CN206083782U - A it refines device to circulate that is used for preparing in succession half solid -state thick liquids of aluminum alloy - Google Patents

Abstract

The utility model provides an it refines device to circulate that is used for preparing in succession half solid -state thick liquids of aluminum alloy, include actuating mechanism and refine the mechanism, refine the mechanism and include rotor and stator, the inside cavity of stator, inside the stator was arranged in to the rotor, actuating mechanism drove the rotor in the inside rotation of stator, the stator dipes thick liquids to be carried out the portion of refining that refines the function and is equipped with and refines the cavity, and rotor in this refines the cavity is equipped with the blade, and what the stator bottom was equipped with and refined the cavity intercommunication inhales the material mouth to the jet orifice has been seted up on the stator lateral wall in this refines the cavity. The utility model discloses utilize rotor blade rotate to form the negative pressure with thick liquids inhale the stator refine the cavity in refine to following the jet orifice and jetting out thick liquids, during the crucible of placing thick liquids was got back to to messenger's thick liquids, from inhaling material mouthful constantly suction, the recycle constantly refined again, therefore to suspension crystalline grain to refine efficiency higher to because the thick liquids that the proportion commission that the temperature caused preparation is good gather the consecutive collection of being convenient for and carry at the bottom of the crucible.

Description

A kind of cycle refinement device for continuously preparing aluminium alloy semi-solid slurry

Technical field

This utility model belongs to light-alloy semi-solid forming technical field.

Background technology

Semi solid slurry is to carry out strong agitation to make its dendrite fragmentation in metal solidification process, obtains a kind of even suspension The solid-liquid mixed slurry of some almost spherical solid phase particles.Its good fluidity, can be used for high-pressure casting, extrusion casint.Filling When gas be difficult to be involved in, its forming temperature is low, and die life is long, and deformation drag is little, and production efficiency is high；High-pressure during shaping The metal that solidified is made to produce retrospective deformation, it is not solidified to continue solidification under high pressure thus product shrinkage cavity shrinkage porosity is few, tissue is caused Close, mechanical performance is close to forging, thermally processable, high without riser feeding, rate of metal higher than common foundry goods.It is adapted to The production of thin, heavy section casting also is adapted for the shaping that various crystallization temperatures are spaced wider any alloy material.

Although being had many good qualities with the foundry goods that semi-solid state forming technique is produced, the preparation method of slurry is also a lot, The continuous preparation of inexpensive high-quality pulp, preservation, conveying are always a difficult problem, seriously restrict the popularization and application of the technology.It is existing In slurry preparation process, the thinning effect and transfer efficiency of slurry cannot ensure method.

Utility model content

This utility model is to solve above-mentioned technical problem, there is provided a kind of for continuously preparing aluminium alloy semi-solid slurry Cycle refinement device, for refined pulp, including drive mechanism and refinement mechanism, the refinement portion of the refinement mechanism extend into slurry In slurry is refined, it is described refinement mechanism include rotor and stator, the stator interior is hollow, and the rotor is placed in stator Inside, the drive mechanism rotor driven are rotated in stator interior；The stator immersion slurry performs the refinement portion of refinement function Refinement cavity is provided with, the rotor in the refinement cavity is provided with blade, the stator bottom is provided with the suction connected with refinement cavity Jet orifice is offered in material mouth, and the stator side wall in the refinement cavity；The drive mechanism rotor driven is rotated, its blade Rotation forms negative pressure makes slurry enter after refinement cavity refined from material sucking port, and injects to stator exterior from jet orifice.

Further, the minimum clearance between the rotor and stator is 1～2000 micron, preferably 1～500 micron.

Further, the aperture of the jet orifice is 0.1～20 millimeter, preferably 0.5～10 millimeter.

Further, the aperture axis of the jet orifice is formed down 20～80 ° of angles with the axis of rotor rotation.

Further, the blade has 2～16.

Further, the jet orifice is at least provided with 2.

Further, the drive mechanism includes motor, the first runner, the second runner, transmission belt and rotating shaft, motor it is defeated Go out the first runner of end connection, transmission belt connects the second runner respectively, and the second runner is connected with rotating shaft, and rotating shaft passes through bearing and rotor Top is fixedly connected.Motor operations drive the first runner to rotate, and transmit power to rotating shaft so as to pass through transmission belt, revolve rotating shaft Turn, and then the blade relative stator of rotor driven is rotated.

This utility model is rotated to be formed during slurry to be drawn into negative pressure the refinement cavity of stator using rotor blade and is carried out carefully Change, and slurry is projected from jet orifice, slurry is returned in the crucible for placing slurry, then constantly suck from material sucking port, follow repeatedly Ring, constantly refines；Thus it is higher to the refining efficiency of suspension crystal grain, and the slurry prepared due to the proportion official post that temperature is caused Accumulating in crucible bottom is easy to continuous acquisition to convey.

Description of the drawings

In conjunction with the embodiments this utility model is further described with reference to the accompanying drawings.

Fig. 1 is the structural representation for continuously preparing the cycle refinement device of aluminium alloy semi-solid slurry of the present utility model Figure.

