CN103448096B - High-voltage electron beam ventilation leather micropore processing system - Google Patents
High-voltage electron beam ventilation leather micropore processing system Download PDFInfo
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- CN103448096B CN103448096B CN201310378900.5A CN201310378900A CN103448096B CN 103448096 B CN103448096 B CN 103448096B CN 201310378900 A CN201310378900 A CN 201310378900A CN 103448096 B CN103448096 B CN 103448096B
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Abstract
The invention relates to a high-voltage electron beam ventilation leather micropore processing system, which comprises a main frame body, a first variable-frequency adjustable positive and reverse recoiling device, a second variable-frequency adjustable positive and reverse recoiling device, a left side fixing platform, a right side fixing platform, a first guide wheel, a second guide wheel, a third guide wheel, a fourth guide wheel, a main traction device, a workpiece, a left side micropore processing device, a right side micropore processing device, a left side slideable reference platform, a right side slideable reference platform and an electric appliance cabinet. The high-voltage electron beam ventilation leather micropore processing system has the beneficial effects that the processing system can directly act the electricity energy onto a load after converting the electricity energy in a special mode or measure, the efficiency is higher than that of other modes such as laser perforation, meanwhile, dense and tiny small holes are perforated in leather, plastic films and the like with wide width and large area by the processing system so that the leather and films of plastics and the like have the ventilation characteristics of real leather, in addition, the structure is simple, the work is stable and reliable, wearing parts are few, and the operation cost and the maintenance cost are low.
Description
Technical field
The present invention relates to electromechanical integration technology area, particularly a kind of high-pressure electronic bundle ventilating leather microcellular processing systems.
Background technology
Leather, non-woven fabrics, plastic film and other material, due to its airtight air-locked characteristic, are very restricted in the application of rag trade, shoe industry etc.If large-area for wide cut leather, plastic sheeting etc. can be stamped dense and fine aperture, make it have airing function, then the film such as leather (as super fine leather), plastics is just provided with the ventilating performance of corium, just can be widely used in the industry such as clothes, shoemaking, greatly increase the use value of the thin-film material such as leather, plastics.There are its equipment cost of laser drilling, operating cost, consumables cost high, working (finishing) area is little, and on flow production line, laser equipment fault rate is high, and the technical requirement of attendant is high, maintenance is complicated and maintenance cost is high, and very difficult large-batch industrial is applied.Therefore, inquire into and wide cut large area leather, plastics etc. are carried out to the technology of micropore punching and produce and can reuse for a long time, on streamline, working stability is reliable, and few easy workout part, operating cost and maintenance cost are low, and equipment environment not being produced to any pollution is necessary.
Application number be 200920270402.8 patent document disclose a kind of Electron beam micropore machining device, comprise base 1, frame 13, platform 4, workpiece directive wheel 2, two adjustable positive and negative rewinding units 3 of frequency conversion, guide rail 5, slidably standard station 6, arc-spark stand 7, electrode 8, wire 9, pulsed electron beam generator 11, workpiece balance device 12, eccentric wheel apparatus 14 and connecting rod 15, frame 13 is fixed on base 1, two adjustable positive and negative rewinding units 3 of frequency conversion are placed in the both sides of frame 13 respectively, workpiece directive wheel 2 is placed on four angles of frame 13, and workpiece balance device 12 is placed in the top of frame 13, and platform 4 is fixed in frame 13, guide rail 5 is fixed on the side of platform 4, slidably standard station 6 is placed on guide rail 5, and arc-spark stand 7 is placed in slidably on standard station 6, frame 13, platform 4, guide rail 5, slidably the center of standard station 6 and arc-spark stand 7 respectively has slit, processed workpiece 8 is exported from the adjustable positive and negative rewinding unit 3 of the frequency conversion of frame side by workpiece directive wheel 2, pass through two locating wheels of each slit and workpiece balance device 3 successively, be transported on the adjustable positive and negative rewinding unit 3 of frequency conversion of frame opposite side, electrode 8 is just, negative configuration in pairs, just, two row's electrodes 8 of negative configuration are in pairs placed in the both sides of slit on arc-spark stand 7, just, negative electrode is connected with pulsed electron beam generator 11 respectively by wire 9.Eccentric wheel apparatus 14 is placed on platform, is linked by connecting rod 15 and guide rail 5.
