CN102641683B - Defoaming blender with adjustable autorotation-revolution speed ratio for preparing anisotropic conductive adhesive - Google Patents

Abstract

The invention discloses a defoaming blender with an adjustable autorotation-revolution speed ratio for preparing an anisotropic conductive adhesive. The defoaming blender comprises a first motor, a cup sleeve support, a permanent magnetic suspension bearing, a second motor and a plurality of blending cup sleeves, wherein a rotating shaft is arranged on the first motor; the cup sleeve support is arranged at the tail end of the rotating shaft; the permanent magnetic suspension bearing is arranged outside the rotating shaft and comprises a center magnet, an upper magnet, a lower magnet and a suspension magnet; the center magnet is arranged on the rotating shaft; the upper magnet is arranged at the lower part of the cup sleeve support; the lower magnet is arranged below the upper magnet; the suspension magnet is sleeved outside the center magnet and the rotating shaft, arranged between the upper and lower magnets and suspended in the air; the plurality of blending cup sleeves are rotatably arranged on the cup sleeve support; and the rotating shaft rotates to drive the suspension magnet and the plurality of blending cup sleeves to rotate synchronously. According to the defoaming blender, the autorotation and the revolution are not interfered with each other by virtue of the magnetic suspension bearing, and the speed regulating effect is stable, therefore, the defoaming blender is particularly suitable for the defoaming process of the anisotropic conductive adhesive.

Description

For the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive

Technical field

The present invention relates to a kind of agitator, relate in particular to a kind of magnetic suspension bearing make to revolve round the sun agitator of rotation non-interference and speed governing effect stability that utilizes.

Background technology

In the production process of anisotropic conductive, carry out deaeration processing, if employing evacuation and centrifugal degassing, because the ratio of the particulates such as conductive gold spacer is great, there is part particulate to be sunken to bottom and can not get uniform anisotropic conductive, in order to obtain the uniform anisotropic conductive of particulate, must overcome the problem that particulate sinks.Owing to containing effumability composition in anisotropic conductive, also should not adopt vacuum defoamation mode again.Conventionally can only use agitator to carry out the deaeration of anisotropic conductive.And traditional agitator mainly contains following three classes:

1, planet gravity type agitator, belongs to contactless stirring, is realized uniform stirring simultaneously and is mixed not stratifiedly by rotation and revolution, and wherein rotational velocity is fixed as 70% of revolution.

2, adjustable planetary gravity type agitator series, belongs to contactless stirring, is realized uniform stirring simultaneously and is mixed not stratified by rotation and revolution.Different, rotation can be adjusted arbitrarily from the 0%-100% of revolution speed.Be applicable to the stirring of more materials.

3, vacuum planet gravity type agitator, belong to contactless stirring, by rotation and revolution realize uniform stirring simultaneously and mix not stratified, its maximum feature be stir time vacuumize, micro-simple and easy finally can realize without bubble effect down of certain multiple, belong to high-end equipment.

Above-mentioned three kinds of agitators, what adopt is plain bearing, two motor traffic directions when identical two revolving forces be superimposed, two motor traffic directions when contrary the revolving force of two motors subtract each other, mutually, there is very large interference, can not reach stable speed governing effect.In addition in above-mentioned three types, what have only has a motor, and therefore rotation, revolution speed are subject to certain restrictions than regulating, and are even merely able to use fixed speed ratio.

Summary of the invention

The technical problem to be solved in the present invention is: overcome the defect of traditional agitator speed governing poor effect, a kind of magnetic suspension bearing make to revolve round the sun agitator of rotation non-interference, speed governing effect stability that utilizes is provided.

In order to solve the problems of the technologies described above, the present invention proposes following technical scheme: a kind of for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive, it comprises first motor, a glass holder support, a permanent magnetism magnetic suspension bearing, second motor, second motor drum in-phase, a magnetic suspension bearing synchronizing wheel, a bevel gear, three synchronizing wheel belts, two bevel gear synchronizing wheels, four bearings, two mixing glass holders, two glass holder synchronizing wheels;

On this first motor, a turning cylinder is installed;

This glass holder support is arranged on this rotation the tip of the axis, and this glass holder support comprises that a base, two are upwards the hypotenuse that extend at 135 degree angles from these two ends, base, and this turning cylinder is connected to the bottom on this base;

