CN105599429A - Turning type magnetic transmission device, screen printing system therein and application method of turning type magnetic transmission device - Google Patents

Abstract

The invention discloses a turning type magnetic transmission device. A turning type driving device arranged below an active semi-cambered-surface in an inner arc-shaped table top of the turning type magnetic transmission device comprises a Z-shaped sub-frame, a gear transmission mechanism and an L-shaped sub-frame, the inner end of a transverse rotating support and the inner end of a vertical rotating support in the L-shaped sub-frame are connected in a perpendicular mode at the top of a rotating shaft, the bottom of the rotating shaft is connected with a horizontal driving mechanism sequentially through the gear transmission mechanism and the Z-shaped sub-frame, and the outer end of the transverse rotating support and the outer end of the vertical rotating support are each connected with an electromagnetic coil and can be connected with a straight line table top on the arc-shaped table top so as to form an oval table top. In the using process, the horizontal driving mechanism is sequentially driven by the Z-shaped sub-frame, the gear transmission mechanism and the rotating shaft to perform transverse rotation and vertical rotation, and printing tables magnetically sucked to the supports perform 90-degree rotation. The design of the turning type magnetic transmission device is high in precesion, great in interoperability, low in noise, low in operation difficulty, great in controllability and high in work efficiency.

Description

Turning formula magnetic drive device, place screen printing system, and using method

Technical field

The present invention relates to a kind of screen printing device, relate in particular to a kind of turning formula magnetic drive device, place screen printing system, and using method, be specifically applicable to improve the accuracy of transmission, increases work efficiency.

Background technology

The feature of screen printing is to establish respectively a screen frame for each color pattern, be subject to the impact of design, because color and luster kind is more, the printing that completes a whole set of pattern must be joined multiple screen frames, this just requires a printing table need in orbital plane, experience the stamp of multiple stations, complex procedures, station is more, for increasing work efficiency, screen printing device is arranged to elliptic orbit or circuit orbit by prior art, circuit orbit drives simple, but station is fixed, can not arbitrarily add, elliptic orbit drives comparatively complicated, but station is flexible, can add station at straightway as required, but the transmission of elliptic orbit adopts the chain kind of drive more at present, each printing table is connected on chain and is driven, defect comprises: first, the flexibility of chain causes kind of drive precision not high, easily cause follow-up stamp incorrect, secondly, all platens are moved by a chain simultaneously, require the capacity of the motor dragging larger, limit its range of application, meanwhile, because all platens together move, the large inertia of quality of moving component is large, further improves platen movement velocity and just has difficulties, and operating efficiency is not high.

Chinese patent, publication number is CN101402277A, the application for a patent for invention that open day is on April 8th, 2009 discloses a kind of screen decorating machine, it comprises drives structure, the screen frame of conveyer belt, conveyer belt, described conveyer belt is rectangular annular, the drives structure of conveyer belt is chain, and chain engages with conveyer belt by its outside fastener connecting, and is connected location with plug-in mounting structure between screen frame and decorating machine bedplate. Although this design can reduce manufacturing cost, it still has following defect:

In this design, the kind of drive of conveyer belt is chain drive, and not only the flexibility of chain can cause the inaccuracy of transmission, easily reduces printing quality, and chain drive causes the quality of drive disk assembly very large, and energy consumption is high, inefficiency.

Summary of the invention

The defect that accuracy is lower, operating efficiency is lower and the problem that the object of the invention is to overcome the transmission existing in prior art, the turning formula magnetic drive device that provide a kind of accuracy of transmission higher, operating efficiency is higher, place screen printing system, and using method.