Summary of the invention
In order to overcome deficiency of the prior art, the object of the invention is to propose high-pressure electronic bundle ventilating leather microcellular processing systems, high voltage pulse electronics bundle is utilized to penetrate leather, plastic sheeting, make leather, ventilating performance that plastic sheeting has corium, under the effect of the constant rewinding unit of walking speed, leather, plastic sheeting are processed continuously, reach the object large-area for wide cut leather, plastic sheeting being stamped dense and fine aperture.
The present invention is achieved through the following technical solutions:
High-pressure electronic bundle ventilating leather microcellular processing systems, comprise main frame body, the adjustable positive and negative rewinding unit of first frequency conversion, the adjustable positive and negative rewinding unit of second frequency conversion, left side fixed platform, right side fixed platform, first directive wheel, second directive wheel, 3rd directive wheel, 4th directive wheel, main draw-gear, workpiece, left side micropore processing device, right side micropore processing device, left side slidably reference platform, right side slidably reference platform, Electric Appliance Cabinet, described main frame body is located in the middle of the adjustable positive and negative rewinding unit of described first frequency conversion and the adjustable positive and negative rewinding unit of the second frequency conversion, the inner left and right sides of described main frame body is respectively equipped with described left side fixed platform and right side fixed platform, described left side fixed platform and right side fixed platform are provided with can by the slit of described workpiece, and fixed platform upper and lower both sides in left side are provided with the second directive wheel successively, first directive wheel, the upper and lower both sides of fixed platform, described right side are provided with the 3rd directive wheel successively, 4th directive wheel, described left side fixed platform and right side fixed platform are respectively equipped with left side slidably reference platform, right side slidably reference platform, described left side slidably reference platform and right side slidably reference platform be respectively equipped with left side micropore processing device and right side micropore processing device, described main frame body center upper portion is provided with main draw-gear, described workpiece twists on the rotating shaft of the adjustable positive and negative rewinding unit of described first frequency conversion and the rotating shaft of the adjustable positive and negative rewinding unit of the second frequency conversion, described left side slidably reference platform, right side slidably reference platform be connected with described Electric Appliance Cabinet respectively.
Described left side fixed platform, right side fixed platform can the one-sided installation in side left side slidably reference platform or right side slidably reference platforms arbitrarily; Described left side fixed platform, the fixed platform left and right sides, right side can install left side slidably reference platform and right side slidably reference platform simultaneously.Described workpiece is unreeled successively by the first directive wheel, left side fixed platform, left side slidably reference platform, left side micropore processing device, the second directive wheel, main draw-gear, the 3rd directive wheel, right side micropore processing device, right side slidably reference platform, right side fixed platform, the 4th directive wheel automatically by the adjustable positive and negative rewinding unit of the first frequency conversion, and described workpiece finally twists on the rotating shaft of the adjustable positive and negative rewinding unit of described second frequency conversion; Otherwise, described workpiece by the rotating shaft of the adjustable positive and negative rewinding unit of the second frequency conversion successively inverted sequence rolled up on the rotating shaft of the adjustable positive and negative rewinding unit of the first frequency conversion by various piece described in main frame body.
Preferably, described main draw-gear comprises main traction wheel, automatic hydraulic lifting device, motor, and described main traction wheel, automatic hydraulic lifting device, motor connect successively.
Preferably, described left side micropore processing device and right side micropore processing device include compound electrode and pulsed electron beam generating means, and described pulsed electron beam generating means is connected with compound electrode by wire.
Described compound electrode is made up of electrode group, electrode tip holder and wire, described electrode tip holder quantity is two pieces or polylith and position is oppositely arranged, described electrode group is made up of electrode, described electrode is made up of positive and negative two electrodes, and described electrode is arranged on described electrode tip holder respectively, wherein, the electrode of same electrode group is connected by wire, and the quantity of described electrode is at least one pair.
