CN110394214A - A kind of aluminium alloy production high-efficient granule ball-milling device - Google Patents

Abstract

The present invention relates to aluminium alloy production fields, specially a kind of aluminium alloy production high-efficient granule ball-milling device, including apparatus main body, spin, alley line is offered inside apparatus main body, spin is movably arranged in alley line, apparatus main body inside center is movably installed with grind section, the shifting chute that bigger and one-piece auger is obliquely installed by upper end indent camber ratio lower end on grinding column, alumina particles when keeping grinding block inwardly angled mobile while accommodating more alumina particles when grinding block progress crush and grind mobile to grinding column in it are enabled also to be not easy to be displaced outwardly to improve grinding efficiency, it is installed on upper right side in grind section again and enables by grinding column and enabled allow more alumina particles that the grinding block moved inward is allowed to be resisted when rotating to beside grinding column while being ground to set back outward when the grinding block in the lower left corner moves inward.

Description

A kind of aluminium alloy production high-efficient granule ball-milling device

Technical field

The present invention relates to aluminium alloy production field, specially a kind of aluminium alloy production high-efficient granule ball-milling device.

Background technique

Aluminium alloy is most widely used one kind non-ferrous metal structural material in industry, in Aeronautics and Astronautics, automobile, machinery It has been widely applied with the development of social conditions and the improvement of living conditions in manufacture, ship and chemical industry, wherein dispersion-strengtherning aluminium closes It is low scarce with the plasticity difference of particle enhanced aluminum-based composite material that gold overcomes common solution strengthening high-strength aluminum alloy elevated temperature strength Point, in order to give various mechanical equipment losss of weight, an important development direction of prospective material is lighting high strengthening.

But the alumina particles material that the ball-milling technology in existing dispersion-strengtherning aluminium alloy production procedure is come out due to water atomization Softer plasticity is higher, so that efficiency is lower when existing ball mill is to its ball powder-grinding, so that production efficiency reduces.

Summary of the invention

A kind of aluminium alloy production high-efficient granule ball-milling device, which can be to the higher alumina particles of the softer plasticity of quality Targetedly high-efficient grinding is carried out, thus the whole production efficiency for improving dispersion-strengtherning aluminium alloy.

A kind of aluminium alloy production high-efficient granule ball-milling device, including apparatus main body, spin, described device body interior are opened Equipped with alley line, the spin is movably arranged in alley line, and described device body interior central movable is equipped with grind section.

Preferably, the alley line is to be arranged towards inside center spiral arc, activity on the alley line inner wall Idler wheel is installed.

It is set preferably, the idler wheel is installed on alley line inner left wall and idler wheel both ends for inclination towards the middle It sets.

It touches item preferably, being fixedly connected in the roller surface and touches item for the setting of evagination arc-shaped recliner.

Preferably, be movably installed with grinding block in the grind section, the grinding block be inside indent and two sides to Upper inclined circular arc block, the grinding block inside are fixedly connected with crushing block.

Preferably, the crushing block is semicircular arc-shaped and offers extruding slot thereon, the extruding slot is isosceles ladder Shape and two sides are inclined outwardly setting.

It is arranged preferably, the grinding block two sides are fixedly connected with bite block and bite block for obtuse angle triangle, it is described The bite block of neighboring abrasive block is staggered, and is fixedly connected with Flexible sieve on the right side of bite block on the grinding block.

Preferably, the grind section internal activity is equipped with grinding column, the grinding column gradually becomes smaller from right to left And outside concave arc is arranged.

