CN103990586B - A kind of inertia flocking plant - Google Patents

Abstract

The invention provides a kind of inertia flocking plant, the belt comprising metallic plate and transmitted by deflector roll, the side of described belt is provided with the melt extrusion device to described belt outer surface melt extrusion, described metallic plate is arranged on immediately below described belt, described metal sheet surface is by being stained with the Ji Bu of adhesive, melt on belt and described metallic plate are with different electrostatic charge respectively, magnetic induction coil is equipped with around the vertical space of described belt and described base cloth, the magnetic that magnetic induction coil described in one deck controls is provided with in the space of described belt and described base cloth, described magnetic is travelled to and fro between above described belt surface and Ji Bu, in the present invention, melt is separated with described magnetic under effect of inertia, melt cools and forms fine hair under the stretching of magnetic, because the falling speed of the drive melt of magnetic increases, add the ability of the adhesive of puncture base cloth, strengthen the binding ability with base cloth.

Description

A kind of inertia flocking plant

Art

The present invention relates to weaving flocking mechanical field, especially, is the flocking plant that a kind of inertia strengthens.

Background technology

Electrostatic spinning utilizes the electric charge two like magnetic poles repel each other physical characteristic that there is a natural attraction between the sexes, make negative electrical charge on fine hair band, under being placed on zero potential or grounding requirement needing the object of flocking, fine hair is subject to different current potential by the attraction of plant, accelerate to ascend to heaven in vertical configuration to need on the body surface of flocking, owing to being scribbled adhesive by plant, fine hair is just vertically bonded at by plant, the structure of electrostatic flocking apparatus: top crown is one piece of plate-type metal screen frame, bottom crown is one piece of metal plate bracket, what be covered with that wire mark has an adhesive above treats flocking base cloth, on, lower two pieces of pole plates to be just connected on HV generator with wire respectively, negative output terminal.Fine hair in hopper, due to the rotation for hair axle, falls on metal mesh cathode.When fine hair and cathode contact, because the Conductivity Ratio fine hair of electrode is high, conductive current can be produced in the fibre, fine hair can produce negative electrostatic charge, fine hair is made to have very large degree of stretching and circling in the air property in the electric field, have on the base cloth of adhesive pattern with higher speed vertical drop to wire mark, form exquisite matte picture and text.

In flocking process, fine hair relies on adhesive to be connected with the combination of base cloth, the initial combination with adhesive of fine hair, dependence be that the inertia kinetic energy of fine hair self and the mobility of adhesive complete, due to fine hair very gently therefore fine hair and adhesive be not very good in conjunction with effect.

Summary of the invention

In order to solve the problem, the object of the present invention is to provide a kind of inertia flocking plant, this inertia flocking plant can strengthen inertia during fine hair flocking.

The technical solution adopted for the present invention to solve the technical problems is:

The belt that this inertia flocking plant comprises metallic plate and transmitted by deflector roll, the side of described belt is provided with the melt extrusion device to described belt outer surface melt extrusion, described metallic plate is arranged on immediately below described belt, described metal sheet surface is by being stained with the Ji Bu of adhesive, the melt outlet of described melt extrusion device or described belt are electrically connected with a pole of an electrostatic generator, described metallic plate is electrically connected with another pole of described electrostatic generator, magnetic induction coil is equipped with around the vertical space of described belt and described base cloth, the magnetic that magnetic induction coil described in one deck controls is provided with in the space of described belt and described base cloth, described magnetic is travelled to and fro between above described belt surface and Ji Bu.

As preferably, the surface of described deflector roll is provided with zone of heating.

As preferably, the shape of described magnetic is olivary ellipsoid, and the magnetic pole of described magnetic is positioned at ellipsoidal two tips.

As preferably, described magnetic and the nearest distance of described base cloth are greater than 1/10th of described Ji Bu and described belt distance.

The invention has the advantages that:

Melt on described belt and produce electrostatic field between described metallic plate, use magnetic induction coil to control described magnetic and be infected with melt on belt, when melt is close to described metallic plate, described magnetic counter motion, and melt is separated with described magnetic under effect of inertia, melt cools and forms fine hair, because the falling speed of the drive melt of magnetic increases under the stretching of magnetic, add the ability of the adhesive of puncture base cloth, strengthen the binding ability with base cloth.

Accompanying drawing explanation

Fig. 1 is the structural representation of this inertia flocking plant.