For realizing above object, technical solution of the present invention is: a kind of turning formula magnetic drive device, comprise the printing table of arc-shaped table board and upper setting thereof, described printing table is turned and is rolled along the end face of arc-shaped table board, and below arc-shaped table board, is provided with the turning formula drive unit of printing table;

Described arc-shaped table board comprises and interconnects active half cambered surface being structure as a whole, servo-actuated half cambered surface, the below of described active half cambered surface is provided with a turning formula drive unit, this turning formula drive unit comprises Z-shaped subrack, gear drive and L shaped subrack, described L shaped subrack comprises horizontal runing rest, rotating shaft and perpendicular runing rest, the end face of one end of horizontal runing rest is connected with horizontal rotating electromagnetic coil, the other end of horizontal runing rest is connected with one end of perpendicular runing rest is vertical, the end face of the other end of perpendicular runing rest is connected with perpendicular rotating electromagnetic coil, horizontal runing rest, the inwall of junction and the top of rotating shaft of perpendicular runing rest are fixedly connected with, the bottom of this rotating shaft coordinates with the upper level-end transmission of Z-shaped subrack through gear drive, the lower level-end of Z-shaped subrack is connected with horizontal drive mechanism,

The bottom of described arc-shaped table board is provided with the isolation cambered surface of same radian, the permanent magnet of horizontal rotating electromagnetic coil on isolation cambered surface printing table corresponding with it is just to arranging, and the permanent magnet of perpendicular rotating electromagnetic coil on isolation cambered surface printing table corresponding with it is just to arranging; Described printing table comprises platen, gripper shoe, permanent magnet and roller, and the middle part of the bottom surface of described platen is provided with gripper shoe, and the middle part of gripper shoe bottom surface is provided with permanent magnet, and the position that is positioned at permanent magnet both sides on gripper shoe bottom surface is provided with roller.

Described gear drive comprises gear wheel, No. two gear wheels, No. two gear shafts, No. three gear shafts and tooth bar, a described gear wheel is meshed with No. two gear shafts, No. two gear shaft coaxially arranges with No. two gear wheels that are positioned at directly over it, and No. two gear wheel is meshed with tooth bar through No. three gear shafts; The bottom surface of described tooth bar is slidably matched through tooth bar slide track seat and tooth bar slide rail, one end of tooth bar is connected with the upper level-end of Z-shaped subrack, the other end of tooth bar coordinates with the bottom transmission of rotating shaft successively after No. three gear shafts, No. two gear wheels, No. two gear shafts, a gear wheel, and the bottom of rotating shaft is positioned at the inside of a gear wheel.

Described turning formula magnetic drive device also comprises multiple printing tables of a straight line table top and upper setting, described printing table rolls along the end face of straight line table top, the below of straight line table top is provided with the orthoscopic drive unit of printing table, this orthoscopic drive unit comprises slide plate and multiple solenoid, line slideway, track base, supporting seat, the bottom of described solenoid is connected with the end face of slide plate, the bottom surface of slide plate is connected with the top of line slideway, the bottom of line slideway is slidably matched with the track base that is positioned at its below, the bottom of track base is connected with the seat base plate of the supporting seat of U-shaped structure, seat base plate two ends seat connected vertically side plate is connected with the straight line table top of the side of being located thereon, described solenoid evenly arranges along the end face of slide plate, supporting seat evenly arranges along the bottom surface of slide plate, the spacing of adjacent solenoid equals the length of a line slideway, the spacing of adjacent supporting seat equals the length of two line slideways, and directly over each supporting seat, be provided with a solenoid, and slide plate parallels with horizontal runing rest,

In described supporting seat, the first two supporting seat of nearly linear stage kept man of a noblewoman end is respectively last supporting seat, the first two supporting seat, a supporting seat of nearly straight line table top tail end is a rear supporting seat, described last supporting seat, directly over the first two supporting seat, be respectively arranged with last solenoid, first three solenoid, in last supporting seat, be provided with last track base to be slidably matched with last line slideway, the head end of last line slideway is mutually concordant with last track base, on the end face of the slide plate directly over the tail end of last line slideway, be connected with the first two solenoid, the head end of described slide plate is mutually concordant with last supporting seat, the tail end of slide plate successively through after a supporting seat, after straight line table top tail end, extend to the outside of straight line table top, an and solenoid after being connected with on the end face of the tail end of slide plate,

Described horizontal drive mechanism is the lower unsettled seat of U-shaped structure, it comprise lower unsettled base plate and with its two ends lower unsettled side plate connected vertically; The bottom surface of described lower unsettled base plate is connected with lower level-end, the bottom surface at end face position between the first two solenoid, first three solenoid after transition seat and on slide plate of lower unsettled base plate is connected, lower unsettled side plate respectively coordinates with the basal sliding of lower unsettled guide rail by unsettled track base under, and the top of lower unsettled guide rail is connected with straight line table top.