This permanent magnetism magnetic suspension bearing is arranged on outside this turning cylinder, and it comprises a central magnet, a upper magnet, a bottom magnet, a suspension magnet;

This central magnet is arranged on this turning cylinder;

This upper magnet is arranged on the bottom on the base of this glass holder support;

This bottom magnet is arranged on this turning cylinder outside, is positioned at the below of this upper magnet;

This suspension magnet is set in outside this central magnet and turning cylinder, and is arranged between upper magnet, bottom magnet, but does not contact with this central magnet, turning cylinder, upper magnet, bottom magnet, and this suspension magnet is suspended in the air;

This second motor comprises a rotating shaft;

This second motor drum in-phase is arranged on this rotation the tip of the axis;

This magnetic suspension bearing synchronizing wheel is set in the outside of this suspension magnet;

This bevel gear comprises first gear, two the second gears, this first gear is arranged on the outside of this suspension magnet and is positioned at the top of this magnetic suspension bearing synchronizing wheel, these two the second gears are arranged on the two ends of this first gear, and this first gear can drive these two the second gear rotations by the bevel gear kind of drive;

In these three synchronizing wheel belts, wherein first synchronizing wheel belt is arranged between this second motor drum in-phase and this magnetic suspension bearing synchronizing wheel;

These two bevel gear synchronizing wheels are arranged on respectively on these two second gears;

These four bearings are arranged on respectively on this glass holder support, and wherein two bearings are connected on these two bevel gear synchronizing wheels;

These two mixing glass holders are arranged on respectively the upper end of this two other bearing, and therefore these two mixing glass holders are rotatably installed on this glass holder support;

These two glass holder synchronizing wheels are arranged on respectively the lower end of this two other bearing;

This two other synchronizing wheel belt is arranged on respectively between these two bevel gear synchronizing wheels and two glass holder synchronizing wheels.

The further restriction of technique scheme is, the upper end of this central magnet is the N utmost point, and lower end is the S utmost point; This upper magnet upper end is the S utmost point, and lower end is the N utmost point; The upper end of this bottom magnet is the S utmost point, and lower end is the N utmost point; This suspension magnet upper end is the N utmost point, and lower end is the S utmost point.

The further restriction of technique scheme is, the upper end of this central magnet is the S utmost point, and lower end is the N utmost point; This upper magnet upper end is the N utmost point, and lower end is the S utmost point; The upper end of this bottom magnet is the N utmost point, and lower end is the S utmost point; This suspension magnet upper end is the S utmost point, and lower end is the N utmost point.

Compared with prior art, the present invention has following beneficial effect:

1, agitator of the present invention comprises the first motor and the second motor, drive respectively these two to mix glass holder revolution and rotation, regulate the rotating speed of the first motor and the second motor, can regulate respectively these two speed of mixing glass holder revolution and rotation, the material that makes to mix in glass holder stirs more even;

2, the present invention adopts permanent magnetism magnetic suspension bearing, through the position of each magnet of rational deployment, make suspension magnet all present with turning cylinder, the central magnet at upper magnet, bottom magnet and center around the position that heteropole is relative, because heteropole repels each other, suspension magnet is suspended in the air, do not contact with other parts, the operation non-interference of revolution and autobiography, has stable speed governing effect.

Brief description of the drawings

Fig. 1 is the cross-sectional schematic of the present invention for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive.

Fig. 2 is the structural representation of the present invention for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive.

Detailed description of the invention

As depicted in figs. 1 and 2, the present invention proposes a kind of for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive, it comprise first motor 1, glass holder support 2, permanent magnetism magnetic suspension bearing 3, second motor 4, second motor drum in-phase 5, magnetic suspension bearing synchronizing wheel 6, bevel gear 7, three synchronizing wheel belts 8, two bevel gear synchronizing wheels 9, four bearings 10, two mix glass holder 11, two glass holder synchronizing wheels 12.

One turning cylinder 18 is installed on this first motor 1.Start after this first motor 1, this turning cylinder 18 rotates.

This glass holder support 2 is arranged on the end of this turning cylinder 18.This glass holder support 2 comprises that a base 22, two are upwards the hypotenuse 24 that extend at 135 degree angles from these 22 two ends, base.

This turning cylinder 18 is connected to the bottom on this base 22.

