CN205115681U - No pin type electrostatic spinning equipment - Google Patents

Abstract

The utility model relates to a no pin type electrostatic spinning equipment, a serial communication port, including spinning box, feeding system, receipt to electrode, high voltage power supply and actuating system, wherein: feeding system is connected with the spinning box, the receipt is located the top of spinning box and ground connection to the electrode, high voltage power supply's positive electrode and spinning box link to each other its negative electrode ground connection, drive system configuration is in the one end of spinning box. The utility model provides a pin type spinning's stifled needle, electric field between the syringe needle excludes the low problem with spinning efficiency, the stock chest changes with the feed liquid viscosity that the thermotank of storage tank had avoided changes in ambient temperature to lead to, spinning simple structure, independently can dismantle, easy split, combination and washing, loading and unloading and the washing etc. Of having solved a large amount of spinning syringe needles are inconvenient, maintain and the maintenance cost is reduced, the efficiency of the spinning is improved, rapid produce effect and convenient large scale production, can satisfy practical application's needs well.

Description

A kind of needle-free electrospinning device

Technical field

The utility model belongs to electrostatic spinning apparatus technical field, is specifically related to a kind of needle-free electrospinning device.

Background technology

Along with the expansion of nanofiber Application Areas, electrostatic spinning technique receives much concern owing to preparing the convenience of micro nanometer fiber.In addition, the polymeric system being applicable to electrostatic spinning is extensive.At present, electrospinning process has been one of generally acknowledged the most simple and effective important means preparing micro nanometer fiber, but since Formalas invention electrostatic spinning technique in 1934, method of electrostatic spinning mass manufactures nanofiber and never obtains large-scale promotion and application, and main cause one is that the influence factor of electrostatic spinning process is complicated; Two is the restrictions being subject to some factors in sizable application, as with syringe needle blocking in spinning process, electric field mutually repels and causes the uneven and syringe needle dropping liquid of pin Electric Field Distribution, spinning efficiency low inferior between syringe needle.

For improving the efficiency of electrostatic spinning, be first that multiple injector electrostatic spinning device is invented, as Tomaszewski adopts the shower nozzle of straight line, ellipse and circular distribution to carry out spinning experiment respectively; Theron then tests the mode of single needle, seven pins and 9 pin squares arrangement.Under the mode of Multi needle, when the amount that the amount of infusion size distribution inequality of each pin causes the amount of infusion of some syringe needle to be greater than needed for spinning, the spinning liquid of shower nozzle end can form drop and drip, in order to ensure that spinning liquid is transported on each shower nozzle with constant pressure or flow, many pumps multiple spray head static spinning machine that electronization controls is developed, this equipment adopts multiple micro syringe accurately to control the amount of infusion of each shower nozzle, but the poor operability of this method industrialization, cost is high.So the mode of many shower nozzles improves to spray efficiency, but the Coulomb repulsion between shower nozzle cannot be avoided to disturb and block up the problem of pin.And no matter be single needle or spininess pattern, if adopt top-down spraying method, the dropping liquid of randomness is unavoidable.In recent years, for raising the efficiency, create roll-type needle-less or other revolving electrostatic spinning mode, but the hopper opened wide in the process rotated causes the quick volatilization of solvent, thus the viscosity B coefficent of feed liquid causes harmful effect to the stability of spinning state and the quality of nanofiber in spinning process, or production is caused to be forced to interrupt due to the feed liquid way of noncontinuity.

Utility model content

For above-mentioned problems of the prior art, the purpose of this utility model is to provide a kind of needle-free electrospinning device avoiding occurring above-mentioned technological deficiency.

In order to realize above-mentioned utility model object, the technical solution adopted in the utility model is as follows:

A kind of needle-free electrospinning device, comprises spinning box 100, feeding system 200, receives electrode 300, high voltage source 400 and drive system 500, wherein:

Described feeding system 200 is connected with described spinning box 100;

Described reception is positioned at the top of described spinning box 100 to electrode 300, and ground connection;

The positive electrode of described high voltage source 400 is connected with described spinning box 100, its negative electrode ground connection;

Described drive system 500 is arranged on one end of described spinning box 100.

Further, described spinning box 100 comprises spinning nozzle 110, power transmission shaft 120, stock chest 130, backflow scraper plate 140, thermostat A150, seal cover 160 and electrode terminal 180, wherein:

Described spinning box 100 is double-jacket body structure, and internal layer is the described stock chest 130 of arc, and skin is the described thermostat A150 of cuboid;

The main body of described power transmission shaft 120 is arranged in described stock chest 130, and described power transmission shaft 120 is through described spinning nozzle 110, and two ends are stretched out outside described stock chest 130 and described thermostat A150, and wherein one end connects described drive system 500;

Described electrode terminal 180 is fixed on the bottom of described stock chest 130 through described thermostat A150 and described stock chest 130, and is connected with the positive electrode of described high voltage source 400;

Described backflow scraper plate 140 is fixed on described stock chest 130, and described spinning nozzle 110 inserts in groove that described backflow scraper plate 140 is offered rotationally;

Described seal cover 160 covers on the top of described spinning nozzle 110.