Fig. 2 is the schematic diagram that this inertia flocking plant melt departs from belt.

Fig. 3 is the schematic diagram that this inertia flocking plant melt is separated with magnetic.

Fig. 4 is the structural representation be combined with base cloth after this inertia flocking plant melt cooling becomes fine hair.

Fig. 5 is the schematic diagram of this inertia flocking plant magnetic shape.

Detailed description of the invention

Below in conjunction with drawings and Examples, the present invention is further described:

In the present embodiment, consult Fig. 1, this inertia flocking plant comprises metallic plate 100 and by deflector roll 210, the belt 300 of 220 transmission, the side of described belt 300 is provided with the melt extrusion device 400 to described belt 300 outer surface melt extrusion 310, described metallic plate 100 is arranged on immediately below described belt 300, described metallic plate 100 surface is by being stained with the base cloth 10 of adhesive, the melt outlet of described melt extrusion device 400 or described belt 300 are electrically connected with a pole of an electrostatic generator, described metallic plate 100 is electrically connected with another pole of described electrostatic generator, magnetic induction coil 600 is equipped with around the vertical space of described belt 300 and described base cloth 10, the magnetic 500 that described in one deck, magnetic induction coil 600 controls is provided with in described belt 300 and the space of described base cloth 10, described magnetic 500 is travelled to and fro between above described belt 300 surface and base cloth 10.

Above-mentioned inertia flocking plant, the surface of described deflector roll 210,220 is provided with zone of heating, and zone of heating can make the melt 310 on belt keep the temperature of melting, prevents cooling.

Consult Fig. 5, the shape of described magnetic 500 is olivary ellipsoid, and the magnetic pole of described magnetic 500 is positioned at ellipsoidal two tips, reduces the stop area stopping melt 310 perpendicular flow, and melt 310 is more easily departed from described magnetic 500.

Above-mentioned inertia flocking plant, described magnetic 500 distance nearest with described base cloth 10 is greater than described base cloth 10 and 1/10th of described belt 300 distance, makes melt 310 under the effect of inertia, have time enough to have described magnetic 500 to depart from.

The principle of above-mentioned inertia flocking plant:

Consult Fig. 2, Fig. 3 and Fig. 4, electrostatic field is produced between melt 310 on described belt 300 and described metallic plate 100, use magnetic induction coil 600 to control described magnetic 500 and be infected with melt 310 on belt 300, when melt 310 is close to described metallic plate 100, the counter motion of described magnetic 500, and melt 310 is separated with described magnetic 500 under effect of inertia, melt 310 is leaving belt 300 at first, be infected with bottom the melt 310 on magnetic 500 because be meet air-flow face, therefore melt 310 bottom outer cooled and solidified is shaped, and melt 310 is when being separated with described magnetic 500, the part of not solidifying of melt 310 inside is taken out of by magnetic 500 tip that cooling forms fine hair.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included in protection scope of the present invention.

Claims (4)

1. an inertia flocking plant, comprise metallic plate (100), it is characterized in that: also comprise by deflector roll (210,220) belt (300) transmitted, the side of described belt (300) is provided with the melt extrusion device (400) to described belt (300) outer surface melt extrusion (310), described metallic plate (100) is arranged on immediately below described belt (300), described metallic plate (100) surface is by being stained with the Ji Bu (10) of adhesive, melt outlet or the described belt (300) of described melt extrusion device (400) are electrically connected with a pole of an electrostatic generator, described metallic plate (100) is electrically connected with another pole of described electrostatic generator, magnetic induction coil (600) is equipped with around the vertical space of described belt (300) and described base cloth (10), the magnetic (500) that magnetic induction coil described in one deck (600) controls is provided with in the space of described belt (300) and described base cloth (10), described magnetic (500) travels to and fro between described belt (300) surface and base cloth (10) top.

2. inertia flocking plant according to claim 1, is characterized in that: the surface of described deflector roll (210,220) is provided with zone of heating.

3. inertia flocking plant according to claim 1, is characterized in that: the shape of described magnetic (500) is olivary ellipsoid, and the magnetic pole of described magnetic (500) is positioned at ellipsoidal two tips.

4. inertia flocking plant according to claim 1, is characterized in that: the distance that described magnetic (500) and described base cloth (10) are nearest is greater than described base cloth (10) and 1/10th of described belt (300) distance.