When this turning cylinder 18 rotates, this glass holder support 2 can rotate thereupon.

This permanent magnetism magnetic suspension bearing 3 is arranged on outside this turning cylinder 18, and it comprises a central magnet 31, upper magnet 32, bottom magnet 33, a suspension magnet 34.

This central magnet 31 is arranged on this turning cylinder 18, and the upper end of this central magnet 31 is N utmost points, and lower end is the S utmost point.

This upper magnet 32 is arranged on the bottom on the base 22 of this glass holder support 2, and its upper end is the S utmost point, and lower end is the N utmost point.

This bottom magnet 33 is arranged on this turning cylinder 18 outsides, is positioned at the below of this upper magnet 32, and the upper end of this bottom magnet 33 is S utmost points, and lower end is the N utmost point.

This suspension magnet 34 is set in outside this central magnet 31 and turning cylinder 18, and is arranged between upper magnet 32, bottom magnet 33, but does not contact with this central magnet 31, turning cylinder 18, upper magnet 32, bottom magnet 33.These suspension magnet 34 upper ends are N utmost points, and lower end is the S utmost point.

The lower end of the upper end of this suspension magnet 34, the upper end of this central magnet 31, this upper magnet 32 is all the N utmost point, and the upper end of the lower end of the lower end of this suspension magnet 34, this central magnet 31, this bottom magnet 33 is all the S utmost point, due to the reason of homopolar-repulsion, this suspension magnet 34 does not contact with other parts around, but be suspended in the air, therefore this suspension magnet 34 does not almost have frictional force when rotated.

This second motor 4 comprises a rotating shaft 42.Start after this second motor 4, this rotating shaft 42 rotates.

This second motor drum in-phase 5 is arranged on the end of this rotating shaft 42.

This magnetic suspension bearing synchronizing wheel 6 is set in the outside of this suspension magnet 34.

This bevel gear 7 comprises first gear 72, two the second gears 74.

This first gear 72 is arranged on the outside of this suspension magnet 34 and is positioned at the top of this magnetic suspension bearing synchronizing wheel 6.

These two the second gears 74 are arranged on the two ends of this first gear 72, and this first gear 72 can drive these two the second gears 74 to rotate by the bevel gear kind of drive.

In these three synchronizing wheel belts 8, wherein first synchronizing wheel belt 8 is arranged between this second motor drum in-phase 5 and this magnetic suspension bearing synchronizing wheel 6.

These two bevel gear synchronizing wheels 9 are arranged on respectively on these two the second gears 74.

These four bearings 10 are arranged on respectively on this glass holder support 2.Wherein two bearings 10 are connected on these two bevel gear synchronizing wheels 9.

These two mixing glass holders 11 are arranged on respectively the upper end of this two other bearing 10, and therefore these two mixing glass holders 11 are rotatably installed on this glass holder support 2.

These two glass holder synchronizing wheels 12 are arranged on respectively the lower end of this two other bearing 10.

This two other synchronizing wheel belt 8 is arranged on respectively between these two bevel gear synchronizing wheels 9 and two glass holder synchronizing wheels 12.

Start the first motor 1, this turning cylinder 18 rotates, and drives this glass holder support 2 synchronously to rotate, and these two are mixed glass holder 11 along with this glass holder support 2 rotates together, and the axle center of rotation is this turning cylinder 18, and this kind of rotation of this mixing glass holder 11 is called " revolution ".

Start the second motor 4, this rotating shaft 42 rotates, after these the second motor drum in-phase 5 rotations, drive this magnetic suspension bearing synchronizing wheel 6 to rotate by synchronizing wheel belt 8, thereby drive this suspension magnet 34 and this first gear 72 synchronously to rotate, this first gear 72 drives this second gear 74 to rotate.After this second gear 74 rotates, these two bevel gear synchronizing wheels 9 synchronously rotate, and by synchronizing wheel belt 8, drive these two glass holder synchronizing wheels 12 to rotate, thereby drive these two mixing glass holders 11 to rotate, and these mixing glass holder 11 this kind of rotations are called " rotation ".

