CN202181427U

CN202181427U - Equipment for producing bi-component spun-bonded nonwovens

Info

Publication number: CN202181427U
Application number: CN2011202918344U
Authority: CN
Inventors: 徐克勤; 陈立东; 濮颖军
Original assignee: Wenzhou Changlong Textile Technology Co ltd; Wenzhou Chaolong Textile Machinery Co ltd
Current assignee: Zhejiang Chao long textile machinery Limited by Share Ltd
Priority date: 2011-08-09
Filing date: 2011-08-09
Publication date: 2012-04-04
Anticipated expiration: 2021-08-09

Abstract

The utility model relates to equipment for producing bi-component spun-bonded nonwovens, which comprises an A-component screw extruding machine, an A-component filter, an A-component metering pump, a B-component screw extruding machine, a B-component filter, a B-component metering pump, a spinning beam, a spinning assembly, a cooling device, an extension device, a web former and a fiber web fastening device, wherein the spinning beam is a bi-component spinning beam and is internally provided with an A-component fondant runner and a B-component fondant runner which are independently arranged. The inlets of the two fondant runners are respectively connected with the A-component metering pump and the B-component metering pump, and the outlets of the two fondant runners are a group of discharge ports arranged along the width direction of nonwovens. The discharge ports are positioned on the installing surface of the spinning assembly under the spinning beam, and the spinning assembly is a rectangular monoblock spinneret plate.

Description

Be used to produce the equipment of bicomponent spunbond non-weaving cloth

Technical field

The utility model relates to the production equipment of composite spunbonding process non-weaving cloth, relates in particular to two kinds of equipment that polymer is the raw material production spun-bonded non-woven of a kind of employing.

Background technology

Investigate spun-bonded non-woven production equipment and manufacturing approach (manufacturing technique) but according to difference tube-separating type drawing-off spinning, the drawing-off spinning of platelet rectangle and the whole plate rectangle drawing-off spinning three major types of spinning draft apparatus structure and technology.Wherein adopt the manufacturing equipment structure of whole plate rectangle drawing-off spinning technique the simplest, the minimum that takes up space, more can embody spunbond technology efficiently, characteristic cheaply, the spinning cloth outward appearance of being produced the best.And existing bicomponent spunbond nonwoven fabric equipment and production method have all adopted tubular type drafting system and technology, and used spinning manifold is two tanks basically, and equipment volume is huge, and cost is high, the demand of incompatibility bicomponent spunbond non-weaving cloth development.

Summary of the invention

The utility model aims to provide a kind of production equipment of bicomponent spunbond non-weaving cloth, to overcome the defective that existing equipment exists.

The equipment that is used to produce the bicomponent spunbond non-weaving cloth that the utility model provided; Comprise A component screw extruder, A component filter, A component measuring pump and B component screw extruder, B component filter, B component measuring pump and spinning manifold, filament spinning component, cooling device, extension apparatus, lapper and fibre web bracing means; Said spinning manifold is the bi-component spinning manifold; Be provided with independent A component melt flow channel and the B component melt flow channel that is provided with of two covers in the said casing; The import of two melt flow channel is connected with B component measuring pump with A component measuring pump respectively; The outlet of two melt flow channel is one group of discharging opening of arranging along the width of non-weaving cloth, and said discharging opening is positioned on the installed surface of the filament spinning component below the spinning manifold, and said filament spinning component is a rectangle monoblock spinnerets.

The further technical scheme of the utility model is: can be provided with A component static mixer between said A component measuring pump and the import of A component melt flow channel, can be provided with B component static mixer between said B component measuring pump and the import of B component melt flow channel.Said extension apparatus is the whole plate full width air drawing device of open positive repoussage plate full width air drawing device or closed negative pressure.Said cooling device is a full width bilateral cold wind window.

The beneficial effect of the utility model: adopt above-mentioned production equipment, can make device structure compacter, it is little to take production site, and production efficiency is high, and the Fiber Distribution of product is more even, and the surface quality of cloth is better.

Below in conjunction with the accompanying drawing and the specific embodiment the utility model is described further.

Description of drawings

Fig. 1 is the corresponding sketch map with technological process of the utility model production equipment;

Fig. 2 is the structural representation of whole plate filament spinning component of full width and open malleation full width air drawing device;

Fig. 3 is the structural representation of whole plate filament spinning component of full width and closed negative pressure full width air drawing device;

Fig. 4 is a bi-component spinning manifold structural representation;

Fig. 5 is bi-component spinning manifold two a melt distribution circuit outlet distribution schematic diagram;

Fig. 6 is the whole plate filament spinning component vertical view of full width;

Fig. 7 is the whole plate filament spinning component upward view of full width.

Drawing explanation: 1. bi-component spinning manifold, 2. filament spinning component, 3. cooling device (full width bilateral cold wind window), 4. fiber curtain (full width fiber curtain); 5. extension apparatus (just/negative pressure whole plate full width air drawing device), 6. casing body, 7. casing zone of heating (being heating system), 8.A component melt flow channel; 81.A the component charging aperture, 9.B component melt flow channel, 91.B component charging aperture; 10. cabinet insulation layer, 11. cabinet shells, 12 unit installing boards.

