in the depolymerization storehouse that Fig. 4 provides for the utility model embodiment;

The partial structurtes schematic diagram in the depolymerization storehouse that Fig. 5 provides for the utility model embodiment;

Fig. 6 is the top view of Fig. 5;

The structural representation of the depolymerization impeller blade that Fig. 7 provides for the utility model embodiment;

The structural representation of the wind wheel that Fig. 8 provides for the utility model embodiment;

The top view of the wind wheel that Fig. 9 provides for the utility model embodiment.

The specific embodiment

Core of the present utility model is to provide a kind of honeycomb mill so that after material grinds, can realize depolymerization, break up, modification is dried, dry, grind.

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is only the utility model part embodiment, rather than whole embodiment.Embodiment based in the utility model, those of ordinary skills are not making the every other embodiment obtaining under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 1-Fig. 9, the structural representation that the honeycomb that Fig. 1 provides for the utility model embodiment grinds; The structural representation of the air quantity chamber that Fig. 2 provides for the utility model embodiment; The top view of the air quantity chamber that Fig. 3 provides for the utility model embodiment; The structural representation in the depolymerization storehouse that Fig. 4 provides for the utility model embodiment; The partial structurtes schematic diagram in the depolymerization storehouse that Fig. 5 provides for the utility model embodiment; Fig. 6 is the top view of Fig. 5; The structural representation of the depolymerization impeller blade that Fig. 7 provides for the utility model embodiment; The structural representation of the wind wheel that Fig. 8 provides for the utility model embodiment; The top view of the wind wheel that Fig. 9 provides for the utility model embodiment.

The honeycomb mill that the utility model embodiment provides, comprise support 300, be arranged at the air quantity chamber 100 on support 300, air quantity chamber 100 comprises honeycomb mill housing 102, through honeycomb, grinds the main shaft 101 of housing 102 and be arranged at the dispersion wheel on main shaft 101, main shaft 101 drives and rotates by being arranged at the first drive motors 200 on support 300, the first drive motors 200 can be by the mode with transmission by transmission of power to main shaft 101.The utility model also comprises depolymerization storehouse 400, sorting bin 500 and finished product materials storehouse 600.

Depolymerization storehouse 400 is arranged at the top of air quantity chamber 100, depolymerization storehouse 400 comprises urceolus 420 and is arranged in urceolus 420, and be sheathed on a plurality of depolymerization wheel bodies 410 on main shaft 101, the top of honeycomb mill housing 102 has the centre bore that is communicated with depolymerization storehouse 400, and main shaft 101 is through described centre bore.

Sorting bin 500 is arranged at the top in depolymerization storehouse 400, and sorting bin 500 has the substandard product backward channel being communicated with the entrance of air quantity chamber 100, and sorting bin 500 can be common separator, can be understood as separator is integrated in honeycomb mill.

Finished product materials storehouse 600 is arranged at the top of sorting bin 500, and finished product materials storehouse 600 has finished product materials outlet, is provided with the second drive motors 700, the second drive motors 700 for driving the separation wheel in sorting bin 500 to rotate on sorting bin 500.

The honeycomb mill that the utility model provides, mainly consists of air quantity chamber 100, depolymerization storehouse 400 and sorting bin 500 three chambers.First material and hot blast enter air quantity chamber 100, in air quantity chamber 100, be subject to the impact of dispersion wheel, formed a large whirlpool, material is evenly distributed in hot-air in rotary course at a high speed, be subject to good moisture evaporation, under the effect of centrifugal force, thick material is subject to impacting at the edge of honeycomb mill and has formed tiny particle, and the centre that acts on whirlpool that fine grained has been subject to centrifugal force is drawn into depolymerization storehouse.In depolymerization storehouse, by depolymerization, take turns the rotation of body and can rapidly material be worn into superfines, superfines is drawn into sorting bin, under the rotation of separation wheel, the superfines of lighter weight is extracted into finished product materials storehouse, and discharge in finished product materials outlet, the heavier substandard product of quality returns to air quantity chamber by substandard product backward channel and circulates.

