CN104959191B - Mechanical shock formula ultrafine crusher - Google Patents

Abstract

The invention discloses mechanical shock formula ultrafine crusher, including rack-mounted negative discharging device, feed arrangement, crush cavity, crushing auxiliary and drive device, crushing auxiliary is arranged in crushing chamber body, driven by drive device and crush subtask, crushing auxiliary includes gear ring, some grating disk and tup groups, some grating disk peripheries are installed with tup group more than two, each tup group has several tups, the edge of same group tup is more than the radius of grating disk to the distance for crushing disk center, each tup group is arranged in levels, side wall inwall is provided with gear ring corresponding with tup group, there is gap between gear ring and each tup group, gear ring is more than or equal to gear ring to the gap of lower floor's tup group to the gap of upper strata tup group, and gear ring is more than gear ring to the gap of orlop tup group to the gap of the superiors' tup group.The present invention provides mechanical shock formula ultrafine crusher, and efficiency is very high, and can obtain smaller powder particle size.

Description

Mechanical shock formula ultrafine crusher

Technical field

The present invention relates to pulverizer, more particularly to mechanical shock formula ultrafine crusher.

Background technology

Ultra-fine powder technology is the subject that the 1970s, mid-term grew up, and superfine powder is almost applied to national warp Ji all industries, at present superfine powder refer generally to the general designation of the powder from several nanometers to tens microns.

Mechanical shock formula ultrafine crusher is a kind of good ultrafine crusher of applicability, mainly includes negative pressure discharging dress Put, feed arrangement, crush cavity, several big parts such as drive device of crushing auxiliary and crushing auxiliary are formed.Mechanical shock formula superfine powder Broken machine is to carry out strong impact to material using the impact components of the high-speed motions such as rod, blade, tup, is made between material particles Or shock, the equipment that material crushes by stress are produced between material and crushing part.

The crushing effect key of mechanical shock formula ultrafine crusher is its crushing auxiliary, and general crushing auxiliary can only carry out single Crush, obtained powder contains the larger particle of particle diameter toward contact, it is therefore desirable to by the larger particle fallen down from new recovery again from Upper inlet fall progress repeatedly circulation crush can just obtain preferable powder, efficiency is very low, and due to tup above and below It is consistent with the distance of gear ring, therefore obtained powder particle size is limited.

In consideration of it, the present inventor specially develops mechanical shock formula ultrafine crusher, thus this case produces.

The content of the invention

It is an object of the invention to provide mechanical shock formula ultrafine crusher, efficiency is very high, and can obtain smaller Powder particle size.

To achieve these goals, technical scheme is as follows：

Mechanical shock formula ultrafine crusher, including rack-mounted negative discharging device, feed arrangement, crushing chamber Body, crushing auxiliary and drive device, crushing auxiliary are arranged in crushing chamber body, and drive device is arranged on the lower section for crushing cavity, charging Device from frame it is overhanging enter crushing chamber body in and positioned at crushing auxiliary top, negative discharging device be arranged on crush cavity it is upper Side, negative discharging device set the air channel for the powder discharging after crushing connected, crushing auxiliary between the bottom with crushing cavity Including gear ring, some grating disks and tup group, the center of grating disk is fixed in the rotating shaft of drive device, and powder is driven by rotating shaft Broken disk high-speed rotation, some grating disk peripheries are installed with tup group more than two, and each tup group is hammered into shape with several Head, with group tup edge to crush disk center distance is identical and the distance is more than the radius of grating disk, each tup group is in Levels arrange that the side wall for crushing cavity is provided with gear ring corresponding with tup group, has gap between gear ring and each tup group, Gear ring is more than or equal to gear ring to the gap of lower floor's tup group to the gap of upper strata tup group, and gear ring is to the superiors' tup group Gap is more than gear ring to the gap of orlop tup group.

The bottom of the rotating shaft is arranged in frame by upper and lower two groups of bearings, and grating disk is arranged on the top of rotating shaft, is turned The lower end of axle is provided with driven pulley, and in motor of the side of the frame installation with drive pulley, motor leads to Cross belt driving band and move axis of rotation, edge crushes cavity wall after the air channel forms from the bottom wall for crushing cavity and outwards drawn Outside upwardly extend and connected afterwards with the entrance of negative discharging device.