The quantity of printing table on described straight line table top, permanent magnet, solenoid is all ten, and the quantity of supporting seat on straight line table top, line slideway, track base is all five.

The quantity of described roller in a printing table is three, and wherein, two rollers are positioned at the same side of permanent magnet, and another roller is positioned at the opposite side of permanent magnet.

The screen printing system at a kind of above-mentioned turning formula magnetic drive device place, described screen printing system comprises two turning formula magnetic drive devices that structure is consistent, be respectively turning formula magnetic drive device No. one, No. two turning formula magnetic drive devices, servo-actuated half cambered surface in a turning formula magnetic drive device is connected with the tail end of No. two turning formula magnetic drive device cathetus table tops, servo-actuated half cambered surface in No. two turning formula magnetic drive devices is connected with the tail end of a turning formula magnetic drive device cathetus table top, a rear solenoid in a turning formula magnetic drive device be arranged in No. two turning formula magnetic drive devices servo-actuated half cambered surface under, a rear solenoid in No. two turning formula magnetic drive devices be arranged in a turning formula magnetic drive device servo-actuated half cambered surface under, an and turning formula magnetic drive device, two straight line table tops in No. two turning formula magnetic drive devices, two arc-shaped table boards form an occluded ellipse shape table top altogether.

A using method for above-mentioned turning formula magnetic drive device, described using method comprises the following steps:

First to horizontal rotating electromagnetic coil, perpendicular rotating electromagnetic coil electricity, solenoid after energising produces magnetic attraction to the permanent magnet on its corresponding printing table, drive lower level-end to move ahead by horizontal drive mechanism again, lower level-end is successively through upper level-end, gear drive, rotating shaft promotes horizontal runing rest, perpendicular runing rest rotation, the magnetic attraction of the horizontal runing rest of rotation between horizontal rotating electromagnetic coil and its corresponding permanent magnet drives the printing table on it to rotate along arc-shaped table board, the magnetic attraction of perpendicular runing rest between perpendicular rotating electromagnetic coil and its corresponding permanent magnet drives the printing table on it to rotate along arc-shaped table board, rotate after 90 degree, horizontal rotating electromagnetic coil, perpendicular rotating electromagnetic coil blackout is to shelve the printing table rotating to reposition, again by horizontal drive mechanism successively through lower level-end, upper level-end, gear drive, rotating shaft drives horizontal runing rest, perpendicular runing rest rotation return is to treat rotating operation next time, now, one time rotation process finishes, multiple rotation processes are circulated successively, be the using method of turning formula magnetic drive device.

A using method for above-mentioned screen printing system, described using method comprises the following steps:

First to a turning formula magnetic drive device, solenoid in No. two turning formula magnetic drive devices is all switched on, solenoid after energising produces suction to its corresponding permanent magnet, drive again a slide plate in turning formula magnetic drive device to move ahead, the slide plate moving ahead is through solenoid, magnetic attraction between permanent magnet drives the printing table on straight line table top middle slide plate to move ahead, in the process moving ahead, on slide plate, be positioned at the first two solenoid, position between first three solenoid drives lower unsettled seat along lower unsettled guide rail to front slide, the lower unsettled seat moving ahead is successively through Z-shaped subrack, gear drive promotes L shaped subrack and rotates counterclockwise, after rotation, the perpendicular corresponding printing table of rotating electromagnetic coil moves to the original position of the corresponding printing table of horizontal rotating electromagnetic coil, after the corresponding printing table of horizontal rotating electromagnetic coil moves in No. two turning formula magnetic drive devices a solenoid move ahead after left room, simultaneously, in No. two turning formula magnetic drive devices the corresponding printing table of horizontal rotating electromagnetic coil move to counterclockwise in a turning formula magnetic drive device after a solenoid move ahead after left room, again to all solenoid power-off, then drive slide plate return to treat moving ahead next time, now, once the process of moving ahead finishes, move ahead in process at this, a turning formula magnetic drive device, the method of operation of No. two turning formula magnetic drive devices is consistent, multiple processes that move ahead are circulated successively, be the using method of screen printing system.