As shown in Figures 2 and 3, the top of air quantity chamber housing 102 has central outlet, i.e. the entrance in depolymerization storehouse.On the sidewall of air quantity chamber housing 102, be provided with for pass into the hot blast material inlet 106 of hot blast and material simultaneously, concrete can arrange an intake channel on the sidewall of air quantity chamber housing 102, hot-wind inlet and material inlet are set on intake channel, axially can vertically arranging of material inlet, axially can along continuous straight runs the arranging of hot-wind inlet.

The utility model provides by be provided for passing into the hot blast material inlet 106 of hot blast and material on the sidewall at air quantity chamber housing 102 simultaneously, by this hot blast material inlet 106, make hot blast and material enter air quantity chamber simultaneously, in air quantity chamber, be subject to the impact of dispersion wheel, formed a large whirlpool, material is evenly distributed in hot-air in rotary course at a high speed, obtained good moisture evaporation, under the effect of centrifugal force, thick material is subject at the edge of air quantity chamber impacting and has formed tiny particle, the centre bore that fine grained has been subject to the centre that acts on whirlpool of centrifugal force grinding housing by honeycomb is drawn into depolymerization storehouse.The utility model is by pass into air quantity chamber by material and hot blast simultaneously, avoided particle outside to be subject to suddenly the heating of hot-air, and the evaporation and dry and hard rapidly of the moisture on surface causes the drawback of the agglomerated particle that cannot break up.

In the utility model one specific embodiment, the intersect vertical axis of the axis of hot blast material inlet 106 and described main shaft 101, makes pan feeding more even, is easy to reach depolymerization, dry object.

In the utility model one specific embodiment, dispersion wheel can directly be sheathed on main shaft 101, also can indirectly be connected on main shaft 101.On main shaft 101, by key, be connected with drive 103, dispersion wheel is sheathed on drive 103, and is fixed with drive 103, also can be directly mode by interference fit be set on drive 103.

In the utility model one specific embodiment, dispersion wheel at least comprises the first dispersion wheel 104 and the second dispersion wheel 105 that radius of turn is different.The radius of turn of the first dispersion wheel 104 is greater than the radius of turn of the second dispersion wheel 105, and the first dispersion wheel 104 is positioned at the top of the second dispersion wheel 105.

In the utility model one specific embodiment, the first dispersion wheel 104 comprises two dispersion wheel blades along the axis centre symmetry of main shaft 101, the second dispersion wheel 105 comprises two dispersion wheel blades along the axis centre symmetry of main shaft 101, two dispersion wheel blades of the first dispersion wheel 104 are vertical with two dispersion wheel blades of the second dispersion wheel 105, can avoid the eccentric force producing when two dispersion wheel High Rotation Speeds.

As shown in Figure 4 and Figure 5, a plurality of depolymerization wheel bodies 410 are along main shaft 101 axial distribution.The utility model, by the depolymerization wheel of integral type in prior art, has been divided into a plurality of depolymerization wheel bodies 410 that are sheathed on main shaft 101.The utility model by arranging a plurality of depolymerization wheel bodies 410 on main shaft 101, when a depolymerization wheel body 410 wearing and tearing therein need to be changed, only need to change this depolymerization wheel body 410, without whole depolymerization wheel is changed, reduce maintenance cost.

In the utility model one specific embodiment, on main shaft 101, be arranged with a plurality of clamping plate fixed disks, depolymerization wheel body 410 is fixed on main shaft 101 by clamping plate fixed disk.One of them clamping plate fixed disk is connected on main shaft 101 by key, the mode that other clamping plate fixed disk connects by pin and clamping plate fixed disk (this clamping plate fixed disk is for being connected to the clamping plate fixed disk on main shaft 101 by key).

Depolymerization wheel body 410 comprises train wheel bridge 411, lower plate 412 and depolymerization impeller blade 413.