It is in one line between two parties that described Electric Appliance Cabinet is positioned at main frame body end face, described Electric Appliance Cabinet is connected by different cable from described main frame body, the first adjustable positive and negative rewinding unit and the adjustable positive and negative rewinding unit of the second frequency conversion, and described Electric Appliance Cabinet comprises voltage-stabilized power supply, electric machine control system, central control system, micropore processing device unit control system, rewinding weave control system, transformer.Described central control system and be also connected with voltage-stabilized power supply between micropore processing device unit control system and externally fed net.
Described pulsed electron beam generating means comprises pulse signal generator and high voltage pulse electronics beam generator, and described high voltage pulse electronics beam generator is connected with pulse signal generator.
Preferably, described left side slidably reference platform and right side slidably reference platform include reference platform, linear guides, linear slide block, motor, gearbox, crank, connecting rod, in described main frame body, left side fixed platform and right side fixed platform are provided with linear guides, described linear guides is furnished with linear slide block, described linear slide block and reference platform are fixed as one, and described reference platform is provided with compound electrode; Described main frame body is provided with motor, and described motor connects gearbox, and described gearbox is provided with crank, and described crank is connected with connecting rod, and described connecting rod is connected with reference platform, and described Electric Machines and Electric Apparatus cabinet connects.
Preferably, described electrode is cylindric, and diameter is between 0.3-3mm, and length is cm between 0.5-10.
Preferably, the line of described second directive wheel high order end and the first directive wheel low order end is perpendicular to described left side slidably reference platform, and the line of described 3rd directive wheel low order end and the 4th directive wheel high order end is perpendicular to described right side slidably reference platform.
Preferably, described pulsed electron beam generating means connects pulsed electron beam controller.
Preferably, described compound electrode is row's needle-like compound electrode.
Preferably, the adjustable positive and negative rewinding unit of described first frequency conversion and the adjustable positive and negative rewinding unit of the second frequency conversion are provided with automatic deviation rectifying device.
Preferably, the adjustable positive and negative rewinding unit of described first frequency conversion, the adjustable positive and negative rewinding unit of the second frequency conversion, main draw-gear, left side slidably reference platform and right side slidably reference platform be equipped with frequency converter, described frequency converter is connected with motor.
Preferably, the adjustable positive and negative rewinding unit of described first frequency conversion, the adjustable positive and negative rewinding unit of the second frequency conversion, main draw-gear, left side slidably reference platform and right side slidably reference platform be connected with rewinding weave control system.
Preferably, described high-pressure electronic bundle ventilating leather microcellular processing systems is provided with emergent stop device.
Preferably, described rewinding weave control system is also connected with transformer.
When described high-pressure electronic bundle ventilating leather microcellular processing systems duty reaches stable, the leather of 1.4 millimeters thick can be penetrated, the operating frequency of described pulsed electron beam can be adjustable within the scope of 0.2-20.0kHz, and workpiece walking speed to be processed is steady, and its width is determined according to actual needs.
Compared with prior art, the superior effect of high-pressure electronic bundle ventilating leather microcellular processing systems of the present invention is: described system of processing directly acts on load after being changed by particular form and means by electric energy, as higher in laser boring efficiency than other modes, large-area for wide cut leather, plastic sheeting etc. are stamped dense and fine aperture by described system of processing simultaneously, the film such as leather, plastics is made to have the ventilating performance of corium, and structure is simple, working stability reliable, few easy workout part, operating cost and maintenance cost are low.
Accompanying drawing explanation
Fig. 1 is high-pressure electronic bundle ventilating leather microcellular processing systems master control schematic block circuit diagram of the present invention;
Fig. 2 is high-pressure electronic bundle ventilating leather microcellular processing systems element circuit theory diagram of the present invention;
Fig. 3 is high-pressure electronic bundle ventilating leather microcellular processing systems front view of the present invention;
Fig. 4 is high-pressure electronic bundle ventilating leather microcellular processing systems right view of the present invention;
Fig. 5 is high-pressure electronic bundle ventilating leather microcellular processing systems combined electrode structure schematic diagram of the present invention.