Further, described spinning nozzle 110 is discoid assembly, comprises circular supporting disk 111 and spiral ring 112, wherein:

Described supporting disk 111 is positioned at the center of described spinning nozzle 110;

Described spiral ring 112 is positioned at the outer rim of described supporting disk 111;

Connected mode between described supporting disk 111 with described spiral ring 112 be nested encryptions or impermanency weld or electric conductivity bonding;

The diameter of described supporting disk 111 is 20mm-1000mm.

Further, the diameter of described supporting disk 111 is preferably 50mm-200mm.

Further, described spiral ring 112 is by an end to end closed helical circulus formed of the uniform silk thread of size, forms the diameter of the described silk thread of described spiral ring 112 for 0.1mm-5mm; The outside dimension of described spiral ring 112 is the pitch P of described spiral ring 112 is

Further, the diameter of the silk thread of described spiral ring 112 is formed be preferably 0.3mm-2mm; The outside dimension of described spiral ring 112 is preferably the pitch P of described spiral ring 112 is preferably

Further, the number of described spinning nozzle 110 is 1-100, and described spinning nozzle 110 is arranged in parallel along the axis of power transmission shaft 120, and when the number of described spinning nozzle 110 is greater than 1, the space D 1 of described spinning nozzle is 5-30cm.

Further, described backflow scraper plate 140 is tabular, clearance groove 141 is offered from the centre of its one end, the other end is binding end 143, the both sides of described clearance groove 141 form two wing plates 142, described two wing plates 142 are combined as a whole at described binding end 143, form the prong like that described two wing plates 142 are parallel.

Further, described seal cover 160 is detachable, and the position corresponding to described spinning nozzle 110 offers spinneret orifice 161.

The needle-free electrospinning device that the utility model provides, the main building block spiral ring of spinning nozzle instead of syringe needle, solves the electric field repulsion between the stifled pin of pin type spinning nozzle, syringe needle and the low problem of spinning efficiency; Accurate closed feed circuit restrained effectively the solvent evaporates in spinning process in stock chest, and the thermostat of stock chest and storage tank avoids the viscosity of sludge that variation of ambient temperature causes to be changed; Spinning nozzle structure is simple, separate removable, is easy to split, combine and cleaning; solve the inconvenience such as the handling of a large amount of spinning syringe needle and cleaning, reduce and safeguard and maintenance cost, improve spinning efficiency; be convenient to large-scale production, the needs of practical application can be met well.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model;

Fig. 2 is internal structure schematic diagram of the present utility model;

Fig. 3 is the structural representation of supporting disk of the present utility model and spiral ring;

Fig. 4 is the side view of Fig. 3;

Fig. 5 is the structural representation of backflow scraper plate, spinning nozzle and power transmission shaft;

Fig. 6 is the side view of Fig. 5;

In figure, 100-spinning box; 200-liquid-supplying system; 300-receives electrode; 400-high voltage source; 500-drive system; 110-spinning nozzle; 120-power transmission shaft; 130-stock chest; 140-refluxes scraper plate; 150-thermostat A; 160-seal cover; 180-electrode terminal; 111-supporting disk; 112-spiral ring; 141-clearance groove; 142-wing plate; 143-binding end; 161-spinneret orifice; 210-storage tank; 220-measuring pump; 230-thermostat B; 240-conveying pipeline; 250-charging aperture; 260-discharging opening; 270-agitator; 280-water inlet; 290-delivery port.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described further.

Following examples all adopt spinning equipment of the present utility model, and spinning liquid is the PVDF of 15%w/v, its molecular weight 500000, and the range of viscosities of spinning liquid is 1600 ± 50cP; Spinning liquid is by being added by the powder of PVDF in the mixed solvent of acetone and DMF, constant temperature 28 DEG C, fully stirs 12h and obtains; Receiving electrode 300 is stainless steel rider, and receiving system is the aluminium-foil paper being wrapped in stainless steel roller faces.

Embodiment 1

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, a kind of needle-free electrospinning device, comprise spinning box 100, feeding system 200, receive electrode 300, high voltage source 400 and drive system 500, wherein: described spinning box 100 is detachable, spinning nozzle 110, power transmission shaft 120, stock chest 130, backflow scraper plate 140, thermostat A150, seal cover 160 and electrode terminal 180 is comprised; Described feeding system 200 is connected with described spinning box 100; Described reception is positioned at the top of described spinning box 100 to electrode 300, and ground connection; The positive electrode of described high voltage source 400 is connected with the lower end of described electrode terminal 180, its negative electrode ground connection; Described drive system 500 is arranged on one end of described power transmission shaft 120, and drive system 500 is made up of the motor driver be connected to each other and motor, and motor is connected with power transmission shaft 120, and motor driver controls the rotation of motor.