Compared with prior art the invention has the following advantages:

1. being the acclivitous circular arc block of inside indent and two sides by grinding block, so that when spin is hit under the effect of gravity Hitting grinding block enables it when moving inward by the integral inclined setting of grinding block so that internal alumina particles are squeezed by inward force It can give alumina particles one upward power while pressure grinding, enable the inwardly angled movement of grinding block so that alumina particles Grinding efficiency improve, then by being provided with crushing block in indent on the inside of grinding block, make it possible to accommodate more alumina particles progress more Pass through the extruding slot that isosceles trapezoid and two sides on crushing block are inclined outwardly setting while efficient crush and grind again, so that grinding Block can make alumina particles fixed to make grinding efficiency further increase while block alumina particles will not in mobile crush and grind Firmly, by the ladder-like compressive plane gradually smaller from left to right on grinding block inside, so that when grinding block is mobile to grinding column The horizontal plane for carrying out progress crush and grind Shi Nengtong compressive plane gradually becomes smaller from right to left with grinding column and outside concave arc is set The surface the set gap bigger than right side close to the horizontal plane upper left side formed afterwards, so that intermediate alumina particles are reaching high-efficient grinding While can lead to extruding and be moved to the left to achieve the effect that self-emptying, while passing through spiral helicine movement on grinding column Slot enables and drives the alumina particles ground to be moved to the left so that the efficiency that discharges further increases when grinding column rotation.

2. the shifting chute that and one-piece auger bigger by upper end indent camber ratio lower end on grinding column is obliquely installed, so that working as When grinding block keeps grinding block inwardly angled mobile while capable of accommodating more alumina particles when carrying out crush and grind to grinding column is mobile Alumina particles in it are also not easy to be displaced outwardly to improve grinding efficiency, then are installed on upper right side in grind section by grinding column Enable and when the grinding block in the lower left corner moves inward enables that more alumina particles is allowed to allow what is moved inward to grind while being ground to Abrading block is resisted when rotating to beside grinding column and is set back outward.

3. by the alley line being arranged towards inside center spiral arc, so that when apparatus main body rotates so that alley line moves Spin inside when moving to top moves down and mobile by spiral so that its kinetic energy generated increases under gravity The effect of grinding block is reinforced, then passing through both ends on alley line inner wall is the idler wheel being obliquely installed towards the middle, so that spin Frictional force, which reduces, when mobile be displaced outwardly the dust dregs in idler wheel can with inclined-plane while improving kinetic energy to subtract Trundle self friction power, then the touch item by being connected with the setting of evagination arc-shaped recliner on surface, so that spin is easier to touch Dynamic idler wheel rotation is to further increase the kinetic energy of spin so that grinding efficiency further increases.

Detailed description of the invention

Fig. 1 is the whole main view of the present invention；

Fig. 2 is internal perspective view of the present invention；

Fig. 3 is the whole side sectional view of the present invention；

Fig. 4 is enlarged drawing at A in Fig. 3 of the present invention；

Fig. 5 is enlarged drawing at B in Fig. 4 of the present invention；

Fig. 6 is grind section front cross-sectional view of the present invention；

Fig. 7 is idler wheel perspective view of the present invention.

In figure: 1- apparatus main body, 2- alley line, 3- spin, 4- grind section, 5- idler wheel, 6- grinding block, 7- crushing block, 701- squeezes slot, 8- bite block, 9- Flexible sieve, 10- grinding column, 11- shifting chute, 12- and touches item, 13- compressive plane.

Specific embodiment

Please refer to Fig. 1 to 7, a kind of aluminium alloy production high-efficient granule ball-milling device planar structure schematic diagram and three-dimensional knot Structure schematic diagram.

A kind of aluminium alloy production high-efficient granule ball-milling device, including apparatus main body 1, spin 3 are opened inside apparatus main body 1 Equipped with alley line 2, spin 3 is movably arranged in alley line 2, and 1 inside center of apparatus main body is movably installed with grind section 4.

In specific implementation, alley line 2 is to be arranged towards inside center spiral arc, activity installation on 2 inner wall of alley line Have idler wheel 5 so that when apparatus main body 1 rotate so that alley line 2 be moved to top when inside spin 3 under gravity to Lower movement and mobile by spiral so that its kinetic energy generated increases the effect to grinding block 6 reinforces.

In specific implementation, idler wheel 5 is installed on 5 inner left wall of alley line and 5 both ends of idler wheel and sets for inclination towards the middle Set so that when spin 3 is mobile frictional force reduce make while improving kinetic energy dust dregs in idler wheel 5 can with inclined-plane to Outer movement is to reduce 5 self friction power of idler wheel.