Description of reference numerals is as follows:
1-main frame body, 11-first frequency conversion is adjustable positive and negative rewinding unit, 111-frequency converter, 12-second frequency conversion is adjustable positive and negative rewinding unit, fixed platform on the left of 13-, 131-first directive wheel, 132-second directive wheel, 133-the 3rd directive wheel, 134-the 4th directive wheel, the main draw-gear of 135-, fixed platform on the right side of 14-, slidably reference platform on the left of 15-, slidably reference platform on the right side of 16-, 161-reference platform, 162-linear guides, 163-linear slide block, 164-connecting rod, 165-crank, 166-gearbox, 167-motor, micropore processing device on the left of 17-, micropore processing device on the right side of 18-, 181-compound electrode, 1811-electrode, 1812-electrode group, 1813-pedestal, 1814-wire, 182-pulsed electron beam generating means, 1821-pulse signal generator, 1822-high voltage pulse electronics beam generator, 19-workpiece, 2-Electric Appliance Cabinet, 21-voltage-stabilized power supply, 22-central control system, 23-micropore processing device unit control system, 24-rewinding weave control system, 25-transformer.
Detailed description of the invention
Below in conjunction with accompanying drawing, the specific embodiment of the invention is described in further detail.
As Figure 1-5, high-pressure electronic bundle ventilating leather microcellular processing systems, comprises main frame body 1, the adjustable positive and negative rewinding unit 11 of first frequency conversion, the adjustable positive and negative rewinding unit 12 of second frequency conversion, left side fixed platform 13, first directive wheel 131, second directive wheel 132, 3rd directive wheel 133, 4th directive wheel 134, main draw-gear 135, right side fixed platform 14, left side slidably reference platform 15, right side slidably reference platform 16, left side micropore processing device 17, right side micropore processing device 18, workpiece 19, Electric Appliance Cabinet 2, described main frame body 1 is located in the middle of the adjustable positive and negative rewinding unit 11 of described first frequency conversion and the adjustable positive and negative rewinding unit 12 of the second frequency conversion, the described inner left and right sides of main frame body 1 is respectively equipped with left side fixed platform 13 and right side fixed platform 14, described left side fixed platform 13 and right side fixed platform 14 are provided with can by the slit of described workpiece 19, and left side fixed platform about 13 both sides are provided with the second directive wheel 132 successively, first directive wheel 131, fixed platform about 14 both sides, described right side are provided with the 3rd directive wheel 133 successively, 4th directive wheel 134, described left side fixed platform 13 and right side fixed platform 14 are respectively equipped with left side slidably reference platform 15, right side slidably reference platform 16, described left side slidably reference platform 15 and right side slidably reference platform 16 be respectively equipped with left side micropore processing device 17 and right side micropore processing device 18, described main frame body 1 center upper portion is provided with main draw-gear 135, described workpiece 19 twists on the rotating shaft (not shown) of the adjustable positive and negative rewinding unit 11 of described first frequency conversion and the rotating shaft (not shown) of the adjustable positive and negative rewinding unit 12 of the second frequency conversion, described left side slidably reference platform 15, right side slidably reference platform 16 be connected with described Electric Appliance Cabinet 2 respectively.
Described left side fixed platform 13, right side fixed platform 14 be one-sided installation left side, side slidably reference platform 15 or right side slidably reference platform 16 arbitrarily; Described left side fixed platform 13, right side fixed platform 14 install left side slidably reference platform 15 and right side slidably reference platform 16 simultaneously.Described workpiece 19 is unreeled successively by the first directive wheel 131, left side fixed platform 13, left side slidably reference platform 15, left side micropore processing device 17, second directive wheel 132, main draw-gear 135, the 3rd directive wheel 133, right side micropore processing device 18, right side slidably reference platform 16, right side fixed platform 14, the 4th directive wheel 134 automatically by the adjustable positive and negative rewinding unit 11 of the first frequency conversion, and described workpiece 19 finally twists on the rotating shaft (not shown) of the adjustable positive and negative rewinding unit 12 of described second frequency conversion; Otherwise, described workpiece 19 also can by the rotating shaft of the adjustable positive and negative rewinding unit 12 of the second frequency conversion successively inverted sequence rolled up on the rotating shaft of the adjustable positive and negative rewinding unit 11 of the first frequency conversion by various piece described on main frame body 1.