The preparation method of ring-type spinning nozzle 110 is as follows: first, gets even thickness diameter for a volume copper wire line of 0.3mm, Filament winding is become external diameter for spiral, pitch P is the diameter of supporting disk 111 is 50mm, intercept one section of spiral consistent with supporting disk 111 girth, length is 157mm, by spiral ring 112 closed for the head and the tail of this section of spiral welding formation one, the thickness of supporting disk 111 is 6mm, open the arc-shaped slot of dark 2mm together in the center of the outer rim of supporting disk 111, arc radius is 3mm, and the outer rim then spiral ring 112 being nested in supporting disk 111 just forms the spinning nozzle 110 of a ring-type.The spinning nozzle 110 that making 10 is measure-alike in the same way.

Form silk thread and the described supporting disk 111 of spiral, the material making silk thread and supporting disk 111 can not be dissolved any material of the degraded that maybe can not be corroded in spinning liquid, and can be conductive material, also can be insulating materials.Conductive material can be metal stainless steel, copper, iron or aluminium etc., and insulating materials can be engineering plastics, resin, pottery, timber or composite.

Described spinning box 100 is double-jacket body structure, detachably, internal layer is the stock chest 130 of arc, skin is that in the thermostat A150 of cuboid, thermostat A150, logical temperature is the thermostatical circulating water of 25 degrees Celsius, and the lower end of thermostat A150 is provided with water inlet 280, the upper end of thermostat A150 is provided with delivery port 290, thermostatted water is entered by water inlet 280, and delivery port 290 goes out, and keeps stock chest 130 constant temperature.Electrode terminal 180 is fixed on the bottom of stock chest 130 through thermostat A150 and stock chest 130, the upper end of electrode terminal 180 has the length of 5mm exposed in stock chest 130, directly contact with the spinning liquid in stock chest 130, its lower end is connected with the positive electrode of high voltage source 400, the outside that electrode terminal 180 passes the part of thermostat A150 and stock chest 130 is wrapped up with high pressure resistant insulation material, the minus earth of high voltage source 400, receive motor 300 ground connection, and be positioned at directly over spinning box 100, the summit 180mm of distance spinning nozzle 110;

The main body of described power transmission shaft 120 is arranged in stock chest 130, it passes perpendicularly through the center of the supporting disk 111 of 10 spinning nozzles 110, each spinning nozzle 110 is arranged in parallel along the axis of power transmission shaft 120, space D 1 between each spinning nozzle 110 is 5cm, the two ends of power transmission shaft 120 are stretched out outside stock chest 130, and one end connects drive system 500; The top cover of spinning nozzle 110 is with the seal cover 160 of arc, and spinneret orifice 161 is offered in the position that corresponding spinning nozzle 110 is fixed a point, and the width of spinneret orifice 161 is 8mm.Backflow scraper plate 140 is tabular, clearance groove 141 is offered from the centre of its one end, the other end is called binding end 143, the both sides of clearance groove 141 form two wing plates 142, two wing plates 142 are combined as a whole at the binding end 143 of backflow scraper plate 140, form the prong like that two wing plates 142 are parallel, parallel distance between two wing plates 142 i.e. the width of clearance groove 141 are 6mm, the length of two wing plates 142 is 7cm, spinning nozzle 110 inserts in clearance groove 141, the two sides of supporting disk 111 are close in the inner side of two wing plates 142, the binding end of backflow scraper plate 140 is fixed on the upper limb of stock chest 130, the below that the end of two wing plates 142 is positioned at power transmission shaft 120 is free state, spinning liquid unnecessary for the two sides of the supporting disk 111 of spinning nozzle 110 scrapes and is back in stock chest 130 by backflow scraper plate 140.

The output of described storage tank 210 connects the input of measuring pump 220 by conveying pipeline 240, the output of measuring pump 220 connects the charging aperture 250 of stock chest 130 by conveying pipeline 240, the charging aperture 250 of described stock chest 130 is positioned at the bottom centre position of stock chest 130, discharging opening 260 has two, lay respectively at the both sides of stock chest 130, one, every side, the low 1cm of aspect ratio power transmission shaft 120 of discharging opening 260, two discharging openings 260 are connect respectively after threeway converting interface unites two into one by conveying pipeline 240 and connect storage tank 210 by conveying pipeline 240, the flow of measuring pump 220 is set to 220ml/h, continuously the spinning liquid in storage tank 210 is transported in stock chest 130, unnecessary spinning liquid returns in storage tank 210 by discharging opening 260, thermostat B230 leads to the recirculated water of constant temperature 25 DEG C, ensure the temperature constant of storage tank 210.

Under the driving of drive system 500, spinning nozzle 110 starts to rotate with the rotating speed of 15rpm, under the effect of high-voltage electrostatic field (critical voltage is 30kV), the spinning liquid that spiral ring 112 adheres to overcomes gravity and capillary constraint splits into micro-nano jet, the spinning efficiency of single spinning nozzle 110 can reach 100g/h (calculating with the wear rate of spinning liquid), be 50-100 times of common single needle spinning efficiency, and the diameter dispersion of spinning fibre is less.