It is described to be arranged in grating disk periphery with group tup decile.

The grating disk periphery offers the radial groove for tup installation, the width of radial groove and the width pair of tup Should, the bottom of tup is stuck in radial groove, and corresponding screwed hole is offered on radial groove and tup, and tup passes through bolt It is fixedly mounted on the radial groove.

The upper and lower surface of the grating disk is separately installed with upper ram group and lower ram group.

The tup spaced installation in vertical direction of the upper ram group and lower ram group.

Some grating disks have upper and lower 2, respectively upper grating disk and lower grating disk.

The gap length of 4 tup groups and gear ring on the upper grating disk and lower grating disk is sequentially reduced from top to bottom.

Upper ram group on the same grating disk is identical with the gap of lower ram group to gear ring, on different grating disks Upper ram group is different with the gap of lower ram group to gear ring.

Tup group more than described two corresponds to same gear ring.

After such scheme, after feed arrangement charging, drive device driving crushing auxiliary turns at a high speed material of the invention Move crushing material into powder, the powder fallen is suctioned out through air channel by negative discharging device.Wherein because crushing auxiliary has two groups Tup group above, and each tup group is layered arrangement, therefore material does not have after the tup group of top crushes up and down Directly discharge, but separating twice is continued by the tup group of lower section, substantially increase crush efficiency.Above all tup Gap of the group away from gear ring is not fully identical, but in up big and down small, therefore material is only after the crushing of top tup group, by big After block material becomes piece material, lower section tup group could be entered and crushed, the material of fritter obtains super after crushed again The amount of fine powder body is naturally also more, and the particle diameter of superfine powder is naturally also just smaller.

Brief description of the drawings

Fig. 1 is the structural representation of the present embodiment；

Fig. 2 is the sectional view of the present embodiment crushing auxiliary；

Fig. 3 is the top view of the present embodiment grating disk.

Label declaration

Side wall 1, gear ring 2, grating disk 3, upper grating disk 31, lower grating disk 32, radial groove 33, screwed hole 34, tup group 4, upper ram group 41, lower ram group 42, rotating shaft 5, negative discharging device 6, air channel 61, entrance 62, feed arrangement 7, crush cavity 8, crushing auxiliary 9, drive device 10, driven pulley 102, drive pulley 103, motor 104, bearing 105, frame 200.

Embodiment

In order to which technical scheme is explained further, the present invention is explained in detail below by specific embodiment State.

As shown in figure 1, be the mechanical shock formula ultrafine crusher that the present invention discloses, including it is negative in frame 200 Press drawing mechanism 6, feed arrangement 7, the drive device 10 for crushing cavity 8, crushing auxiliary 9 and crushing auxiliary 9.

Crushing auxiliary 9 be arranged on crush cavity 8 in, drive device 10 be arranged on crush cavity 8 lower section, feed arrangement 7 from Stretched into outside frame 200 in crushing chamber body 8 and positioned at the top of crushing auxiliary 9, negative discharging device 6, which is arranged on, crushes the upper of cavity 8 Side, negative discharging device 6 set the air channel 61 for the powder discharging after crushing connected between the bottom with crushing cavity 8, its Middle air channel 61 from crush cavity 8 bottom wall formed and outwards draw after along crush cavity 8 side wall 1 outside upwardly extend after and The entrance 62 of negative discharging device 6 connects.In use, material, after the charging of feed arrangement 7, drive device 10 drives crushing auxiliary 9 By crushing material into powder, the powder fallen is suctioned out high-speed rotation through air channel 61 by negative discharging device 6.

Shown in reference picture 2, wherein crushing auxiliary 9 includes gear ring 2, some grating disks 3 and tup group 4.

Some grating disks 3 are arranged in the side wall 1 for crushing cavity 8, and the center of grating disk 3 is fixed on turning for drive device 10 On axle 5, the high-speed rotation of grating disk 3 is driven by rotating shaft 5.The bottom of rotating shaft 5 is arranged on frame by upper and lower two groups of bearings 105 On, grating disk 3 is arranged on the top of rotating shaft 5, and the lower end of rotating shaft 5 is provided with driven pulley 102, pacifies in the side of frame 200 Harness has the motor 104 of drive pulley 103, and motor 104 is rotated by belt driving band turn axle 5.