In specific implementation, it is fixedly connected with to touch item 12 and touch item 12 on 5 surface of idler wheel and be set for evagination arc-shaped recliner It sets, so that spin 3 is easier to touch the rotation of idler wheel 5 to further increase the kinetic energy of spin 3 so that grinding efficiency further mentions It is high.

In specific implementation, it is movably installed with grinding block 6 in grind section 4, grinding block 6 is inside indent and two sides to updip Oblique circular arc block is fixedly connected with crushing block 7 on the inside of grinding block 6, so that when impacting block 6 makes spin 3 under the effect of gravity It can be by the integral inclined setting of grinding block 6 so that internal alumina particles are by the same of inward force crush and grind when it is moved inward Shi Nengneng gives alumina particles one upward power, enables the inwardly angled movement of grinding block 6 so that the grinding of alumina particles is imitated Rate improves.

In specific implementation, crushing block 7 is semicircular arc-shaped and offers extruding slot 701 thereon, and squeezing slot 701 is isosceles ladder Shape and two sides are inclined outwardly setting, make it possible to accommodate while more alumina particles carry out more efficient crush and grind and pass through extruding again Extruding slot 701 on block 7, enable grinding block 7 to keep alumina particles fixed in mobile crush and grind to make grinding efficiency into One step improves while block alumina particles will not.

In specific implementation, 6 two sides of grinding block are fixedly connected with bite block 8 and bite block 8 and are arranged for obtuse angle triangle, adjacent The bite block 8 of grinding block 6 is staggered, and the right side of bite block 8 is fixedly connected with Flexible sieve 9 on grinding block 6, so that grinding block 6 can make the alumina particles between two grinding block gaps that can also be extruded grinding when moving inward by the bite block 8 of two sides, lead to It crosses to be staggered and makes it possible to further increase grinding efficiency by inclined-plane, then by Flexible sieve 9 alumina particles will not be moved It moves except grind section 4.

In specific implementation, 4 internal activity of grind section be equipped with grinding column 11, grinding column 11 gradually become smaller from right to left and Outside concave arc setting, by the ladder-like compressive plane 13 gradually smaller from left to right in 6 concave side of grinding block, so that working as Grinding block 6 carries out carrying out the enabled horizontal plane for leading to compressive plane 15 of crush and grind and grinding column 10 from right to left to grinding column 10 is mobile It gradually becomes smaller and gap that the surface of outside concave arc setting is bigger than right side close to the upper left side that is formed afterwards, so that intermediate aluminium Particle can lead to extruding while achieving the effect that high-efficient grinding and be moved to the left to reach self-emptying.

A kind of working principle of aluminium alloy production high-efficient granule ball-milling device of the present invention is as follows.