Described main draw-gear 135 comprises main traction wheel (not shown), automatic hydraulic lifting device (not shown), motor (not shown), and described main traction wheel, automatic hydraulic lifting device, motor connect successively.
Described left side micropore processing device 17 and right side micropore processing device 18 include compound electrode 181 and pulsed electron beam generating means 182, and described pulsed electron beam generating means 182 is connected with compound electrode 181 by wire (not shown).
Described compound electrode 181 is made up of electrode group 1812, electrode tip holder 1813 and wire 1814, described electrode tip holder 1813 quantity is two pieces or polylith and position is oppositely arranged, described electrode group 1812 is made up of electrode 1811, described electrode 1811 is made up of positive and negative electrode, and described electrode 1811 is arranged on described electrode tip holder 1813 respectively, wherein, the electrode 1811 of same electrode group 1812 is connected by wire 1814, and the quantity of described electrode 1811 is at least one pair; Described pulsed electron beam generating means 182 comprises pulse signal generator 1821 and high voltage pulse electronics beam generator 1822, and described high voltage pulse electronics beam generator 1822 is connected with pulse signal generator 1821.
Described left side slidably reference platform 15 and right side slidably reference platform 16 include reference platform 161, linear guides 162, linear slide block 163, motor 167, gearbox 166, crank 165, connecting rod 164, in described main frame body, left side fixed platform 13 and right side fixed platform 14 are provided with linear guides 162, and described linear guides 162 is provided with linear slide block 163; Described linear slide block 163 is provided with reference platform 16, described main frame body 1 is provided with motor 167, described motor 167 connects gearbox 166, described gearbox 166 is provided with crank 165, described crank 165 is connected with connecting rod 164, described connecting rod 164 is connected with reference platform 16, and described motor 167 is connected with Electric Appliance Cabinet 2.
Described electrode 1811 is in cylindric, diameter is between 0.3-3mm, and length is cm between 0.5-10, and the material of described electrode 1811 is tungsten, nickel or molybdenum, the material of described electrode 1811 also can adopt tungsten-copper alloy, W-REO alloys, as materials such as cerium tungsten alloy, lanthanum tungsten alloys.
The line of described second directive wheel 132 high order end and the first directive wheel 131 low order end is perpendicular to described left side slidably reference platform 15, and the line of described 3rd directive wheel 133 low order end and the 4th directive wheel 134 high order end is perpendicular to described right side slidably reference platform 16.
Described pulsed electron beam generating means 182 connects pulsed electron beam controller (not shown), and described pulsed electron beam controller is for controlling the duty of described pulsed electron beam generating means 182.
Described compound electrode 181 is row's needle-like compound electrodes.
The adjustable positive and negative rewinding unit 12 of described first frequency conversion adjustable positive and negative rewinding unit 11, second frequency conversion, main draw-gear 135, left side slidably reference platform 15 and right side slidably reference platform 16 be provided with frequency converter 111, described frequency converter 111 is connected with motor 167.The adjustable positive and negative rewinding unit 11 of described first frequency conversion and the adjustable positive and negative rewinding unit 12 of the second frequency conversion, main draw-gear 135, left side slidably reference platform 15 and right side slidably reference platform 16 be connected with rewinding weave control system 24.Described rewinding weave control system 24 is also connected with transformer 25.
Described central control system 22 and be also connected with voltage-stabilized power supply 21 between micropore processing device unit control system 23 and externally fed net.
Described Electric Appliance Cabinet 2 for described pulsed electron beam generating means 182, left side slidably reference platform 15, right side slidably the adjustable positive and negative rewinding unit 12 of reference platform 16, first frequency conversion adjustable positive and negative rewinding unit 11, second frequency conversion, main draw-gear 135, left side slidably reference platform 15 and right side slidably reference platform 16 power supply and condition of work are provided.
