CN201924106U - Device adopting electrostatic spinning for continuous preparation of non-woven fabric products - Google Patents

Abstract

The utility model relates to a device adopting electrostatic spinning for continuous preparation of non-woven fabric products, and belongs to the field of electrostatic spinning. The device mainly comprises a melt conveying device, a melt metering pump, electrostatic spinning die heads, die head temperature control devices, a high-voltage electrostatic generating device, a collecting device and a bracket, wherein the melt conveying device is directly connected with an inlet of the melt metering pump, an outlet of the melt metering pump is connected with the electrostatic spinning die heads, the die head temperature control devices are mounted on the electrostatic spinning die heads or distributed in the electrostatic spinning die heads, a distribution runner is arranged in each electrostatic spinning die head and uniformly distributes a melt flow into a plurality of fluid flows, nozzles are connected with a spinneret plate at the tail ends of the fluid flows, each nozzle is not a single tiny hole but adopts the structure that hole slots are formed on a micro gap, and a hot air runner is mounted outside each electrostatic spinning die head. The device adopting the structure has the advantages that the difficulty in the processing of the electrostatic spinning die heads is greatly reduced; the diameter of fibers is smaller than that of fibers produced through melt blowing, and the quality is better; and the modular production is easy to realize.

Description

Method of electrostatic spinning prepares the device of bonded fabric product continuously

Technical field

The utility model relates to a kind of device that utilizes method of electrostatic spinning to prepare superfine fibre, belongs to the electrostatic spinning field.

Background technology

Electrostatic spinning claims electrospinning again, as far back as nineteen thirty U.S. Pat 1975504 just reported and just be defined as electrostatic spinning technique in this technology in 1993 by method of electrostatic spinning.In recent years, along with the intensification of nanosecond science and technology, electrostatic spinning technique has become one of current the most popular research field, and existing at present 50 multiple polymers successfully make superfine fibre by method of electrostatic spinning, generally between tens nanometer to 1 μ m, minimum diameter can reach 1nm to the fibre diameter that makes.The principle of electrostatic spinning can be sketched and be, in the high-voltage electrostatic field, polymer solution or melt are under the effect of electric field force, form thread from capillary end and fly to receiving system, thread produces high elongation before reaching receiving system, solvent evaporation or melt in the solution solidify, and form superfine fibre at last on receiving system.Method of electrostatic spinning is widely used, and from industrial synthetic polymer to cellulose, various raw materials such as ossein, protein, dna complex can both carry out spinning, can also add antibiotics, nano particle etc. and prepare various functional materials in spinning process.

Meltblown is the most frequently used method of present industrial production nonwoven material; be to rely at a high speed; high temperature gas flow winding-up polymer melt is stretched it rapidly and prepares a kind of method of superfine fibre; the design of meltblown beam and processing are the principal elements of decision product quality quality in the device for melt blowing; high-pressure hot air runner design in the meltblown beam is complicated; and the spinneret orifice diameter of meltblown beam is little; hole count is many; linear array; the difficulty of processing of die head is very big; and typical fibre diameter is 2～5 μ m; though and method of electrostatic spinning is also fewer in industrially scalable production; but method of electrostatic spinning is acknowledged as the simple effective method of preparation superfine fibre always; process units is compared meltblown and is wanted simple; the cost of one-time investment and the maintenance cost of long-time running are low; the fibre diameter that can obtain in the test be tens nanometers between the 1 μ m, and fibre diameter has the possibility that further reduces.Fibre diameter is thinner so method of electrostatic spinning can prepare, the better nonwoven material of strainability.Along with the development melt electrostatic spinning method of technology probably can replace meltblown to be used for the batch process of nonwoven material.

Research about electrostatic spinning at present concentrates on solution electrostatic spinning aspect mostly, and for melt electrostatic spinning, because its device relative complex, the fiber of spinning is thicker relatively, thereby less relatively for its research.Though the solution electrostatic spinning can spin little fiber to tens nanometers, but the use of solvent makes it a series of problem occur, causes the fiber surface defective, uses the expensive cost of solvent and problem such as yield poorly as the collocation problem of the recovery problem of solvent, the safety problem that is applied to biomedicine field, polymer and solvent, solvent evaporation.Compare with the solution method of electrostatic spinning, melt electrostatic spinning be a kind of than solution electrostatic spinning more economically, environmental protection, efficient, the safe method for preparing superfine fibre, thereby melt electrostatic spinning more is hopeful electrostatic spinning technique is moved towards the industrialization.The key issue that will solve about melt electrostatic spinning at present makes micron-sized fibre diameter be further reduced to nanoscale exactly, and further improves its production efficiency and industrialization thereof.