It is internal by direction firstly, passing through motor driving device main body 1 and the rotation of grind section 4 and with grinding 10 rotation of column The alley line 2 of center convolution arc setting, so that the rolling inside when apparatus main body 1 rotates so that alley line 2 is moved to top Ball 3 moves down under gravity and by spiral movement so that its kinetic energy increasing generated adds the effect of grinding block 6 It by force, then by both ends on 2 inner wall of alley line is the idler wheel 5 being obliquely installed towards the middle, so that frictional force subtracts when spin 3 is mobile The dust dregs in idler wheel are displaced outwardly can with inclined-plane to reduce 5 self friction of idler wheel Power, then the touch item 12 by being connected with the setting of evagination arc-shaped recliner on surface, so that spin 3 is easier to touch the rotation of idler wheel 5 To further increase the kinetic energy of spin 3 so that grinding efficiency further increases, then passing through grinding block 6 is inside indent and two sides Acclivitous circular arc block enables when spin 3 passes through grinding block when impacting block 6 moves inward it under the effect of gravity 6 integral inclined setting enable internal alumina particles by inward force crush and grind while can give alumina particles one it is upward Power, enable the inwardly angled movement of grinding block 6 so that the grinding efficiency of alumina particles improves, then pass through 6 inside of grinding block It is provided with crushing block 7 in indent, makes it possible to accommodate while more alumina particles carry out more efficient crush and grind and passes through extruding again Isosceles trapezoid and two sides are inclined outwardly the extruding slot 701 of setting on block 7, and grinding block 6 is made in mobile crush and grind Alumina particles are fixed to make grinding efficiency further increase while block alumina particles will not, are fixedly connected by grinding block two sides The setting of obtuse angle triangle bite block 8, and the bite block of neighboring abrasive block is staggered, when grinding block 6 is moved inward Make the alumina particles between two grinding block gaps that can also be extruded grinding by the bite block 8 of two sides, is made by being staggered Can so that grinding efficiency is further increased by inclined-plane, then pass through Flexible sieve 9 make alumina particles will not be moved to grind section 4 it Outside, the shifting chute 11 that and one-piece auger bigger by upper end indent camber ratio lower end on grinding column 10 is obliquely installed, so that when grinding Abrading block 6 makes the inwardly angled movement of grinding block 6 while capable of accommodating more alumina particles when carrying out crush and grind to grinding column 10 is mobile The alumina particles in it are made also to be not easy to be displaced outwardly to improve grinding efficiency, then be installed in grind section 4 by grinding column 10 Upper right side enables to be moved inward when the grinding block 6 in the lower left corner moves inward to allow while the more alumina particles of Shi Nengrang are ground to Complete grinding block 6 is resisted and is set back outward when rotating to grinding 10 side of column, by on the inside of grinding block 6 from left to right Gradually smaller ladder-like compressive plane 13, enable lead to when grinding block 6 carries out carry out crush and grind to grinding column 10 is mobile it is crowded The horizontal plane of pressure surface 13 and grinding column 10 gradually become smaller from right to left and the surface of outside concave arc setting close to forming afterwards The horizontal plane upper left side gap bigger than right side enables intermediate alumina particles to lead to extruding while reaching high-efficient grinding to the left Movement passes through spiral helicine shifting chute 11 on grinding column 10 to achieve the effect that self-emptying, so that grinding column 10 is certainly The alumina particles ground can be driven to be moved to the left so that the efficiency that discharges further increases when turning.

Claims (8)

1. a kind of aluminium alloy production high-efficient granule ball-milling device, including apparatus main body (1), spin (3), it is characterised in that: institute It states and is offered alley line (2) inside apparatus main body (1), the spin (3) is movably arranged in alley line (2), described device master Body (1) inside center is movably installed with grind section (4).

2. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 1, it is characterised in that: the spin Road (2) is to be arranged towards inside center spiral arc, is movably installed with idler wheel (5) on alley line (2) inner wall.

3. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 2, it is characterised in that: the idler wheel (5) being installed on alley line (5) inner left wall and idler wheel (5) both ends is being obliquely installed towards the middle.

4. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 3, it is characterised in that: the idler wheel (5) it is fixedly connected on surface and touches item (12) and touch item (12) for the setting of evagination arc-shaped recliner.

5. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 1, it is characterised in that: the grinding It is movably installed with grinding block (6) in portion (4), the grinding block (6) is the acclivitous circular arc block of inside indent and two sides, described Crushing block (7) are fixedly connected on the inside of grinding block (6).

6. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 5, it is characterised in that: the extruding Block (7) is semicircular arc-shaped and offers extruding slot (701) thereon, and the extruding slot (701) is isosceles trapezoid and two sides lean outward Tiltedly setting.

7. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 1, it is characterised in that: the grinding Block (6) two sides are fixedly connected with bite block (8) and bite block (8) as the setting of obtuse angle triangle, the occlusion of the neighboring abrasive block (6) Block (8) is staggered, and is fixedly connected with Flexible sieve (9) on the right side of bite block (8) on the grinding block (6).

8. a kind of aluminium alloy production high-efficient granule ball-milling device according to claim 1, it is characterised in that: the grinding Portion (4) internal activity is equipped with grinding column (11), and the grinding column (11) gradually becomes smaller from right to left and outside concave arc is set It sets.