Described pulsed electron beam controller provides control signal for pulsed electron beam generating means 182, described pulsed electron beam generating means 182 produces the electric pulse of high-voltage large current, described left side slidably reference platform 15 and right side slidably reference platform 16 compound electrode 181 is swung back and forth, by the translation of described workpiece 19 and the swing of described compound electrode 181, described electric pulse discharges perforation on workpiece 19.When can meet density needs for many rows many groups compound electrode, described left side slidably reference platform 15 and right side slidably reference platform 16 determine motion state according to the actual requirements.
The voltage that described pulsed electron beam generating means 182 produces is not less than 60,000 volts, its pulse frequency is 200-20000 time/second, described compound electrode 181 is row's needle-like compound electrode, every mining 1-72 root swingable 0-90 millimeter vertical with workpiece 19 direction of motion, fabric width is maximum is not less than 1.50 meters in processing.
The operation principle of high-pressure electronic bundle ventilating leather microcellular processing systems of the present invention is: be rolled onto by described workpiece 19 on the adjustable positive and negative rewinding unit 11 of first frequency conversion and the adjustable positive and negative rewinding unit 12 of the second frequency conversion, described rewinding weave control system 24 controls the adjustable positive and negative rewinding unit 11 of the first frequency conversion and the adjustable positive and negative rewinding unit 12 of the second frequency conversion rotates, and described workpiece 19 works under the drive of described main draw-gear 135; Described compound electrode 181 works at the drive lower swing of motor 167, thus increases the range of work.Described pulsed electron beam generating means 182 produces high-voltage pulse, is formed the aperture gathered by discharge breakdown workpiece 19.
In microcellular processing systems of the present invention, the input power of the adjustable positive and negative rewinding unit 12 of the first frequency conversion adjustable positive and negative rewinding unit 11, second frequency conversion, left side slidably reference platform 15, right side slidably reference platform 16, pulsed electron beam generating means 182 comes from 380V high voltage Electric Appliance Cabinet and 220V low-voltage Electric Appliance Cabinet.High-pressure electronic bundle ventilating leather microcellular processing systems of the present invention is made into dissimilar Electric Appliance Cabinet 2 according to actual conditions.
High-pressure electronic bundle ventilating leather microcellular processing systems of the present invention is provided with emergent stop device (not shown), when described microcellular processing systems runs, run into special circumstances and directly can press " emergent stop device " key, slidably slidably reference platform 16, pulsed electron beam generating means 182 all quit work reference platform 15, right side for the adjustable positive and negative rewinding unit 12 of described first frequency conversion adjustable positive and negative rewinding unit 11, second frequency conversion, left side; When again opening, the adjustable positive and negative rewinding unit 12 of first frequency conversion adjustable positive and negative rewinding unit 11, second frequency conversion, left side slidably reference platform 15, right side slidably reference platform 16 automatically resume work, and pulsed electron beam generating means 182 needs to be undertaken by boot program.In normal boot-strap process, high-tension electricity is had not allow in any case, with hand touching, to cause danger with protection against electric shock.High-pressure electronic bundle ventilating leather microcellular processing systems of the present invention determines the quantity of micropore processing device unit control system 23, compound electrode 181 according to actual conditions.
When described high-pressure electronic bundle ventilating leather microcellular processing systems duty reaches stable, the leather of 1.4 millimeters thick can be penetrated, the operating frequency of described pulsed electron beam generating means 182 is adjustable within the scope of 0.2-20.0kHz, and described workpiece 19 walking speed is steady, and its width is determined according to actual needs.Large-area for wide cut workpiece 19 such as leather, plastic sheeting etc. are stamped dense and fine aperture by high-pressure electronic bundle ventilating leather microcellular processing systems of the present invention, the film such as leather, plastics is made to have the ventilating performance of corium, and structure is simple, working stability reliable, few easy workout part, operating cost and maintenance cost are low.
The present invention is not limited to above-mentioned embodiment, and when not deviating from flesh and blood of the present invention, any distortion that it may occur to persons skilled in the art that, improvement, replacement all fall into scope of the present invention.