Mentioned the device of realizing the non-woven superfine fibre of method of electrostatic spinning suitability for industrialized production in the U.S. Pat 6616435.But, in this patent, also come with some shortcomings.At first, what describe in this patent mainly is the solution method of electrostatic spinning, the melt electrostatic spinning method is just mentioned roughly, do not provide the melt electrostatic spinning method and produce the concrete scheme and the device of nonwoven material, and great number of issues such as the fiber quality problem that causes of solution method of electrostatic spinning fiber surface defective, solvent recovery problem, environmental issue, production cost have become to hinder the obstacle of method of electrostatic spinning industrialization development; Secondly because the preparation of polymer solution needs certain operation and long time in the solution method of electrostatic spinning, institute so that produce discontinuous, production efficiency is low, is difficult to realize high efficiency, large-scale production.Simultaneously, the device of being mentioned in this patent yields poorly.

The utility model content

The utility model proposes the device that a kind of melt electrostatic spinning method prepares bonded fabric product continuously, the problems of bringing with the use that solves solvent in the solution electrostatic spinning are desired to overcome meltblown simultaneously and are produced shortcomings such as fibre diameter is thick in the device of nonwoven material, the device manufacture difficulty is big, maintenance cost height.The fibre diameter of melt electrostatic spinning subtraction unit preparation is thin, output is big, production efficiency is high, the production process safety and environmental protection, will become the master that will prepare superfine fibre from now on.