Wherein, train wheel bridge 411 is clamped between two clamping plate fixed disks corresponding with it, and lower plate 412 is clamped between two clamping plate fixed disks corresponding with it, clamps a train wheel bridge 411 and a lower plate 412 between two clamping plate fixed disks.One in a plurality of clamping plate fixed disks is connected and is realized transmission of power by key with main shaft 101, and other clamping plate fixed disk is realized and is connected to each other and connects with above-mentioned clamping plate fixed disk (the clamping plate fixed disk being connected by key with main shaft 101) by trundle.

Depolymerization impeller blade 413 is fixed between train wheel bridge 411 and lower plate 412, and preferred depolymerization impeller blade 413 is arranged in parallel with main shaft 101.Depolymerization impeller blade 413 can be dismantled easily, and depolymerization wheel body 410 can directly split out in depolymerization storehouse, in grinding machine outside, places under repair, and has reduced downtime.

In the utility model one specific embodiment, depolymerization impeller blade 413 is a plurality of, and is evenly arranged along the circumferencial direction of train wheel bridge 411.The depolymerization impeller blade 413 of each depolymerization wheel body 410 is 200, and according to concrete load requirement, a honeycomb mill can be installed at most 8 depolymerization wheel bodies 410,1600 depolymerization impeller blades 413 altogether, and depolymerization impeller blade 413 rotates with the speed of 80-160 meter per second.

As shown in Figure 7, in the utility model one specific embodiment, the edge of train wheel bridge 411 offers a plurality of upper fixing holes, between the edge of upper fixing hole and train wheel bridge 411, form upper fixture block, the edge of lower plate 412 offers and upper fixing hole lower fixed hole one to one, forms lower fixture block between lower fixed hole and the edge of lower plate 412.

The upper end of depolymerization impeller blade 413 is provided with the upper fixed part 4131 coordinating with upper fixing hole, and after upper fixed part 4131 inserts in fixing hole, upper fixture block snaps in the upper draw-in groove 4133 on depolymerization impeller blade 413, and upper draw-in groove 4133 is positioned at the rear portion of fixed part 4131.

The lower end of depolymerization impeller blade 413 is provided with the lower fixed part 4132 coordinating with lower fixed hole, and after lower fixed part 4132 inserts in lower fixed hole, lower fixture block snaps in the lower bayonet slot 4134 on depolymerization impeller blade 413, and lower bayonet slot 4134 is positioned at the rear portion of lower fixed part 4132.

As shown in Figure 5, in the utility model one specific embodiment, depolymerization wheel body 410 also comprises that the utility model can improve the clamping degree to depolymerization impeller blade 413 by pull bar 450 is set for straining the pull bar 450 of train wheel bridge 411 and lower plate 412.

In the present embodiment, pull bar 450 comprises fixedly swivel nut 451, upper set bolt 452 and lower set bolt 453.

Wherein, fixedly swivel nut 451 is arranged between train wheel bridge 411 and lower plate 412, and upper set bolt 452 coordinates with the fixing threaded one end of swivel nut 451 through train wheel bridge 411, and lower set bolt 453 passes lower plate 412 and the fixing other end threaded engagement of swivel nut 451.

Refer to Fig. 8 and Fig. 9, in the utility model one specific embodiment, the utility model also can comprise the wind wheel 430 being sheathed on main shaft 101, and wind wheel 430 is arranged in the porch in depolymerization storehouse.When main shaft 101 rotates, wind wheel 430 can be drawn into entrance in depolymerization storehouse by entrance, and by depolymerization impeller blade 413, material is worn into after superfines, by the outlet in depolymerization storehouse, is discharged.

In the utility model one specific embodiment, wind wheel 430 comprises wheel sheet mounting disc 431 and wheel sheet 432.

Wherein, wheel sheet mounting disc 431 is sheathed on main shaft 101, and wheel sheet 432 is a plurality of, and is evenly arranged along the circumferencial direction of wheel sheet mounting disc 431, and wheel sheet 432 is arranged in a side of wheel sheet mounting disc 431 porch near depolymerization storehouse.