The present invention has following beneficial effect:

1, agitator of the present invention comprises the first motor 1 and the second motor 4, drive respectively these two mixing glass holders 11 to revolve round the sun and rotation, regulate the rotating speed of the first motor 1 and the second motor 4, can regulate respectively these two speed of mixing glass holder 11 revolution and rotation, the material that makes to mix in glass holder 11 stirs more even;

2, the present invention adopts permanent magnetism magnetic suspension bearing 3, through the position of each magnet of rational deployment, make suspension magnet 34 all present with turning cylinder 18, the central magnet 31 at upper magnet 32, bottom magnet 33 and center around the position that heteropole is relative, because heteropole repels each other, suspension magnet 34 is suspended in the air, do not contact with other parts, the operation non-interference of revolution and autobiography, has stable speed governing effect.

In above-described embodiment, the position of above-mentioned magnet can be adjusted as follows: the upper end of this central magnet is the S utmost point, and lower end is the N utmost point; This upper magnet upper end is the N utmost point, and lower end is the S utmost point; The upper end of this bottom magnet is the N utmost point, and lower end is the S utmost point; This suspension magnet upper end is the S utmost point, and lower end is the N utmost point.Such structure, can reach same technical purpose and technique effect equally.

Claims (3)

1. one kind for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive, it is characterized in that, it comprises first motor, a glass holder support, a permanent magnetism magnetic suspension bearing, second motor, second motor drum in-phase, a magnetic suspension bearing synchronizing wheel, a bevel gear, three synchronizing wheel belts, two bevel gear synchronizing wheels, four bearings, two mixing glass holders, two glass holder synchronizing wheels;

On this first motor, a turning cylinder is installed;

This glass holder support is arranged on this rotation the tip of the axis, and this glass holder support comprises that a base, two are upwards the hypotenuse that extend at 135 degree angles from these two ends, base, and this turning cylinder is connected to the bottom on this base;

This permanent magnetism magnetic suspension bearing is arranged on outside this turning cylinder, and it comprises a central magnet, a upper magnet, a bottom magnet, a suspension magnet;

This central magnet is arranged on this turning cylinder;

This upper magnet is arranged on the bottom on the base of this glass holder support;

This bottom magnet is arranged on this turning cylinder outside, is positioned at the below of this upper magnet;

This suspension magnet is set in outside this central magnet and turning cylinder, and is arranged between upper magnet, bottom magnet, but does not contact with this central magnet, turning cylinder, upper magnet, bottom magnet, and this suspension magnet is suspended in the air;

This second motor comprises a rotating shaft;

This second motor drum in-phase is arranged on this rotation the tip of the axis;

This magnetic suspension bearing synchronizing wheel is set in the outside of this suspension magnet;

This bevel gear comprises first gear, two the second gears, this first gear is arranged on the outside of this suspension magnet and is positioned at the top of this magnetic suspension bearing synchronizing wheel, these two the second gears are arranged on the two ends of this first gear, and this first gear can drive these two the second gear rotations by the bevel gear kind of drive;

In these three synchronizing wheel belts, wherein first synchronizing wheel belt is arranged between this second motor drum in-phase and this magnetic suspension bearing synchronizing wheel;

These two bevel gear synchronizing wheels are arranged on respectively on these two second gears;

These four bearings are arranged on respectively on this glass holder support, and wherein two bearings are connected on these two bevel gear synchronizing wheels;

These two mixing glass holders are arranged on respectively the upper end of two other bearing, and therefore these two mixing glass holders are rotatably installed on this glass holder support;

These two glass holder synchronizing wheels are arranged on respectively the lower end of this two other bearing;

Two other synchronizing wheel belt is arranged on respectively between these two bevel gear synchronizing wheels and two glass holder synchronizing wheels.

2. according to claim 1ly it is characterized in that for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive, the upper end of this central magnet is the N utmost point, and lower end is the S utmost point; This upper magnet upper end is the S utmost point, and lower end is the N utmost point; The upper end of this bottom magnet is the S utmost point, and lower end is the N utmost point; This suspension magnet upper end is the N utmost point, and lower end is the S utmost point.

3. according to claim 1ly it is characterized in that for the preparation of the adjustable agitator of the rotation-revolution speed ratio of anisotropic conductive, the upper end of this central magnet is the S utmost point, and lower end is the N utmost point; This upper magnet upper end is the N utmost point, and lower end is the S utmost point; The upper end of this bottom magnet is the N utmost point, and lower end is the S utmost point; This suspension magnet upper end is the S utmost point, and lower end is the N utmost point.

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