Some peripheries of grating disk 3 are installed with tup group 4 more than two, and each tup group 4 has several tups 41, the distance with edge to the center of grating disk 3 of organizing tup 41 is more than the radius of grating disk 3, and each tup group 4 is in levels cloth Put.

41 best decile of tup is arranged in the periphery of grating disk 3, the distance phase at the same edge for organizing tup 41 to the center of grating disk 3 Together, ensure the uniform force of grating disk 3, increase the service life.

The inwall of side wall 1 is provided with gear ring 2 corresponding with tup group 4, has gap, gear ring between gear ring 2 and each tup group 4 2 are more than or equal to gear ring 2 to the gap of lower floor's tup group 4 to the gap of upper strata tup group 4, and gear ring 2 arrives the superiors' tup group 4 Gap a be more than the gap b that gear ring 2 arrives orlop tup group 4, the wherein tooth on gear ring 2 can make effectively by crushing material Crushing effect is more preferably.The corresponding same gear ring 2 of each tup group 4, therefore the mounting structure of gear ring 2 is simple and reliable.

When carrying out crushing material, material does not discharge directly after the tup group 4 of top crushes, but by lower section Tup group 4 continues separating twice, substantially increases crush efficiency.Due to gap of the tup group 4 away from gear ring 2 not fully phase Together, it is but small in the big lower section in top, therefore material becomes piece material only after the crushing of top tup group 4 by bulk materials Afterwards, lower section tup group 4 could be entered to be crushed.Again after crushed, the amount of obtained superfine powder is naturally also for the material of fritter More, the particle diameter of superfine powder is naturally also just smaller.

Why the present invention is arranged such, and reason is, if upper lower ram group 42 is identical with the gap of gear ring 2, then Piece material after being crushed by upper ram group 41 is possible to directly drop and gone out from discharging opening, without by the tup group of lower section 4 crush again.If obtaining smaller superfine powder diameter, and the gap of upper lower ram group 42 and gear ring 2 is all set Very little, because material is generally large, can not enter directly into less gap, then the efficiency of crushing will be very low.

As shown in figure 3, horizontal direction force is very big at work for tup 41, in order to prevent tup 41 due to stress, in water Square to shaking, and impulsive force is reduced, the periphery of grating disk 3 offers the radial groove 33 installed for tup 41, radially recessed The width c of groove 33 must be corresponding with the width of tup 41, and left and right will not be occurred by the bottom of tup 41 is stuck in radial groove 33 Rock, corresponding screwed hole 34 is offered on radial groove 33 and tup 41, tup 41 is mounted by means of bolts on the footpath To on groove 33.

The upper and lower surface of grating disk 3 is separately installed with upper ram group 41 and lower ram group 42, therefore only needs 1 powder Broken disk 3 can also realize the purpose of the present invention, simplify structure.

The wherein tup 41 of upper ram group 41 and lower ram group 42 preferably mutually interval installation in vertical direction, reference picture Radial groove 33 in 3 shown in radial groove 33 and dotted line shown in solid.Because the quantity of tup 41 being distributed on grating disk 3 has Limit, it is impossible to distribution it is very intensive, interval installation after, gap can be reduced, reduce through top tup 41 crush powder it is direct Drop and pass in and out the probability of entrance.

In order to increase crushing effect, grating disk 3 has upper and lower 2, respectively upper grating disk 31 and lower grating disk 32, upper powder Above-mentioned upper ram group 41 and lower ram group 42 are mounted on broken disk 31 and lower grating disk 32.

Upper ram group 41 on wherein same grating disk 3 is identical with the gap of lower ram group 42 to gear ring 2, and difference crushes Upper ram group 41 on disk 3 is different with the gap of lower ram group 42 to gear ring 2, the small particle thing after the material of big particle diameter and crushing Material is crushed by two tup groups 4, and this set adds crush efficiency again in original basis.