Technical scheme is for achieving the above object, a kind of method of electrostatic spinning prepares the device of bonded fabric product continuously, mainly comprises: melt Conveying device, melt metering pump, electrostatic spinning die head, die head attemperating unit, high-voltage electrostatic generator, gathering-device and support.The melt Conveying device directly is connected with the import of melt metering pump, the melt-stoichiometry delivery side of pump is connected with the electrostatic spinning die head, the die head attemperating unit is installed on the electrostatic spinning die head or is distributed in the electrostatic spinning die head, be used to control the temperature of electrostatic spinning die head, the distribution runner is arranged in the electrostatic spinning die head, described distribution runner is an a plurality of fluids with one melt uniform distribution, the end of a plurality of fluids connects spinnerets, spinnerets has pore, an electrode is connected with the electrostatic spinning die head in two electrodes of high-voltage electrostatic generator, another electrode is connected with the electrode network that places gathering-device base cloth below, gathering-device places the collection that realizes under the electrostatic spinning die head spinning fibre, stent support is used for the support of melt metering pump or electrostatic spinning die head or high-voltage electrostatic generator in electrostatic spinning die head place.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously, wherein the capital equipment of melt Conveying device is an extruder, material flows to melt metering pump after extruder heating and melting, plasticizing, homogenizing, melt metering pump is used for melt divided equally with continuous precise provides the melt of suitable flow to the electrostatic spinning die head, and the material of fusion is transported to the electrostatic spinning die head after through melt metering pump control flow.The electrostatic spinning die head is the core of this process units, and can directly affect electrostatic spinning carry out, and also the diameter of fiber to preparation plays an important role.The electrostatic spinning die head adopts the two-plate structure, distributes the hot flow path groove of runner for processing respectively on close-fitting two boards, and the hot flow path groove adopts 2 ⁿForm distribute, afterwards be divided into 2 through n shunting by a hot flow path of import department ⁿThe bar hot flow path, the area of section sum of hot flow path is equal to each other on arbitrary section of straight vertical runner runner.In the assigning process of runner, the diameter of the hot flow path of each grade is identical and flow channel length equal, this has just guaranteed that melt flow regime at each last exit fluid after the hot flow path shunting is identical with parameter, eliminated hot flow path in the spinning process to inhomogeneity influence.Each melt canal corresponding with a plurality of fluids connects a nozzle respectively on the spinnerets that the end of a plurality of fluids connects, spinnerets and nozzle are by being threaded, and locate by the face of cylinder, the upper end of nozzle is under the threaded engagement effect and the spinnerets top tight sealing, prevent leakage current, the cooperation cylinder of nozzle and the corresponding surface of spinnerets are adjacent to by tight fit, prevent that fluid from refluxing, the lower end that cooperates cylinder is perpendicular to the even a plurality of tap holes that distribute of cylinder, realize to a certain degree circumferentially uniform of fluid, the buffering suface cone angle of nozzle is a bit larger tham the shunting conical surface, so that form a lozenges with spinnerets, play the compression and the further uniform effect of convection cell, the uniform a plurality of splitter boxs of annular on the shunting conical surface, realize the multiply segmentation of fluid, be parallel to each other with the conical surface on the corresponding spinnerets of the shunting conical surface of nozzle, one soket head cap screw hole is set in the nozzle lower end or install with convenient in a word hole, shallow concave surface is set in the lower surface simultaneously, electric charge gathered at the fluid place when purpose was spinning, optimized spinning effect.Nozzle arrangements has adopted beveled structure, each runner exit a plurality of fine pores have been divided into through beveled structure, so both realized that the size that reduces nozzle had also reduced difficulty of processing and cost, the umbrella shape nozzle can be realized the uniform distribution of melt and form drop so that the carrying out smoothly of electrostatic spinning at nozzle exit.High-voltage electrostatic generator is the important component part of this equipment, the voltage that has only high-voltage electrostatic generator to set up could spray when being higher than the critical voltage of droplet stream thread, the positive pole of high-voltage electrostatic generator is connected with electrode network, electrode network is in the base cloth lower position, the negative pole of electrostatic generator is connected ground connection simultaneously with the electrostatic spinning die head, formed electric field like this between the nozzle of electrostatic spinning die head and electrode network, the field intensity size is regulated by the voltage value of electrostatic generator.The fiber laydown of preparation is on the base cloth below the die head, by the feed speed and the pretightning force of base cloth unwinding device and base cloth wrap-up control base cloth, the serialization production that has realized the method for electrostatic spinning non-weaving cloth is used in uniting of conveyer belt and base cloth unwinding device, base cloth wrap-up.At conveyer belt the fiber of preparation is gone Electrostatic Treatment and compaction treatment to fiber in the process that wrap-up is carried, obtain thickness goods more uniformly densely.Gathering-device realize preparation non-weaving cloth collection and deposit work.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously, wherein there is the jet flow wild effect in the electrostatic spinning process, set up air heating system in this device, the effect of air heating system is: 1, for the fiber that ejects provides certain environment temperature, be beneficial to the acquisition of superfine fibre; 2, the deposition to fiber plays certain guide effect, limits deposition position and area; 3, fiber is played to a certain degree stretching action, make the diameter of fiber further dwindle.Air heating system mainly comprises high pressure blower, air heater, air cleaner, bellows, high temperature resistant air draft blower fan, high temperature resistant flexible pipe, air cleaner links to each other with the inlet of high pressure blower, the outlet of high pressure blower links to each other with the air heater inlet, air flow is heated to the temperature of setting behind air heater, the high-temperature hot air of being discharged by the air heater outlet is transported in the bellows by the gentle fluidic distributor distribution of high temperature resistant flexible pipe, the air heater outlet is connected with air-flow distributor through high temperature resistant flexible pipe, air-flow distributor is connected with bellows through high temperature resistant flexible pipe, bellows are installed in electrostatic spinning die head both sides symmetrically, there is certain compression ratio in runner in the bellows, air communication then begins progressively evenly to distribute after going into bellows, finally at the uniform hot air flow of bellows nozzle seam ejection.Having brought into play its effect back at hot air flow is discharged hot-air by the high temperature resistant air draft blower fan that is installed in below the conveyer belt, high temperature resistant air draft blower fan is positioned at the conveyer belt below of the conveyor-belt apparatus of gathering-device, its effect is also to form negative pressure when draining hot-air to make fiber being attached on the base cloth tightly, so also facilitation has been played in the collection of fiber.Other each several part devices of air heating system are installed on the frame, guarantee the reasonable arrangement in the stable and space of this air heating system.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously, wherein the melt Conveying device can adopt single screw extrusion machine, double screw extruder and multi-screw extruder, or the extruder of other types, mainly be the various fusion parameters requirements of material to be determined when selecting for use according to material of being processed and electrostatic spinning part.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously, melt metering pump in the device can have multiple choices as required, can select common smelt gear pump or planetary gear pump for use, can use the measuring pump of an outlet of an import also can select the measuring pump of a plurality of outlets of import for use, concrete measuring pump model and kind are selected according to the requirement of production line.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously, the electrostatic spinning die head is according to the requirement of product properties and production efficiency, distribute runner to adopt the method for salary distribution of clothes hanger type structure, on spinnerets, continuous fused mass evenly is divided into a plurality of filaments and exports.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously; this process units can be used as an independent production module; the apparatus module that can produce bonded fabric product to a plurality of independent method of electrostatic spinning continuously according to the actual requirements when needs are produced multi-layer product or wide cut goods superposes; can production wide cut goods when being laterally stack as stacked system; when being vertically stack, can produce stacked system the composite product of multiple different materials; satisfy different production demands by different module stacks, realize the scale of this device; modularization is produced.For example after melt metering pump, connect the runner distributor, the runner distributor will be the multiply melt from one melt uniform distribution of melt metering pump, be that the runner distributor has a melt inlet and the outlet of a plurality of melt, each melt outlet of runner distributor is connected with an electrostatic spinning die head, and then connect one or more sets high-voltage electrostatic generators, gathering-device, the arrangement of electrostatic spinning die head can be horizontal or vertical, vertical arrangement that is arranged as along the direction of motion of conveyer belt, the transversely arranged width of spinning goods that makes increases, and vertically arranging the bed thickness that makes the spinning goods increases.