Compared with prior art, beneficial effect of the present invention is:

1, the present invention's formula magnetic drive device of turning, place screen printing system, and in using method, in turning formula magnetic drive device, realize the turning of printing table on arc-shaped table board by the mutual cooperation of Z-shaped subrack, gear drive, L shaped subrack, its advantage comprises: first, L shaped subrack takes the magnetic attraction between solenoid, permanent magnet to drive printing table to turn on arc-shaped table board, vibrations and noise while having avoided the transmission of prior art middle guide, turn flexibly, frictional force is little; Secondly, gear drive, as the transmission bridge between Z-shaped subrack, L shaped subrack, is realized by the engagement between gear, tooth bar completely, and accuracy is very high, and accurate can guarantee the turning of stamp table top time is beneficial to carrying out smoothly of subsequent operation; Again, Z-shaped subrack, as the connection bridge of turning formula magnetic drive device, orthoscopic drive unit, connects as one the motion of printing table on straight line table top, arc-shaped table board, has improved collaborative and the accuracy of overall operation. Therefore, accuracy of the present invention is higher, and noise is less, and collaborative is stronger.

2, the present invention's formula magnetic drive device of turning, place screen printing system, and in using method, slide plate in orthoscopic drive unit drives printing table to roll and move ahead on straight line table top by the suction between solenoid, permanent magnet, each mobile distance equals the distance between adjacent electromagnetic coil, its advantage comprises: first, accuracy is very high, has overcome the coarse defect of transmission that in prior art, its flexible characteristic of chain drive causes; Secondly, saved between platen or platen, driving mechanism between a large amount of connectors, as connecting rod etc., not only simplified mechanism, reduced cost, and reduced frictional force and noise, saved energy consumption, improved operating efficiency. Therefore, the present invention not only accuracy is higher, and operating efficiency is higher.

3, the present invention's formula magnetic drive device of turning, place screen printing system, and in using method, two straight line table tops in two turning formula magnetic drive devices, two arc-shaped table boards are formed to an occluded ellipse shape table top altogether to form screen printing system, when use, only need on each straight line table top, give a driving force, not only disperse power, reduce operation easier, and shorten driving-chain, improve transmission efficiency and controllability, strengthened the collaborative between straight line table top, arc-shaped table board, thereby improved on the whole operating efficiency. Therefore, not only operation easier is lower in the present invention, controllability is stronger, and collaborative is strong, operating efficiency is higher.

Brief description of the drawings

Fig. 1 is top view of the present invention.

Fig. 2 is the upward view of Fig. 1.

Fig. 3 is the perspective view of Z-shaped subrack, gear drive, L shaped subrack in Fig. 1

Fig. 4 is the perspective view after Fig. 3 dextrorotation turnback.

Top view when Fig. 5 is cathetus table top of the present invention, arc-shaped table board connection.

Fig. 6 is the upward view of Fig. 5.

Fig. 7 is the enlarged diagram at N place in Fig. 6.

Fig. 8 is the top view of cathetus table top of the present invention.

Fig. 9 is the upward view of Fig. 8.

Figure 10 is the structural representation of Fig. 9 cathetus formula drive unit.

Figure 11 is the enlarged diagram at M place in Figure 10.

Figure 12 is the top view of screen printing system in the present invention.

Figure 13 is the upward view of Figure 12.

Figure 14 is the cooperation schematic diagram of the printing table that in Figure 10, solenoid is corresponding with it.

In figure: straight line table top 1, printing table 2, platen 21, gripper shoe 22, permanent magnet 23, roller 24, orthoscopic drive unit 3, slide plate 31, solenoid 32, last solenoid 321, the first two solenoid 322, first three solenoid 323, a rear solenoid 324, line slideway 33, last line slideway 331, track base 34, last track base 341, supporting seat 35, seat base plate 351, seat side plate 352, last supporting seat 353, the first two supporting seat 354, a rear supporting seat 355, arc-shaped table board 4, initiatively half cambered surface 41, servo-actuated half cambered surface 42, isolation cambered surface 43, Z-shaped subrack 5, upper level-end 51, lower level-end 52, gear drive 6, a gear wheel 61, No. two gear wheels 62, No. two gear shafts 63, No. three gear shafts 64, tooth bar 65, tooth bar slide track seat 651, tooth bar slide rail 652, L shaped subrack 7, horizontal runing rest 71, horizontal rotating electromagnetic coil 711, rotating shaft 72, perpendicular runing rest 73, perpendicular rotating electromagnetic coil 731, lower unsettled seat 8, lower unsettled base plate 81, lower unsettled side plate 82, lower unsettled track base 83, lower unsettled guide rail 84, transition seat 85, an orthoscopic magnetic drive device A, No. two orthoscopic magnetic drive device B, oval table top C.

