CN110126233A - A kind of high shear interface multiplier - Google Patents

Abstract

The present invention discloses a kind of high shear interface multiplier, mainly includes extruder, cutter, orifice plate and head.Extruder core component is the screw rod that can be rotated, and cutter is installed on the head of the screw rod of extruder, in this way, screw rod can drive the rotation of cutter.Orifice plate is installed on the outside of cutter, has one section of gap between cutter and orifice plate, orifice plate is stationary.Material is added from barrel, under the screw conveyor, under the hot environment of electric heater unit, start to melt and be transported to the head of screw rod, melt is being upwardly formed numerous shear surfaces perpendicular to extrusion side under the shearing effect of dragging of cutter, the orifice plate plane opposite with cutter has gap, micro- face is formed under effect of dragging, micro- face is cut by the hole on orifice plate again, ensure that product all enhances on perpendicular to extrusion direction and along intensity on direction is squeezed out.Feeding screw axis is driven by separate electrical motor in the present invention, and the revolving speed of helical axis is adjustable, can play the role of preventing material lagging.

Description

A kind of high shear interface multiplier

Technical field

The present invention relates to high molecular material micro-nanos, and extrusion molding equipment field is laminated, and refers in particular to a kind of high shear interface multiplication Device.

Background technique

It is a kind of novel processing method that extruding technology, which is laminated, in micro-nano, by stacked laminator, composite material can be divided into hundred Thousands of layers of alternating laminated structure makes each layer in material of thickness can achieve micron even nano-scale, to obtain More excellent performance of functional composite material.

By taking Patent No. CN104960308A, a kind of entitled " device for producing laminated composite plate " patent as an example, into The n-layer macromolecule melt for entering micro-nano lamination unit is divided into m equal part on perpendicular to flow direction, and every 1 equal point is continued flow forward And 90 ° are reversed simultaneously, thinning and broaden, in outlet, confluence becomes n × m layers of melt, the melt of thickness and width and inlet Equally.Every to increase m times by 1 its number of plies of lamination unit, when melt is after k stacking device, the melt number of plies becomes n × m^k Layer, melt is in shunting → torsion → extension → Process of Confluence, and streamwise is by Strong shear.If k stacking of series connection is single Member, melt will receive k shear action, to realize the high performance and functionalization of polymer.However, for conventional micro-nano For stacking device, melt is by that can only occur shear action along the interlayer for squeezing out direction, on the direction perpendicular to extrusion There is no shear action occurs, interfacial area is few, and interfacial effect is poor, and which limits the raisings of polymer performance.

Summary of the invention

The present invention proposes a kind of high shear interface multiplier, it is therefore an objective to cut melt on the direction perpendicular to extrusion High shear is realized in the effect of cutting, and shear interface quantity is big, referred to as high shear multiplier, mainly includes extruder, cutter, hole Plate and head.Extruder core component is the screw rod that can be rotated, and installs cutter on the head of the screw rod of extruder, in this way, Screw rod can drive the rotation of cutter.Orifice plate is installed on the outside of cutter, there is one section of gap, orifice plate between cutter and orifice plate It is stationary.Material is added from barrel, under the screw conveyor, under the hot environment of electric heater unit, starts melting simultaneously And it is transported to the head of screw rod, melt is numerous being upwardly formed perpendicular to extrusion side under the shearing effect of dragging of cutter Shear surface, the orifice plate plane opposite with cutter have gap, and micro- face is formed under effect of dragging, and micro- face is cut by the hole on orifice plate again It cuts, ensure that product all enhances on perpendicular to extrusion direction and along intensity on direction is squeezed out.

The shape of the edge section of cutter is taper, it is therefore an objective to melt be prevented to be trapped in blade after cutter On.

A kind of high shear interface of the invention multiplier, melt can be relatively more tired by cutter if the aperture of orifice plate is too small Difficulty may cause stagnant material；Shear effect is unobvious if aperture is excessive.In addition, the size in aperture is also by the performance of melt itself Influence.It is preferred that pore size is in 2-4mm.

Pass through the melt of cutter if the gap of a kind of high shear interface of the invention multiplier, cutter and orifice plate is excessive It closes again together；The effect of towing is not had if gap is too small.Preferred gap is in 2-5mm.

A kind of high shear interface of the invention multiplier, in order to keep the revolving speed of cutter controllable, cutter and plasticized screw point It opens, the extruder barrel connects material plasticating extruder, and the screw rod in extruder replaces with feeding screw axis, cutter It is mounted on the head of feeding screw axis, cutter are rotated with the rotation of feeding screw axis, and feeding screw axis only has metering section, Spiro rod length is reduced.Orifice plate is connected on machine barrel, stationary.Under the drive of the motor, the rotation of feeding screw axis is driven, is come Pass through the conveying of feeding screw axis by flange from the melt of extruder, shear action of the melt by cutter and orifice plate, Pass through head extrusion.Melt is being upwardly formed numerous shear surfaces, hole perpendicular to extrusion side under the shearing effect of dragging of cutter The plate plane opposite with cutter has gap, and micro- face is formed under effect of dragging, and micro- face is cut by the hole on orifice plate again, be ensure that Product all enhances on perpendicular to extrusion direction and along intensity on direction is squeezed out.Feeding screw axis by individual motor driven, The revolving speed of helical axis is adjustable, to play the role of preventing material lagging.