The utility model melt electrostatic spinning method prepares the device of bonded fabric product continuously, meltblown has outstanding performance at present, might replace meltblown to form to producing the main production plant of nonwoven material in the future aspect the suitability for industrialized production nonwoven material.At first, the nozzle bore of employed die head is bigger than the spinneret orifice that melts and sprays footpath in this device, and nozzle be not single micro hole but on slit opening slot, this make die head be more prone to processing and processing cost low.In addition, the die head in this device does not need at die head indoor design hot-air runner, but the runner of hot-air is installed in the outside of die head, and this also makes the difficulty of processing of die head greatly reduce.Secondly, this device utilizes method of electrostatic spinning to produce superfine fibre, and the fibre diameter that the superfine fibre diameter that method of electrostatic spinning is produced is produced than meltblown is thinner, and fiber quality is better, and fibre diameter is homogeneous more, and the non-weaving cloth voidage of production is bigger, and is soft more.And design is easy to realize modularization production in this device, when the output of needs is hanged down, uses a spray silk die head to produce and gets final product; The non-weaving cloth of production wide cut if desired can two or a plurality of identical die head uses side by side; When carrying out compound tense by the different fibers of production multilayer, several identical electrostatic spinning modules can be arranged in sequentially the top of base cloth.So just can carry out modular combination to this device according to various requirement.

Description of drawings

Fig. 1 is the front view that the utility model method of electrostatic spinning prepares the device schematic diagram of bonded fabric product continuously.

Fig. 2 is the vertical view that the utility model method of electrostatic spinning prepares the device schematic diagram of bonded fabric product continuously.

Fig. 3 is the runner schematic diagram that the utility model method of electrostatic spinning prepares the electrostatic spinning die head that the device of bonded fabric product proposes continuously.

Fig. 4 is that the utility model method of electrostatic spinning prepares the A of the electrostatic spinning die head schematic diagram that the device of bonded fabric product proposes continuously to view.

Fig. 5 is that the utility model method of electrostatic spinning prepares the B of the electrostatic spinning die head schematic diagram that the device of bonded fabric product proposes continuously to view.

Fig. 6 is the nozzle arrangements figure that the utility model method of electrostatic spinning prepares the electrostatic spinning die head that the device of bonded fabric product proposes continuously.

Fig. 7 is the cross section structure schematic diagram that the utility model method of electrostatic spinning prepares bellows in the air heating system that the device of bonded fabric product proposes continuously.