Described viscosity monitoring system monitors the viscosity of spinning liquid in storage tank 210 in real time by viscosity sensor, controlled at 1600 ± 50cP, if the viscosity of spinning liquid is more than more than 1650cP, viscosity monitoring system will supplement appropriate solvent in storage tank 210 according to program setting, the solvent supplemented will be uniformly dispersed fast by agitator 270, make the temperature of spinning liquid and viscosity stabilization within rational scope, and guarantee the stability of spinning state and the uniformity of fiber size, spinning runs continually and steadily more than 24h, parallel-adder settle-out time can be longer.

Embodiment 2

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, a kind of needle-free electrospinning device, comprise spinning box 100, feeding system 200, receive electrode 300, high voltage source 400 and drive system 500, wherein: described spinning box 100 is detachable, spinning nozzle 110, power transmission shaft 120, stock chest 130, backflow scraper plate 140, thermostat A150, seal cover 160 and electrode terminal 180 is comprised; Described feeding system 200 is connected with described spinning box 100; Described reception is positioned at the top of described spinning box 100 to electrode 300, and ground connection; The positive electrode of described high voltage source 400 is connected with the lower end of described electrode terminal 180, its negative electrode ground connection; Described drive system 500 is arranged on one end of described power transmission shaft 120, and drive system 500 is made up of the motor driver be connected to each other and motor, and motor is connected with power transmission shaft 120, and motor driver controls the rotation of motor.

The preparation method of ring-type spinning nozzle 110 is as follows: first, gets even thickness diameter for a curled hair line of 1mm, Filament winding is become external diameter for spiral, pitch P is the diameter of supporting disk 111 is 1000mm, intercept one section of spiral consistent with supporting disk 111 girth, length is 3140mm, by spiral ring 112 closed for the head and the tail of this section of spiral welding formation one, the thickness of supporting disk 111 is 5mm, open the arc-shaped slot of dark 0.2mm together in the center of the outer rim of supporting disk 111, arc radius is 0.3mm, and the outer rim then spiral ring 112 being nested in supporting disk 111 just forms the spinning nozzle 110 of a ring-type.

Form silk thread and the described supporting disk 111 of spiral, the material making silk thread and supporting disk 111 can not be dissolved any material of the degraded that maybe can not be corroded in spinning liquid, and can be conductive material, also can be insulating materials.Conductive material can be metal stainless steel, copper, iron or aluminium etc., and insulating materials can be engineering plastics, resin, pottery, timber or composite.

Described spinning box 100 is double-jacket body structure, detachably, internal layer is the stock chest 130 of arc, skin is that in the thermostat A150 of cuboid, thermostat A150, logical temperature is the thermostatical circulating water of 25 degrees Celsius, and the lower end of thermostat A150 is provided with water inlet 280, the upper end of thermostat A150 is provided with delivery port 290, thermostatted water is entered by water inlet 280, and delivery port 290 goes out, and keeps stock chest 130 constant temperature.Electrode terminal 180 is fixed on the bottom of stock chest 130 through thermostat A150 and stock chest 130, the upper end of electrode terminal 180 has the length of 5mm exposed in stock chest 130, directly contact with the spinning liquid in stock chest 130, its lower end is connected with the positive electrode of high voltage source 400, the outside that electrode terminal 180 passes the part of thermostat A150 and stock chest 130 is wrapped up with high pressure resistant insulation material, the minus earth of high voltage source 400, receive motor 300 ground connection, and be positioned at directly over spinning box 100, the summit 180mm of distance spinning nozzle 110;

The main body of described power transmission shaft 120 is arranged in stock chest 130, and it passes perpendicularly through the center of the supporting disk 111 of spinning nozzle 110, and the two ends of power transmission shaft 120 are stretched out outside stock chest 130, and one end connects drive system 500; The top cover of spinning nozzle 110 is with the seal cover 160 of arc, and a spinneret orifice 161 is offered in the position of corresponding spinning nozzle 110, and the width of spinneret orifice 161 is 7mm.Backflow scraper plate 140 is tabular, clearance groove 141 is offered from the centre of its one end, the other end is called binding end 143, the both sides of clearance groove 141 form two wing plates 142, two wing plates 142 are combined as a whole at the binding end 143 of backflow scraper plate 140, form the prong like that two wing plates 142 are parallel, parallel distance between two wing plates 142 i.e. the width of clearance groove 141 are 5mm, the length of two wing plates 142 is 52cm, spinning nozzle 110 inserts in clearance groove 141, the two sides of supporting disk 111 are close in the inner side of two wing plates 142, the binding end of backflow scraper plate 140 is fixed on the upper limb of stock chest 130, the below that the end of two wing plates 142 is positioned at power transmission shaft 120 is free state, spinning liquid unnecessary for the two sides of the supporting disk 111 of spinning nozzle 110 scrapes and is back in stock chest 130 by backflow scraper plate 140.