As shown in Figure 6, the disclosed depolymerization of the utility model embodiment storehouse, comprises urceolus 420 and the depolymerization wheel that is arranged at urceolus 420 inside, and the bottom of urceolus 420 has entrance, and top has outlet, and wherein, depolymerization wheel comprises a plurality of above-disclosed depolymerization wheel bodies.On the sidewall of urceolus 420, be provided with modifier and add mouth.

Depolymerization storehouse also comprises the depolymerization tooth plate 440 being arranged on urceolus 420 inwalls, and depolymerization tooth plate 440 has a plurality of depolymerization teeth.Between depolymerization impeller blade 413 and depolymerization tooth plate 440, form " honeycomb " of maximum 1200-2000 turbulent flow, pressure therebetween, shearing force and frictional force, can wear into superfines by material rapidly.

Functional material (a kind of material) often needs to carry out surface treatment, changes that it is functional.Most surfactants, can after metering, inject the depolymerization storehouse of grinding machine according to a certain percentage, under some conditions, can apply two or more coated media simultaneously.

The material of depolymerization impeller blade 413 can adopt hardened steel, stainless steel, or carbonization wolfram steel.Depolymerization tooth plate 440 materials adopt steel, high ferrochrome, stainless steel, or high alumina ceramic.

Honeycomb mill is that a kind of wind is swept formula system, and material enters system by air stream, different according to the characteristic of material, through quantitative weighing, and the thermal air current access arrangement that material is controlled by RHVC.After machining, finished product leaves grinding machine by air stream, goes to cyclone separator and/or goes to reverse blowing bag filter.

The product that has accurate particle diameter to distribute and require when production, or when need to remove hard impurity, the selection by winnowing separator that honeycomb mill will a supporting drive, its speed is by Frequency Converter Control.Screening installation (being sorting bin) is arranged on the upper end of grinding machine, before product discharge district.Large scale material or abandoned, or be circulated back to feeding mouth.

When process gas is after heat blower heating, honeycomb mill just becomes an efficient drying machine.The maximum temperature that honeycomb mill can be accepted is 450 ℃, by controlling outlet temperature, controls the degree of drying of product, and typical outlet temperature is 85 ℃.

Filter cake, ooze and slurry can be realized dry and depolymerization by once-through operation simultaneously, and the particle diameter after depolymerization approaches the particle diameter of their natural crystalline forms.Usually, slurry is by slush pump, through special nozzle, spurts into grinding machine.

The honeycomb mill that the utility model provides adopts modularized design, so just allows every equipment, in the situation that keeping basic principle and identical spare part constant, for special application, carries out special design.This modular structural design, order is changed and is very easy to safeguarding with movement parts.

In this description, each embodiment adopts the mode of going forward one by one to describe, and each embodiment stresses is the difference with other embodiment, between each embodiment identical similar part mutually referring to.

Above-mentioned explanation to the disclosed embodiments, makes professional and technical personnel in the field can realize or use the utility model.To the multiple modification of these embodiment, will be apparent for those skilled in the art, General Principle as defined herein can, in the situation that not departing from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (12)

1. a honeycomb grinds, comprise support (300), be arranged at the air quantity chamber (100) on described support (300), described air quantity chamber (100) comprises honeycomb mill housing (102), through described honeycomb, grinds the main shaft (101) of housing (102) and be arranged at the dispersion wheel on described main shaft (101), described main shaft (101) drives rotation by the first drive motors (200) being arranged on described support (300), it is characterized in that, also comprise:

Be arranged at the depolymerization storehouse (400) on top, described air quantity chamber (100), in described depolymerization storehouse (400), there are a plurality of depolymerization wheel bodies (410) that are sheathed on described main shaft (101), the top of described honeycomb mill housing (102) has the centre bore that is communicated with described depolymerization storehouse (400), and described main shaft (101) is through described centre bore;

Be arranged at the sorting bin (500) on top, described depolymerization storehouse (400), described sorting bin (500) has the substandard product backward channel being communicated with the entrance of described air quantity chamber (100);

Be arranged at the finished product materials storehouse (600) on described sorting bin (500) top, described finished product materials storehouse (600) has finished product materials outlet, on described sorting bin (500), be provided with the second drive motors (700), described the second drive motors (700) is for driving the separation wheel in described sorting bin (500) to rotate.