Since melt receives horizontal and vertical high shear forces, can regard as when flowing out high shear interface multiplier The particle of many melts, each particle surrounding itself has interface, in this way, interfacial area greatly increases, so that finally Molding article interface effect is good, and along the direction enhanced strength at interface, last molding product realizes high performance and function Energyization.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of high shear interface of the invention multiplier.

Fig. 2 is the structure chart of cutter shown in FIG. 1.

Fig. 3 is a kind of device figure that multiplier cutter revolving speed in high shear interface is controllable of the present invention.

In figure: 1. transmission devices, 2. extruder barrels, 3. screw rods, 4. cutter, 5. orifice plates, 6. heads, 7. flanges, 8. Feeding screw axis.

Specific embodiment

The present invention proposes a kind of high shear interface multiplier, as shown in Figure 1, mainly by transmission device 1, extruder barrel 2, Screw rod 3, cutter 4, orifice plate 5 and head 6 form.Cutter 4 are installed on screw rod 3, in this way, screw rod 3 can drive cutting The rotation of knife 4.Orifice plate 5 is installed on the outside of cutter 4, has one section of gap between cutter 4 and orifice plate 5, orifice plate 5 is stationary.Object Material is added from barrel, under the conveying of screw rod 3, under the hot environment of electric heater unit, starts to melt and be transported to The end of screw rod 3, melt are being upwardly formed numerous shear surfaces, hole perpendicular to extrusion side under the shearing effect of dragging of cutter 4 The plane opposite with cutter 4 of plate 5 has gap, and micro- face is formed under effect of dragging, and micro- face is cut by the hole on orifice plate 5 again, protects Product has been demonstrate,proved on perpendicular to extrusion direction and has all been enhanced along intensity on direction is squeezed out.Material passes through after the Strong shear of orifice plate 5 The extrusion of head 6 obtains finished product or semi-finished product.Finished product is generally the various profiles such as tubing, film, sheet material, semi-finished product be bottle base or Pellet.

The shape of the edge section of cutter 4 is taper, as shown in Figure 2, it is therefore an objective to prevent melt after cutter 4 It is trapped on blade.

The pore size of orifice plate 5 also requires, and melt can relatively difficult, Ke Nengzao by cutter 4 if aperture is too small At stagnant material；Shear effect is unobvious if aperture is excessive.In addition, the size in aperture is also influenced by the performance of melt itself.It is excellent Select pore size should be in 2-4mm.

Cutter 4 and the gap size of orifice plate 5 also require, and close again if gap is excessive by the melt of cutter 4 Together；The effect of towing is not had if gap is too small.Preferred gap is in 2-5mm.

It shears controllable high shear interface multiplier the present invention relates to a kind of and can be adopted to keep the revolving speed of cutter 4 controllable Take mechanism as shown in Figure 3, material plasticizing and shearing separately carry out, and plasticizing uses independent extruder, shearing part mainly by Cutter 4, orifice plate 5, head 6, flange 7 and feeding screw axis 8 form.Screw rod is changed to feeding screw axis 8, and cutter 4 are installed On feeding screw axis 8, rotated with the rotation of feeding screw axis 8.Orifice plate 5 is connected on machine barrel, stationary.In motor Driving under, drive the rotation of feeding screw axis 8, the melt from extruder by flange by the conveying of feeding screw axis 8, Shear action of the melt by cutter 4 and orifice plate 5 is squeezed out by head 6.Shearing effect of dragging of the melt in cutter 4 Under, numerous shear surfaces are being upwardly formed perpendicular to extrusion side, the plane opposite with cutter 4 of orifice plate 5 has gap, in effect of dragging Lower to form micro- face, micro- face is cut by the hole on orifice plate 5 again, ensure that product on perpendicular to extrusion direction and along extrusion direction Upper intensity all enhances.For feeding screw axis 8 by individual motor driven, revolving speed is adjustable, to play the work for preventing material lagging With.

Since melt receives horizontal and vertical high shear forces, can regard as when flowing out high shear interface multiplier The particle of many melts, each particle surrounding itself has interface, in this way, interfacial area greatly increases, so that finally Molding article interface effect is good, and along the direction enhanced strength at interface, last molding product realizes high performance and function Energyization.

Claims (5)

1. a kind of high shear interface multiplier, it is characterised in that: mainly include extruder, cutter, orifice plate and head, squeezing Cutter are installed on the head of the screw rod of machine out, and screw rod drives the rotation of cutter, installs orifice plate, cutter and hole on the outside of cutter There is one section of gap between plate, orifice plate is stationary.

2. a kind of high shear interface multiplier according to claim 1, it is characterised in that: the shape of the edge section of cutter Shape is taper.

3. a kind of high shear interface multiplier according to claim 1, it is characterised in that: aperture is in 2-4mm on orifice plate.

4. a kind of high shear interface multiplier according to claim 1, it is characterised in that: the gap of cutter and orifice plate exists 2-5mm。

5. a kind of high shear interface multiplier according to claim 1, it is characterised in that: cutter and plasticized screw point It opens, the screw rod in extruder replaces with feeding screw axis, and cutter are mounted on the head of feeding screw axis, and cutter are with feeding The rotation of helical axis and rotate, feeding screw axis only has metering section.