The output of described storage tank 210 connects the input of measuring pump 220 by conveying pipeline 240, the output of measuring pump 220 connects the charging aperture 250 of stock chest 130 by conveying pipeline 240, the charging aperture 250 of described stock chest 130 is positioned at the bottom centre position of stock chest 130, discharging opening 260 has two, lay respectively at the both sides of stock chest 130, one, every side, the low 1cm of aspect ratio power transmission shaft 120 of discharging opening 260, two discharging openings 260 are connect respectively after threeway converting interface unites two into one by conveying pipeline 240 and connect storage tank 210 by conveying pipeline 240, the flow of measuring pump 220 is set to 220ml/h, continuously the spinning liquid in storage tank 210 is transported in stock chest 130, unnecessary spinning liquid returns in storage tank 210 by discharging opening 260, thermostat B230 leads to the recirculated water of constant temperature 25 DEG C, ensure the temperature constant of storage tank 210.

Under the driving of drive system 500, spinning nozzle 110 starts to rotate with the rotating speed of 15rpm, under the effect of high-voltage electrostatic field (critical voltage is 30kV), the spinning liquid that spiral ring 112 adheres to overcomes gravity and capillary constraint splits into micro-nano jet, the spinning efficiency of single spinning nozzle 110 can reach 100g/h (calculating with the wear rate of spinning liquid), be 50-100 times of common single needle spinning efficiency, and the diameter dispersion of spinning fibre is less.

Described viscosity monitoring system monitors the viscosity of spinning liquid in storage tank 210 in real time by viscosity sensor, controlled at 1600 ± 50cP, if the viscosity of spinning liquid is more than more than 1650cP, viscosity monitoring system will supplement appropriate solvent in storage tank 210 according to program setting, the solvent supplemented will be uniformly dispersed fast by agitator 270, make the temperature of spinning liquid and viscosity stabilization within rational scope, and guarantee the stability of spinning state and the uniformity of fiber size, spinning runs continually and steadily more than 24h, parallel-adder settle-out time can be longer.

Embodiment 3

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, a kind of needle-free electrospinning device, comprise spinning box 100, feeding system 200, receive electrode 300, high voltage source 400 and drive system 500, wherein: described spinning box 100 is detachable, spinning nozzle 110, power transmission shaft 120, stock chest 130, backflow scraper plate 140, thermostat A150, seal cover 160 and electrode terminal 180 is comprised; Described feeding system 200 is connected with described spinning box 100; Described reception is positioned at the top of described spinning box 100 to electrode 300, and ground connection; The positive electrode of described high voltage source 400 is connected with the lower end of described electrode terminal 180, its negative electrode ground connection; Described drive system 500 is arranged on one end of described power transmission shaft 120, and drive system 500 is made up of the motor driver be connected to each other and motor, and motor is connected with power transmission shaft 120, and motor driver controls the rotation of motor.

The preparation method of ring-type spinning nozzle 110 is as follows: first, gets even thickness diameter for a curled hair line of 5mm, Filament winding is become external diameter for spiral, pitch P is the diameter of supporting disk 111 is 200mm, intercept one section of spiral consistent with supporting disk 111 girth, length is 628mm, by spiral ring 112 closed for the head and the tail of this section of spiral welding formation one, the thickness of supporting disk 111 is 20mm, open the arc-shaped slot of dark 4mm together in the center of the outer rim of supporting disk 111, arc radius is 10mm, and the outer rim then spiral ring 112 being nested in supporting disk 111 just forms the spinning nozzle 110 of a ring-type.The spinning nozzle 110 that making 5 is measure-alike in the same way.

Form silk thread and the described supporting disk 111 of spiral, the material making silk thread and supporting disk 111 can not be dissolved any material of the degraded that maybe can not be corroded in spinning liquid, and can be conductive material, also can be insulating materials.Conductive material can be metal stainless steel, copper, iron or aluminium etc., and insulating materials can be engineering plastics, resin, pottery, timber or composite.

Described spinning box 100 is double-jacket body structure, detachably, internal layer is the stock chest 130 of arc, skin is that in the thermostat A150 of cuboid, thermostat A150, logical temperature is the thermostatical circulating water of 25 degrees Celsius, and the lower end of thermostat A150 is provided with water inlet 280, the upper end of thermostat A150 is provided with delivery port 290, thermostatted water is entered by water inlet 280, and delivery port 290 goes out, and keeps stock chest 130 constant temperature.Electrode terminal 180 is fixed on the bottom of stock chest 130 through thermostat A150 and stock chest 130, the upper end of electrode terminal 180 has the length of 5mm exposed in stock chest 130, directly contact with the spinning liquid in stock chest 130, its lower end is connected with the positive electrode of high voltage source 400, the outside that electrode terminal 180 passes the part of thermostat A150 and stock chest 130 is wrapped up with high pressure resistant insulation material, the minus earth of high voltage source 400, receive motor 300 ground connection, and be positioned at directly over spinning box 100, the summit 180mm of distance spinning nozzle 110;