Claims (9)
1. high-pressure electronic bundle ventilating leather microcellular processing systems, it is characterized in that, comprise main frame body, the adjustable positive and negative rewinding unit of first frequency conversion, the adjustable positive and negative rewinding unit of second frequency conversion, left side fixed platform, right side fixed platform, first directive wheel, second directive wheel, 3rd directive wheel, 4th directive wheel, main draw-gear, workpiece, left side micropore processing device, right side micropore processing device, left side slidably reference platform, right side slidably reference platform, Electric Appliance Cabinet, described main frame body is located in the middle of the adjustable positive and negative rewinding unit of described first frequency conversion and the adjustable positive and negative rewinding unit of the second frequency conversion, the inner left and right sides of described main frame body is respectively equipped with left side fixed platform and right side fixed platform, described left side fixed platform and described right side fixed platform are provided with can by the slit of described workpiece, and fixed platform upper and lower both sides in left side are provided with the second directive wheel successively, first directive wheel, the upper and lower both sides of fixed platform, described right side are provided with the 3rd directive wheel successively, 4th directive wheel, described left side fixed platform is provided with left side slidably reference platform, described right side fixed platform is provided with right side slidably reference platform, described left side slidably reference platform is provided with left side micropore processing device, described right side slidably reference platform is provided with right side micropore processing device, described main frame body center upper portion is provided with main draw-gear, described workpiece twists on the rotating shaft of the adjustable positive and negative rewinding unit of described first frequency conversion and the rotating shaft of the adjustable positive and negative rewinding unit of the second frequency conversion, described left side slidably reference platform, right side slidably reference platform is connected with described Electric Appliance Cabinet respectively,
Described main draw-gear comprises main traction wheel, automatic hydraulic lifting device, motor, and described main traction wheel, automatic hydraulic lifting device, motor connect successively;
Described left side slidably reference platform and right side slidably reference platform include reference platform, linear guides, linear slide block, motor, gearbox, crank, connecting rod, in described main frame body, the fixed platform on left side fixed platform and right side is provided with linear guides, described linear guides is provided with linear slide block, described linear slide block arranges reference platform, and described reference platform is provided with compound electrode; Described main frame body outside is provided with motor, and described motor connects gearbox, and described gearbox is provided with crank, and described crank is connected with connecting rod.
2. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 1, it is characterized in that, described left side micropore processing device and right side micropore processing device include compound electrode and pulsed electron beam generating means, and described pulsed electron beam generating means is connected with compound electrode by wire;
Described compound electrode is made up of electrode group, electrode tip holder and wire, described electrode tip holder quantity is two pieces or polylith and position is oppositely arranged, described electrode group is made up of electrode, described electrode is made up of positive and negative two electrodes, and described electrode is arranged on described electrode tip holder respectively, wherein, the electrode of same electrode group is connected by wire, and the quantity of described electrode is at least one pair;
Described pulsed electron beam generating means comprises pulse signal generator and high voltage pulse electronics beam generator, and described high voltage pulse electronics beam generator is connected with pulse signal generator.
3. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 2, it is characterized in that, described electrode is cylindric, and diameter is between 0.3-3mm, and length is between 0.5-10cm.
4. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 1, it is characterized in that, the line of described second directive wheel high order end and the first directive wheel low order end is perpendicular to described left side slidably reference platform, and the line of described 3rd directive wheel low order end and the 4th directive wheel high order end is perpendicular to described right side slidably reference platform.
5. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 2, is characterized in that, described pulsed electron beam generating means connects pulsed electron beam controller.
6. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 2, is characterized in that, described compound electrode is row's needle-like compound electrode.
7. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 1, is characterized in that, the adjustable positive and negative rewinding unit of described first frequency conversion and the adjustable positive and negative rewinding unit of the second frequency conversion are provided with automatic deviation rectifying device.
8. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 1, it is characterized in that, the adjustable positive and negative rewinding unit of described first frequency conversion, the adjustable positive and negative rewinding unit of the second frequency conversion, main draw-gear, left side slidably reference platform and right side slidably reference platform be equipped with frequency converter.
9. high-pressure electronic bundle ventilating leather microcellular processing systems according to claim 1, it is characterized in that, the adjustable positive and negative rewinding unit of described first frequency conversion, the adjustable positive and negative rewinding unit of the second frequency conversion, main draw-gear, left side slidably reference platform and right side slidably reference platform be connected with rewinding weave control system.
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