In order to obtain smaller particle diameter and avoid the number of circulation crushing, on upper grating disk 31 and lower grating disk 32 4 tup groups 4 and the gap length of gear ring 2 are sequentially reduced from top to bottom, therefore material can pass through 4 crushing, after crushing every time Material particular diameter is reduced successively, therefore greatly reduces the material that discharging opening is not crushed completely, is reduced circulation again and is crushed Inventory and cycle-index, due to material particular diameter below arrival very small, therefore small particle material and during tup group 4 Superfine powder is obtained after crushed after the crushing of lower section tup group 4, and nature will obtain smaller particle diameter.

The effect of certain crushing of grating disk more than 3 is naturally also better.

Presently preferred embodiments of the present invention is these are only, not to the restriction of protection scope of the present invention.All setting according to this case The equivalent variations that meter thinking is done, each fall within the protection domain of this case.

Claims (10)

1. mechanical shock formula ultrafine crusher, it is characterised in that：Including rack-mounted negative discharging device, charging dress Put, crush cavity, crushing auxiliary and drive device, crushing auxiliary is arranged in crushing chamber body, and drive device, which is arranged on, crushes cavity Lower section, feed arrangement from frame it is overhanging enter crushing chamber body in and positioned at crushing auxiliary top, negative discharging device be arranged on crush The top of cavity, negative discharging device set the wind for the powder discharging after crushing connected between the bottom with crushing cavity Road, crushing auxiliary include gear ring, some grating disks and tup group, and the center of grating disk is fixed in the rotating shaft of drive device, passed through Rotating shaft drives grating disk high-speed rotation, and some grating disk peripheries are installed with tup group more than two, each tup group tool Have several tups, with group tup edge to crush disk center distance is identical and the distance more than grating disk radius, Each tup group arranges that the side wall for crushing cavity is provided with gear ring corresponding with tup group in levels, gear ring and each tup group it Between there is gap, gear ring to the gap of upper strata tup group is more than or equal to gear ring to the gap of lower floor's tup group, and gear ring is to most The gap of upper strata tup group is more than gear ring to the gap of orlop tup group.

2. mechanical shock formula ultrafine crusher as claimed in claim 1, it is characterised in that：The bottom of the rotating shaft passes through upper and lower Two groups of bearings are arranged in frame, and grating disk is arranged on the top of rotating shaft, the lower end installation driven pulley of rotating shaft, in frame Motor of the side installation with drive pulley, motor move axis of rotation by belt driving band, the air channel from Crush cavity bottom wall formed and outwards draw after along crushing cavity wall on the outside of upwardly extend afterwards with negative discharging device Entrance connects.

3. mechanical shock formula ultrafine crusher as claimed in claim 1, it is characterised in that：It is described to be arranged in group tup decile Grating disk periphery.

4. mechanical shock formula ultrafine crusher as claimed in claim 1, it is characterised in that：The grating disk periphery offers confession The radial groove of tup installation, the width of radial groove is corresponding with the width of tup, and the bottom of tup is stuck in radial groove, footpath Corresponding screwed hole is offered on to groove and tup, tup is mounted by means of bolts on the radial groove.

5. mechanical shock formula ultrafine crusher as claimed in claim 1, it is characterised in that：The upper surface of the grating disk is with Surface is separately installed with upper ram group and lower ram group.

6. mechanical shock formula ultrafine crusher as claimed in claim 5, it is characterised in that：The upper ram group and lower ram group Tup spaced installation in vertical direction.

7. mechanical shock formula ultrafine crusher as claimed in claim 5, it is characterised in that：Some grating disks have up and down 2, respectively go up grating disk and lower grating disk.

8. mechanical shock formula ultrafine crusher as claimed in claim 7, it is characterised in that：The upper grating disk and lower grating disk On 4 tup groups and the gap length of gear ring be sequentially reduced from top to bottom.

9. mechanical shock formula ultrafine crusher as claimed in claim 7, it is characterised in that：It is upper on the same grating disk Tup group is identical with the gap of lower ram group to gear ring, the upper ram group and lower ram group on different grating disks to the gap of gear ring It is different.

10. mechanical shock formula ultrafine crusher as claimed in claim 1, it is characterised in that：Tup group more than described two Corresponding same gear ring.