The main body of described power transmission shaft 120 is arranged in stock chest 130, it passes perpendicularly through the center of the supporting disk 111 of 5 spinning nozzles 110, each spinning nozzle 110 is arranged in parallel along the axis of power transmission shaft 120, space D 1 between each spinning nozzle 110 is 30cm, the two ends of power transmission shaft 120 are stretched out outside stock chest 130, and one end connects drive system 500; The top cover of spinning nozzle 110 is with the seal cover 160 of arc, and spinneret orifice 161 is offered in the position that corresponding spinning nozzle 110 is fixed a point, and the width of spinneret orifice 161 is 22mm.Backflow scraper plate 140 is tabular, clearance groove 141 is offered from the centre of its one end, the other end is called binding end 143, the both sides of clearance groove 141 form two wing plates 142, two wing plates 142 are combined as a whole at the binding end 143 of backflow scraper plate 140, form the prong like that two wing plates 142 are parallel, parallel distance between two wing plates 142 i.e. the width of clearance groove 141 are 20mm, the length of two wing plates 142 is 102cm, spinning nozzle 110 inserts in clearance groove 141, the two sides of supporting disk 111 are close in the inner side of two wing plates 142, the binding end of backflow scraper plate 140 is fixed on the upper limb of stock chest 130, the below that the end of two wing plates 142 is positioned at power transmission shaft 120 is free state, spinning liquid unnecessary for the two sides of the supporting disk 111 of spinning nozzle 110 scrapes and is back in stock chest 130 by backflow scraper plate 140.

The output of described storage tank 210 connects the input of measuring pump 220 by conveying pipeline 240, the output of measuring pump 220 connects the charging aperture 250 of stock chest 130 by conveying pipeline 240, the charging aperture 250 of described stock chest 130 is positioned at the bottom centre position of stock chest 130, discharging opening 260 has two, lay respectively at the both sides of stock chest 130, one, every side, the low 1cm of aspect ratio power transmission shaft 120 of discharging opening 260, two discharging openings 260 are connect respectively after threeway converting interface unites two into one by conveying pipeline 240 and connect storage tank 210 by conveying pipeline 240, the flow of measuring pump 220 is set to 220ml/h, continuously the spinning liquid in storage tank 210 is transported in stock chest 130, unnecessary spinning liquid returns in storage tank 210 by discharging opening 260, thermostat B230 leads to the recirculated water of constant temperature 25 DEG C, ensure the temperature constant of storage tank 210.

Under the driving of drive system 500, spinning nozzle 110 starts to rotate with the rotating speed of 15rpm, under the effect of high-voltage electrostatic field (critical voltage is 45kV), the spinning liquid that spiral ring 112 adheres to overcomes gravity and capillary constraint splits into micro-nano jet, the spinning efficiency of single spinning nozzle 110 can reach 70g/h (calculating with the wear rate of spinning liquid), be 50-100 times of common single needle spinning efficiency, and the diameter dispersion of spinning fibre is less.

Described viscosity monitoring system monitors the viscosity of spinning liquid in storage tank 210 in real time by viscosity sensor, controlled at 1600 ± 50cP, if the viscosity of spinning liquid is more than more than 1650cP, viscosity monitoring system will supplement appropriate solvent in storage tank 210 according to program setting, the solvent supplemented will be uniformly dispersed fast by agitator 270, make the temperature of spinning liquid and viscosity stabilization within rational scope, and guarantee the stability of spinning state and the uniformity of fiber size, spinning runs continually and steadily more than 24h, parallel-adder settle-out time can be longer.

Embodiment 4

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5 and Fig. 6, a kind of needle-free electrospinning device, comprise spinning box 100, feeding system 200, receive electrode 300, high voltage source 400 and drive system 500, wherein: described spinning box 100 is detachable, spinning nozzle 110, power transmission shaft 120, stock chest 130, backflow scraper plate 140, thermostat A150, seal cover 160 and electrode terminal 180 is comprised; Described feeding system 200 is connected with described spinning box 100; Described reception is positioned at the top of described spinning box 100 to electrode 300, and ground connection; The positive electrode of described high voltage source 400 is connected with the lower end of described electrode terminal 180, its negative electrode ground connection; Described drive system 500 is arranged on one end of described power transmission shaft 120, and drive system 500 is made up of the motor driver be connected to each other and motor, and motor is connected with power transmission shaft 120, and motor driver controls the rotation of motor.

The preparation method of ring-type spinning nozzle 110 is as follows: first, gets even thickness diameter for a curled hair line of 0.1mm, Filament winding is become external diameter for spiral, pitch P is intercept a segment length and supporting disk 111 girth spiral of the same size, by spiral ring 112 closed for the head and the tail of this section of spiral welding formation one, the diameter of supporting disk 111 is 20mm, thickness is 5mm, the arc-shaped slot of dark 2mm is together opened in the center of the outer rim of supporting disk 111, arc radius is 2.5mm, and the outer rim then spiral ring 112 being nested in supporting disk 111 just forms the spinning nozzle 110 of a ring-type.The spinning nozzle 110 that making 100 is measure-alike in the same way.

Form silk thread and the described supporting disk 111 of spiral, the material making silk thread and supporting disk 111 can not be dissolved any material of the degraded that maybe can not be corroded in spinning liquid, and can be conductive material, also can be insulating materials.Conductive material can be metal stainless steel, copper, iron or aluminium etc., and insulating materials can be engineering plastics, resin, pottery, timber or composite.