2. honeycomb mill as claimed in claim 1, is characterized in that, on the sidewall of described honeycomb mill housing (102), is provided with for pass into the hot blast material inlet (106) of hot blast and material simultaneously.

3. honeycomb mill as claimed in claim 1, is characterized in that, described dispersion wheel at least comprises the first dispersion wheel (104) and the second dispersion wheel (105) that radius of turn is different.

4. honeycomb mill as claimed in claim 3, is characterized in that, described the first dispersion wheel (104) comprises two dispersion wheel blades along the axis centre symmetry of described main shaft (101);

Described the second dispersion wheel (105) comprises two dispersion wheel blades along the axis centre symmetry of described main shaft (101);

Two dispersion wheel blades of described the first dispersion wheel (104) are vertical with two dispersion wheel blades of described the second dispersion wheel (105).

5. honeycomb mill as claimed in claim 2, is characterized in that the intersect vertical axis of the axis of described hot blast material inlet (106) and described main shaft (101).

6. the mill of the honeycomb as described in claim 1-5 any one, is characterized in that, described depolymerization wheel body (410) is a plurality of, and along described main shaft (101) axial distribution;

On described main shaft (101), be arranged with a plurality of clamping plate fixed disks;

Described depolymerization wheel body (410) comprising:

Train wheel bridge (411), is clamped between two clamping plate fixed disks corresponding with described train wheel bridge (411);

Lower plate (412), is clamped between two clamping plate fixed disks corresponding with described lower plate (412);

Depolymerization impeller blade (413), is fixed between described train wheel bridge (411) and described lower plate (412).

7. honeycomb mill as claimed in claim 6, is characterized in that, described depolymerization impeller blade (413) is a plurality of, and is evenly arranged along the circumferencial direction of described train wheel bridge (411).

8. honeycomb as claimed in claim 6 mill, is characterized in that, the edge of described train wheel bridge (411) offers a plurality of upper fixing holes, and the edge of described lower plate (412) offers and fixed hole lower fixed hole one to one;

The upper end of described depolymerization impeller blade (413) is provided with the upper fixed part (4131) coordinating with fixed hole, and the lower end of described depolymerization impeller blade (413) is provided with the lower fixed part (4132) coordinating with described lower fixed hole.

9. honeycomb mill as claimed in claim 6, is characterized in that, described depolymerization wheel body (410) also comprises for straining the pull bar (450) of described train wheel bridge (411) and described lower plate (412).

10. honeycomb mill as claimed in claim 9, is characterized in that, described pull bar (450) comprising:

Be arranged at the fixedly swivel nut (451) between described train wheel bridge (411) and described lower plate (412);

The upper set bolt (452) coordinating with the threaded one end of described fixedly swivel nut (451) through described train wheel bridge (411);

Lower set bolt (453) through described lower plate (412) with the other end threaded engagement of described fixedly swivel nut (451).

11. honeycomb mills as claimed in claim 6, is characterized in that in described depolymerization storehouse (400), also having the wind wheel (430) being sheathed on described main shaft (101), and described wind wheel (430) is arranged in the porch in depolymerization storehouse;

Described wind wheel (430) comprising:

Be sheathed on the wheel sheet mounting disc (431) on described main shaft (101);

A plurality of sheets (432) of taking turns that are evenly arranged along described circumferencial direction of taking turns sheet mounting disc (431), the described sheet (432) of taking turns is arranged in a described side of taking turns the porch in the close depolymerization of sheet mounting disc (431) storehouse.

12. honeycomb mill as claimed in claim 6, is characterized in that, be provided with depolymerization tooth plate (440) on urceolus (420) inwall in described depolymerization storehouse (400), described depolymerization tooth plate (440) has a plurality of depolymerization teeth.