Fig. 8 is the cutaway view that the utility model method of electrostatic spinning prepares the spinnerets of the electrostatic spinning die head that the device of bonded fabric product proposes continuously.

Fig. 9 is the nozzle full sectional view that the utility model method of electrostatic spinning prepares the electrostatic spinning die head that the device of bonded fabric product proposes continuously.

Figure 10 is that the C-C of Fig. 9 is to cutaway view.

Among the figure: 1-base cloth unwinding device, 2-conveyor-belt apparatus, 3-electrode network, the 4-bellows, 5-electrostatic spinning die head, 6-removes the static roller, the 7-base cloth, 8-base cloth wrap-up, 9-air draft blower fan apparatus, 10-electrode network adjusting device, 11-extruder, 12-melt metering pump, the 13-high-voltage electrostatic generator, 14-air heating system, 15-left side runner plate, the right runner plate of 16-, 17-spinnerets, 18-nozzle, the 19-temperature sensor, 20-heating rod, 21-hot flow path inlet, the outlet of 22-hot flow path, 23-spinnerets runner hole, 24-nozzle shaft orientation flowing channel hole, 25-nozzle radial flow path hole, the 26-half slot, 27-bellows nozzle seam.

The specific embodiment

The utility model proposes the device that a kind of melt electrostatic spinning method prepares bonded fabric product continuously, as depicted in figs. 1 and 2, this device mainly comprises: melt Conveying device, melt metering pump 12, electrostatic spinning die head 5, die head attemperating unit, high-voltage electrostatic generator 13, gathering-device and support.The melt Conveying device is an extruder 11 among the figure, and the die head attemperating unit is made up of heating rod 20, temperature sensor 19 and control element.Material adds extruder 11 after extruder 11 plasticizings all turn to the molten state of homogeneous, and is transported in the melt metering pump 12, and the flow of fused materials and flow velocity have guaranteed the stable of fibre diameter and output like this by melt metering pump 12 controls.12 controls are transported in the hot flow path inlet 21 of electrostatic spinning die head 5 fused materials through melt metering pump, electrostatic spinning die head 5 mainly comprises in this example: left runner plate 15, right runner plate 16, spinnerets 17, nozzle 18, temperature sensor 19 and heating rod 20 are installed in respectively on left runner plate 15, right runner plate 16, the spinnerets 17.As shown in Figure 3, fused materials distributes through hot flow path 21, and the method for salary distribution increases progressively with 2 multiple, and promptly the runner number from 2 to 2 ², 2 ³, 2 ⁴, 2 ⁵, and the cross section of fluid channel area sum of straight channel position equates that final fused materials is assigned to hot flow path equably and exports 22 places, and is all identical in the various parameters of the fluid in each exit.Connect by bolt between a left side runner plate 15 and the right runner plate 16 and guarantee to closely cooperate between two runner plates.Be assigned to equably on the nozzle 18 after the shunting of fused materials through electrostatic spinning die head 5 upper runners, nozzle 18 is installed on the spinnerets 17, the structure of spinnerets 17 and nozzle 18 such as Fig. 6, Fig. 8, Fig. 9, shown in Figure 10, between spinnerets 17 and the nozzle 18 by being threaded, the locating hole location is arranged each other, it is 22 corresponding that each spinnerets runner hole 23 on the spinnerets 17 and the hot flow path on the electrostatic spinning die head 5 export, the two equal diameters and coaxial, melt flow stream is flowed through and is flowed to circumferential equally distributed nozzle radial flow path hole 25 on the cross section by the nozzle shaft orientation flowing channel hole 24 on the nozzle 18 after hot flow path exports 22, between the umbrella shape face of nozzle 18 and the spinnerets 17 certain clearance is arranged, and the position of being close to the exit on the conical surface of nozzle 18 has splitter box, splitter box is a half slot 26 in the present embodiment, at a plurality of such half slots 26 that circumferentially evenly distributed of nozzle 18, these half slots 26 help fluid and form drop in the exit and be convenient to carrying out smoothly of electrostatic spinning.Between spinnerets 17 and left runner plate 15 and the right runner plate 16 by being threaded the assembly relation between spinnerets 17 and left runner plate 15, right runner plate 16 and the nozzle 18 such as Fig. 4, Fig. 5 and shown in Figure 6.On left runner plate 15, right runner plate 16 and the spinnerets 17 of electrostatic spinning die head 5 heating rod 20 and temperature sensor 19 have been installed, the temperature of controlling electrostatic spinning die head 5 by corresponding electric-control system makes it remain on the temperature value of setting.Electrode network 3 has been installed under electrostatic spinning die head 5, electrode network 3 is connected with the positive pole of high-voltage electrostatic generator 13, electrostatic spinning die head 5 is connected with the negative pole of high-voltage electrostatic generator 13 and is connected with the earth polar simultaneously, between electrostatic spinning die head 5 and electrode network 3, form electric field like this, the fused materials drop that electrostatic spinning die head 5 top nozzles 18 places form forms taylor cone in the high-voltage electrostatic field, will take place to spray and the formation fiber when electric-field intensity meets the demands.32 nozzles 18 are arranged on electrostatic spinning die head 5 in the present embodiment, distribution mode as shown in Figure 4, the structure of nozzle 18 is seen Fig. 9 and shown in Figure 10, and 40 half slots 26 are arranged on each nozzle 18, on electrostatic spinning die head 5, will form 1280 drops like this, in the electrostatic spinning process, will form 1280 fibers simultaneously, requirement according to production efficiency, the quantity of electrostatic spinning die head 5 top nozzles 18 can increase, and electrostatic spinning die head 5 can modularization use, and so just can reach very high output and efficient.