Described spinning box 100 is double-jacket body structure, detachably, internal layer is the stock chest 130 of arc, skin is that in the thermostat A150 of cuboid, thermostat A150, logical temperature is the thermostatical circulating water of 25 degrees Celsius, and the lower end of thermostat A150 is provided with water inlet 280, the upper end of thermostat A150 is provided with delivery port 290, thermostatted water is entered by water inlet 280, and delivery port 290 goes out, and keeps stock chest 130 constant temperature.Electrode terminal 180 is fixed on the bottom of stock chest 130 through thermostat A150 and stock chest 130, the upper end of electrode terminal 180 has the length of 5mm exposed in stock chest 130, directly contact with the spinning liquid in stock chest 130, its lower end is connected with the positive electrode of high voltage source 400, the outside that electrode terminal 180 passes the part of thermostat A150 and stock chest 130 is wrapped up with high pressure resistant insulation material, the minus earth of high voltage source 400, receive motor 300 ground connection, and be positioned at directly over spinning box 100, the summit 180mm of distance spinning nozzle 110;

The main body of described power transmission shaft 120 is arranged in stock chest 130, it passes perpendicularly through the center of the supporting disk 111 of 100 spinning nozzles 110, each spinning nozzle 110 is arranged in parallel along the axis of power transmission shaft 120, space D 1 between each spinning nozzle 110 is 5cm, the two ends of power transmission shaft 120 are stretched out outside stock chest 130, and one end connects drive system 500; The top cover of spinning nozzle 110 is with the seal cover 160 of arc, and spinneret orifice 161 is offered in the position that corresponding spinning nozzle 110 is fixed a point, and the width of spinneret orifice 161 is 7mm.Backflow scraper plate 140 is tabular, clearance groove 141 is offered from the centre of its one end, the other end is called binding end 143, the both sides of clearance groove 141 form two wing plates 142, two wing plates 142 are combined as a whole at the binding end 143 of backflow scraper plate 140, form the prong like that two wing plates 142 are parallel, parallel distance between two wing plates 142 i.e. the width of clearance groove 141 are 5mm, spinning nozzle 110 inserts in clearance groove 141, the two sides of supporting disk 111 are close in the inner side of two wing plates 142, the binding end of backflow scraper plate 140 is fixed on the upper limb of stock chest 130, the below that the end of two wing plates 142 is positioned at power transmission shaft 120 is free state, spinning liquid unnecessary for the two sides of the supporting disk 111 of spinning nozzle 110 scrapes and is back in stock chest 130 by backflow scraper plate 140.

The output of described storage tank 210 connects the input of measuring pump 220 by conveying pipeline 240, the output of measuring pump 220 connects the charging aperture 250 of stock chest 130 by conveying pipeline 240, the charging aperture 250 of described stock chest 130 is positioned at the bottom centre position of stock chest 130, discharging opening 260 has two, lay respectively at the both sides of stock chest 130, one, every side, the low 1cm of aspect ratio power transmission shaft 120 of discharging opening 260, two discharging openings 260 are connect respectively after threeway converting interface unites two into one by conveying pipeline 240 and connect storage tank 210 by conveying pipeline 240, the flow of measuring pump 220 is set to 220ml/h, continuously the spinning liquid in storage tank 210 is transported in stock chest 130, unnecessary spinning liquid returns in storage tank 210 by discharging opening 260, thermostat B230 leads to the recirculated water of constant temperature 25 DEG C, ensure the temperature constant of storage tank 210.

Under the driving of drive system 500, spinning nozzle 110 starts to rotate with the rotating speed of 15rpm, under the effect of high-voltage electrostatic field (critical voltage is 25kV), the spinning liquid that spiral ring 112 adheres to overcomes gravity and capillary constraint splits into micro-nano jet, the spinning efficiency of single spinning nozzle 110 can reach 90g/h (calculating with the wear rate of spinning liquid), be 50-100 times of common single needle spinning efficiency, and the diameter dispersion of spinning fibre is less.

Described viscosity monitoring system monitors the viscosity of spinning liquid in storage tank 210 in real time by viscosity sensor, controlled at 1600 ± 50cP, if the viscosity of spinning liquid is more than more than 1650cP, viscosity monitoring system will supplement appropriate solvent in storage tank 210 according to program setting, the solvent supplemented will be uniformly dispersed fast by agitator 270, make the temperature of spinning liquid and viscosity stabilization within rational scope, and guarantee the stability of spinning state and the uniformity of fiber size, spinning runs continually and steadily more than 24h, parallel-adder settle-out time can be longer.

The standard be made up of stock chest, storage tank, conveying pipeline and measuring pump described in the utility model closes feed circuit, effectively can suppress the quick volatilization of solvent in spinning liquid, solve spinning liquid concentration and viscosity B coefficent problem that the solvent evaporates in spinning process in spinning liquid causes, achieve the long-time continuous feed of spinning liquid simultaneously.

Logical thermostatical circulating water in thermostat A and thermostat B, can ensure that the viscosity of spinning liquid in spinning process is not by the impact of ambient temperature, the viscosity change influenced by ambient temperature solving spinning liquid causes the ropy problem of spinning state labile, nanofiber greatly.