The specific embodiment

Like Fig. 1, Fig. 2, Fig. 3, embodiment illustrated in fig. 4; The utility model is used to produce the equipment of bicomponent spunbond non-weaving cloth, comprises A component screw extruder, A component filter, A component measuring pump and B component screw extruder, B component filter, B component measuring pump and spinning manifold, filament spinning component, cooling device, air drawing device, lapper and fibre web bracing means.Be provided with independent A component melt flow channel that is provided with 8 of two covers and B component melt flow channel 9 in the casing of said bi-component spinning manifold 1; The import of two melt flow channel is connected with B component measuring pump with A component measuring pump respectively; The outlet of two melt flow channel is one group of discharging opening (see figure 5) of arranging along the width of non-weaving cloth, and said discharging opening is positioned on the installed surface of the filament spinning component below the spinning manifold.

Present embodiment, filament spinning component adopt rectangle monoblock spinnerets, and the air drawing device adopts open positive repoussage plate full width air drawing device (see figure 2) or the whole plate full width air drawing device (see figure 3) of closed negative pressure.

Adopt the manufacturing approach (technology) of the bicomponent spunbond non-weaving cloth of the said equipment to comprise:

(A), with the high polymer of A component and B component respectively through super-dry or directly send into separately independently in A component screw extruder and the B component screw extruder; High polymer component after the fusion is sent into separately independently A component filter and B component filter respectively carry out pre-filtering and handle under the squeezing action of screw rod, filtering accuracy can be through the density adjustment of adjustment screen pack;

(B), A component melt and the B component melt handled through pre-filtering be admitted to separately independently A component measuring pump and B component measuring pump respectively, it is constant that the pressure of each measuring pump arrival end keeps, output quantity is constant when guaranteeing that measuring pump rotates with certain speed;

(C), A component melt and the A component melt seen off of A component measuring pump and B component measuring pump sent in the spinning manifold through the import of two melt flow channel of spinning manifold simultaneously; And independently melt flow channel and runner exit are disperseed and are sent in the filament spinning component separately in spinning manifold; Melt carries out sub-distribution again and is combined to form required structure (core-skin or tangerine lobe etc.) from the micropore of rectangle monoblock spinnerets, extruding (see figure 7) downwards according to the runner that designs in the filament spinning component, many component high polymers of extruding strand state that in an elongated rectangular shape, is evenly distributed;

(D), the strand of extruding through spinnerets is through being positioned at the movably cooling device of spinnerets below; After the temperature of adjustment strand; Continue to fall to getting into extension apparatus; Drafted attenuating, this moment, shrank at the short side direction of rectangle in the cross section of fiber collection, makes fiber collection form the equally distributed fiber curtain in long limit, an edge;

(E), fall through the fiber curtain of drawing-off and be positioned on the lapper lace curtaining that extension apparatus transfers; Be piled into fiber web, become lace curtaining to move to the fibre web bracing means continuously, drive fibre web and move continuously; Form continuous fibre web, fibre web is admitted to reinforce in the bracing means and forms two component nonwoven fabric.Bracing means can be hot rolling, acupuncture, water thorn, gluing etc.

Be the temperature that reduces melt and the fluctuation of viscosity; In the above-mentioned steps (C), A component melt that A component measuring pump and the pumping of B component measuring pump go out and B component melt preferably respectively earlier through behind A component static mixer and the B component static mixer again the import of two melt flow channel through spinning manifold send in the spinning manifold simultaneously.

Claims

1. equipment that is used to produce the bicomponent spunbond non-weaving cloth; Comprise A component screw extruder, A component filter, A component measuring pump and B component screw extruder, B component filter, B component measuring pump and spinning manifold, filament spinning component, cooling device, extension apparatus, lapper and fibre web bracing means; It is characterized in that: said spinning manifold is the bi-component spinning manifold; Be provided with independent A component melt flow channel and the B component melt flow channel that is provided with of two covers in the said casing; The import of two melt flow channel is connected with B component measuring pump with A component measuring pump respectively; The outlet of two melt flow channel is one group of discharging opening of arranging along the width of non-weaving cloth, and said discharging opening is positioned on the installed surface of the filament spinning component below the spinning manifold, and said filament spinning component is a rectangle monoblock spinnerets.

2. the equipment that is used to produce the bicomponent spunbond non-weaving cloth according to claim 1; It is characterized in that: also be provided with A component static mixer between said A component measuring pump and the import of A component melt flow channel, also be provided with B component static mixer between said B component measuring pump and the import of B component melt flow channel.

3. the equipment that is used to produce the bicomponent spunbond non-weaving cloth according to claim 1 and 2 is characterized in that: said extension apparatus is the whole plate full width air drawing device of open positive repoussage plate full width air drawing device or closed negative pressure.

4. the equipment that is used to produce the bicomponent spunbond non-weaving cloth according to claim 1 and 2 is characterized in that: said cooling device is a full width bilateral cold wind window.

5. the equipment that is used to produce the bicomponent spunbond non-weaving cloth according to claim 3 is characterized in that: said cooling device is a full width bilateral cold wind window.