This device is produced the process units of non-weaving cloth goods continuously for method of electrostatic spinning, utilize the method for electrostatic spinning spinning fibre and carry out continuously, gathering-device is also collected continuously, gathering-device mainly comprises base cloth unwinding device 1, conveyor-belt apparatus 2, base cloth 7, base cloth wrap-up 8, conveyor-belt apparatus 2 is positioned under the electrostatic spinning die head 5, the conveyer belt of conveyor-belt apparatus 2 is between electrostatic spinning die head 5 and electrode network 3, base cloth 7 is tiled on the conveyer belt of conveyor-belt apparatus 2 and with the conveyer belt continuous motion, on the conveyer belt of conveyor-belt apparatus 2 near base cloth wrap-up 8 one sides installed one be connected with the earth polar remove static roller 6, go a static roller 6 and a roller of conveyor-belt apparatus 2 that the top is installed, fiber laydown is on base cloth 7, be collected and use with base cloth 7, base cloth 7 is controlled continuous supply and the collection that realizes base cloth 7 by base cloth unwinding device 1 that is installed in the device two ends and base cloth wrap-up 8.In the collection process of fiber, because the superfine fibre of spinning has polarity, therefore before the collection of fiber, to go Electrostatic Treatment to fiber, go static roller 6 to contact and eliminate fiber polarity with fiber on the base cloth 7, fiber is subjected to the squeezing action of static roller 6 and conveyor-belt apparatus 2 upper rollers and is compacted in the process of carrying simultaneously, so also helps the collection of fiber.In the process of electrostatic spinning, because the electric-field intensity between electrostatic spinning die head 5 and the electrode network 3 has significant effects to quality of fiber, so the adjustable height requirement of electrode network 3 has been satisfied in the design of electrode network adjusting device 10 in the device.

Claims (10)

1. method of electrostatic spinning prepares the device of bonded fabric product continuously, it is characterized in that: mainly comprise the melt Conveying device, melt metering pump, the electrostatic spinning die head, the die head attemperating unit, high-voltage electrostatic generator, gathering-device and support, the melt Conveying device directly is connected with the import of melt metering pump, the melt-stoichiometry delivery side of pump is connected with the electrostatic spinning die head, the die head attemperating unit is installed on the electrostatic spinning die head or is distributed in the electrostatic spinning die head, the distribution runner is arranged in the electrostatic spinning die head, distributing runner is a plurality of fluids with one melt uniform distribution, the end of a plurality of fluids connects spinnerets, spinnerets has pore, an electrode is connected with the electrostatic spinning die head in two electrodes of high-voltage electrostatic generator, another electrode is connected with the electrode network that places gathering-device base cloth below, gathering-device places under the electrostatic spinning die head, and stent support is in electrostatic spinning die head place.