Discoid spinning nozzle of the present utility model is a kind of assembly with assembling for convenience detach, can by regulating the diameter of the silk thread forming spiral ring the external diameter of spiral the pitch P of spiral and the space D 1 of spinning nozzle, realize the control to the carrier fluid amount of spinning nozzle and the critical voltage of spinning, effectively can improve efficiency and the processing safety of spinning.

In addition; the detachable ring-type spinning nozzle of the utility model makes simple, convenient disassembly, is easy to cleaning, manufacture and maintenance cost low, solve stifled pin, dropping liquid, syringe needle disassembly, cleaning difficulty; improve practicality and the production efficiency of equipment, be conducive to applying of large-scale production.

The needle-free electrospinning device that the utility model provides, the main building block spiral ring of spinning nozzle instead of syringe needle, solves the electric field repulsion between the stifled pin of pin type spinning nozzle, syringe needle and the low problem of spinning efficiency; Accurate closed feed circuit restrained effectively the solvent evaporates in spinning process in stock chest, and the thermostat of stock chest and storage tank avoids the viscosity of sludge that variation of ambient temperature causes to be changed; Spinning nozzle structure is simple, separate removable, is easy to split, combine and cleaning; solve the inconvenience such as the handling of a large amount of spinning syringe needle and cleaning, reduce and safeguard and maintenance cost, improve spinning efficiency; be convenient to large-scale production, the needs of practical application can be met well.

The above embodiment only have expressed embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (9)

1. a needle-free electrospinning device, it is characterized in that, comprise spinning box (100), feeding system (200), receive electrode (300), high voltage source (400) and drive system (500), wherein:

Described feeding system (200) is connected with described spinning box (100);

Described reception is positioned at the top of described spinning box (100) to electrode (300), and ground connection;

The positive electrode of described high voltage source (400) is connected with described spinning box (100), its negative electrode ground connection;

Described drive system (500) is arranged on one end of described spinning box (100).

2. needle-free electrospinning device according to claim 1, it is characterized in that, described spinning box (100) comprises spinning nozzle (110), power transmission shaft (120), stock chest (130), backflow scraper plate (140), thermostat A (150), seal cover (160) and electrode terminal (180), wherein:

Described spinning box (100) is double-jacket body structure, and internal layer is the described stock chest (130) of arc, and skin is the described thermostat A (150) of cuboid;

The main body of described power transmission shaft (120) is arranged in described stock chest (130), described power transmission shaft (120) is through described spinning nozzle (110), described stock chest (130) and described thermostat A (150) are stretched out outward in two ends, and wherein one end connects described drive system (500);

Described electrode terminal (180) is fixed on the bottom of described stock chest (130) through described thermostat A (150) and described stock chest (130), and is connected with the positive electrode of described high voltage source (400);

Described backflow scraper plate (140) is fixed on described stock chest (130), and described spinning nozzle (110) inserts in groove that described backflow scraper plate (140) is offered rotationally;

Described seal cover (160) covers on the top of described spinning nozzle (110).

3. needle-free electrospinning device according to claim 2, is characterized in that, described spinning nozzle (110) is discoid assembly, comprises circular supporting disk (111) and spiral ring (112), wherein:

Described supporting disk (111) is positioned at the center of described spinning nozzle (110);

Described spiral ring (112) is positioned at the outer rim of described supporting disk (111);

Connected mode between described supporting disk (111) with described spiral ring (112) be nested encryptions or impermanency weld or electric conductivity bonding;

The diameter of described supporting disk (111) is 20mm-1000mm.

4. needle-free electrospinning device according to claim 3, is characterized in that, the diameter of described supporting disk (111) is preferably 50mm-200mm.

5. needle-free electrospinning device according to claim 3, it is characterized in that, described spiral ring (112) is by an end to end closed helical circulus formed of the uniform silk thread of size, forms the diameter of the described silk thread of described spiral ring (112) for 0.1mm-5mm; The outside dimension of described spiral ring (112) is the pitch (P) of described spiral ring (112) is

6. needle-free electrospinning device according to claim 5, is characterized in that, forms the diameter of the silk thread of described spiral ring (112) be preferably 0.3mm-2mm; The outside dimension of described spiral ring (112) is preferably the pitch (P) of described spiral ring (112) is preferably

7. needle-free electrospinning device according to claim 2, it is characterized in that, the number of described spinning nozzle (110) is 1-100, described spinning nozzle (110) is arranged in parallel along the axis of power transmission shaft (120), when the number of described spinning nozzle (110) is greater than 1, the spacing (D1) of described spinning nozzle is 5-30cm.

8. needle-free electrospinning device according to claim 2, it is characterized in that, described backflow scraper plate (140) is tabular, clearance groove (141) is offered from the centre of its one end, the other end is binding end (143), the both sides of described clearance groove (141) form two wing plates (142), described two wing plates (142) are combined as a whole at described binding end (143), form the prong like that described two wing plates (142) are parallel.

9. needle-free electrospinning device according to claim 2, is characterized in that, described seal cover (160) is detachable, and the position corresponding to described spinning nozzle (110) offers spinneret orifice (161).