Specific embodiment

Refer to Fig. 1, be as most preferred embodiment of the present utility model one kind be used for continuously prepare aluminium alloy semi-solid The cycle refinement device of slurry, for refined pulp, including drive mechanism and refinement mechanism, the refinement portion of the refinement mechanism stretches into Slurry is refined in the crucible for placing slurry, refinement mechanism includes rotor 8 and stator 1,1 inner hollow of stator, rotor 8 It is placed in inside stator 1, drive mechanism rotor driven 8 is in 1 internal rotating of stator.The immersion slurry of stator 1 performs the thin of refinement function Change portion is provided with refinement cavity, and the rotor 8 in the refinement cavity is provided with blade 10, and 1 bottom of stator is provided with and is connected with refinement cavity Material sucking port, and offer jet orifice 9 on the 1 side wall of stator in the refinement cavity.Drive mechanism rotor driven 8 is rotated, its The rotation of blade 10 forms negative pressure makes slurry enter after refinement cavity refined from material sucking port, and injects to stator 1 from jet orifice 9 It is outside.Minimum clearance between rotor 8 and stator 1 is 1～2000 micron, preferably 1～500 micron, is cut by very little gap A large amount of threads (left floating the aluminium liquid of solid phase particles) for ejecting of scattering pump thus continuously prepare aluminium alloy semi-solid slurry device It is high to the refining efficiency of suspension crystal grain.The quantity of jet orifice 9 can be configured as needed, be preferably provided with more than 2, and penetrate Discharge orifice 9 with 8 rotation axiss of rotor as axis symmetrically, with it is uniform, sufficiently project slurry.Jet orifice 9 can it is more setting with Spread all over whole refinement portion, refining efficiency can be improved.The aperture of jet orifice 9 be 0.1～20 millimeter, preferably 0.5～10 millimeter, its Aperture axis is formed down 20～80 ° of angles with the axis of the rotation of rotor 8, and concrete aperture and angle can be carried out according to crucible size Arrange, to adjust the scope that slurry is projected from jet orifice 9, so as to ensure that the slurry in crucible is fully refined.

Drive mechanism includes motor 7, the first runner 6, the second runner 4, transmission belt 5 and rotating shaft 3, and the outfan of motor 7 connects The first runner 6 is connect, transmission belt 5 connects the second runner 6 respectively, and the second runner 4 is connected with rotating shaft 3, rotating shaft 3 is by bearing 2 and turns It is fixedly connected at the top of son 8.The work of motor 7 drives the first runner 6 to rotate, and transmits power to rotating shaft 3 so as to pass through transmission belt 5, makes Rotating shaft 3 rotates, and then 10 relative stator 1 of blade of rotor driven 8 is rotated.Blade 10 can be arranged as required to, and preferably 2～16 Piece.The a large amount of threads that project are rotated from jet orifice 9 by 8 blade 10 of drive mechanism rotor driven, on downward-sloping impingement heat transfer device The crucible bottom in portion, these slurries are scattered pump base apertures again and suck back, and are projected again after cutting and crushing, that is, improving heat transfer intensity (has Profit control solid phase ratio) further strengthen thinning effect to suspension crystal grain.

In sum, this utility model rotates the refinement cavity to form that slurry is drawn into negative pressure stator using rotor blade In refined, and slurry is projected from jet orifice, slurry is returned in the crucible for placing slurry, then constantly inhale from material sucking port Enter, iterative cycles, constantly refine；Thus it is higher to the refining efficiency of suspension crystal grain, and the proportion official post system caused due to temperature The slurry got ready accumulates in crucible bottom and is easy to continuous acquisition to convey.

This utility model is exemplarily described above in conjunction with accompanying drawing, it is clear that this utility model is implemented not to be received The restriction of aforesaid way, as long as employing changing for the various unsubstantialities that method design of the present utility model and technical scheme are carried out Enter, or it is not improved by it is of the present utility model design and technical scheme directly apply to other occasions, in this utility model Protection domain within.

Claims (6)

1. a kind of cycle refinement device for continuously preparing aluminium alloy semi-solid slurry, for refined pulp, including driving machine Structure and refinement mechanism, the refinement portion of the refinement mechanism are refined to slurry in extending into slurry, it is characterised in that the refinement Mechanism includes rotor and stator, and the stator interior is hollow, and the rotor is placed in stator interior, the drive mechanism rotor driven Rotate in stator interior；The refinement portion that the stator immersion slurry performs refinement function is provided with refinement cavity, in the refinement cavity In rotor be provided with blade, the stator bottom is provided with and refines the material sucking port that cavity is connected, and determining in the refinement cavity Jet orifice is offered on sub- side wall；The drive mechanism rotor driven is rotated, and its blade rotates and to form negative pressure and make slurry from suction After mouth is refined into refinement cavity, and stator exterior is injected to from jet orifice.

2. the cycle refinement device for continuously preparing aluminium alloy semi-solid slurry according to claim 1, its feature exist In the minimum clearance between the rotor and stator is 1～2000 micron.

3. the cycle refinement device for continuously preparing aluminium alloy semi-solid slurry according to claim 1, its feature exist In the aperture of the jet orifice is 0.1～20 millimeter.

4. the cycle refinement device for continuously preparing aluminium alloy semi-solid slurry according to claim 1 or 3, its feature It is that aperture axis and the axis of rotor rotation of the jet orifice are formed down 20～80 ° of angles.

5. the cycle refinement device for continuously preparing aluminium alloy semi-solid slurry according to claim 1, its feature exist In the blade has 2～16.

6. the cycle refinement device for continuously preparing aluminium alloy semi-solid slurry according to claim 1, its feature exist In the jet orifice is at least provided with 2.