2. method of electrostatic spinning according to claim 1 prepares the device of bonded fabric product continuously, it is characterized in that: the bellows of air heating system are installed in electrostatic spinning die head both sides, and other each several part devices of air heating system are installed on the frame.

3. method of electrostatic spinning according to claim 1 and 2 prepares the device of bonded fabric product continuously, it is characterized in that: the electrostatic spinning die head adopts the two-plate structure, distribute the hot flow path groove of runner for processing respectively on close-fitting two boards, the hot flow path groove adopts 2 ⁿForm distribute, afterwards be divided into 2 through n shunting by a hot flow path of import department ⁿThe bar hot flow path, the area of section sum of hot flow path is equal to each other on arbitrary section of straight vertical runner runner.

4. method of electrostatic spinning according to claim 3 prepares the device of bonded fabric product continuously, it is characterized in that: each melt canal corresponding with a plurality of fluids connects a nozzle respectively on the spinnerets that the end of a plurality of fluids connects, spinnerets and nozzle are by being threaded, and locate by the face of cylinder, the upper end of nozzle is under the threaded engagement effect and the spinnerets top tight sealing, the cooperation cylinder of nozzle and the corresponding surface of spinnerets are adjacent to by tight fit, the lower end that cooperates cylinder is perpendicular to the even a plurality of tap holes that distribute of cylinder, the buffering suface cone angle of nozzle is a bit larger tham the shunting conical surface, the uniform a plurality of splitter boxs of annular on the shunting conical surface, be parallel to each other with the conical surface on the corresponding spinnerets of the shunting conical surface of nozzle, the nozzle lower end is provided with a soket head cap screw hole or a word hole, and shallow concave surface is set in the lower surface.

5. method of electrostatic spinning according to claim 4 prepares the device of bonded fabric product continuously, it is characterized in that: the melt Conveying device is single screw extrusion machine, double screw extruder or multi-screw extruder.

6. method of electrostatic spinning according to claim 4 prepares the device of bonded fabric product continuously, it is characterized in that: melt metering pump is common smelt gear pump or planetary gear pump.

7. method of electrostatic spinning according to claim 1 and 2 prepares the device of bonded fabric product continuously, it is characterized in that: distribute runner to adopt the method for salary distribution of clothes hanger type structure, on spinnerets continuous fused mass evenly is divided into a plurality of filaments and exports.

8. method of electrostatic spinning according to claim 3 prepares the device of bonded fabric product continuously, it is characterized in that: connect the runner distributor after the melt metering pump, the runner distributor has a melt inlet and the outlet of a plurality of melt, each melt outlet of distributor is connected with an electrostatic spinning die head, and then connecing one or more sets high-voltage electrostatic generators, gathering-device, the arrangement mode of electrostatic spinning die head is horizontal or vertical.

9. method of electrostatic spinning according to claim 3 prepares the device of bonded fabric product continuously, it is characterized in that: gathering-device mainly comprises the base cloth unwinding device, conveyor-belt apparatus, base cloth, the base cloth wrap-up, conveyor-belt apparatus is positioned under the electrostatic spinning die head, the conveyer belt of conveyor-belt apparatus is between electrostatic spinning die head and electrode network, base cloth is tiled on the conveyer belt of conveyor-belt apparatus and with the conveyer belt continuous motion, on conveyer belt near base cloth wrap-up one side installed one is connected with the earth polar remove the static roller, the roller that removes static roller and conveyor-belt apparatus is to pushing up installation.

10. method of electrostatic spinning according to claim 2 prepares the device of bonded fabric product continuously, it is characterized in that: air heating system mainly comprises high pressure blower, air heater, air cleaner, bellows, high temperature resistant air draft blower fan, high temperature resistant flexible pipe, air cleaner links to each other with the inlet of high pressure blower, the outlet of high pressure blower links to each other with the air heater inlet, air flow is heated to the temperature of setting behind air heater, the air heater outlet is connected with air-flow distributor through high temperature resistant flexible pipe, air-flow distributor is connected with bellows through high temperature resistant flexible pipe, bellows are installed in electrostatic spinning die head both sides symmetrically, and high temperature resistant air draft blower fan is positioned at the conveyer belt below of the conveyor-belt apparatus of gathering-device.

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