Detailed description of the invention

Below in conjunction with brief description of the drawings and detailed description of the invention, the present invention is further detailed explanation.

Referring to figure 1 – Figure 14, a kind of turning formula magnetic drive device, comprise the printing table 2 of arc-shaped table board 4 and upper setting thereof, described printing table 2 is turned and is rolled along the end face of arc-shaped table board 4, and below arc-shaped table board 4, is provided with the turning formula drive unit of printing table 2;

Described arc-shaped table board 4 comprises and interconnects active half cambered surface 41 being structure as a whole, servo-actuated half cambered surface 42, the below of described active half cambered surface 41 is provided with a turning formula drive unit, this turning formula drive unit comprises Z-shaped subrack 5, gear drive 6 and L shaped subrack 7, described L shaped subrack 7 comprises horizontal runing rest 71, rotating shaft 72 and perpendicular runing rest 73, the end face of one end of horizontal runing rest 71 is connected with horizontal rotating electromagnetic coil 711, the vertical connection of one end of the other end of horizontal runing rest 71 and perpendicular runing rest 73, the end face of the other end of perpendicular runing rest 73 is connected with perpendicular rotating electromagnetic coil 731, horizontal runing rest 71, the inwall of the junction of perpendicular runing rest 73 is fixedly connected with the top of rotating shaft 72, the bottom of this rotating shaft 72 coordinates with upper level-end 51 transmissions of Z-shaped subrack 5 through gear drive 6, the lower level-end 52 of Z-shaped subrack 5 is connected with horizontal drive mechanism,

The bottom of described arc-shaped table board 4 is provided with the isolation cambered surface 43 of same radian, the permanent magnet 23 of horizontal rotating electromagnetic coil 711 on isolation cambered surface 43 printing table 2 corresponding with it is just to arranging, and the permanent magnet 23 of perpendicular rotating electromagnetic coil 731 on isolation cambered surface 43 printing table 2 corresponding with it is just to arranging; Described printing table 2 comprises platen 21, gripper shoe 22, permanent magnet 23 and roller 24, the middle part of the bottom surface of described platen 21 is provided with gripper shoe 22, the middle part of gripper shoe 22 bottom surfaces is provided with permanent magnet 23, and the position that is positioned at permanent magnet 23 both sides on gripper shoe 22 bottom surfaces is provided with roller 24.

Described gear drive 6 comprises gear wheel 61, No. two gear wheels 62, No. two gear shafts 63, No. three gear shafts 64 and tooth bar 65, a described gear wheel 61 is meshed with No. two gear shafts 63, No. two gear shaft 63 coaxially arranges with No. two gear wheels 62 that are positioned at directly over it, and No. two gear wheel 62 is meshed with tooth bar 65 through No. three gear shafts 64; The bottom surface of described tooth bar 65 is slidably matched through tooth bar slide track seat 651 and tooth bar slide rail 652, one end of tooth bar 65 is connected with the upper level-end 51 of Z-shaped subrack 5, the other end of tooth bar 65 coordinates with the bottom transmission of rotating shaft 72 successively after No. three gear shafts 64, No. two gear wheels 62, No. two gear shafts 63, a gear wheel 61, and the bottom of rotating shaft 72 is positioned at the inside of a gear wheel 61.

Described turning formula magnetic drive device also comprises multiple printing tables 2 of a straight line table top 1 and upper setting, described printing table 2 rolls along the end face of straight line table top 1, the below of straight line table top 1 is provided with the orthoscopic drive unit 3 of printing table 2, this orthoscopic drive unit 3 comprises slide plate 31 and multiple solenoid 32, line slideway 33, track base 34, supporting seat 35, the bottom of described solenoid 32 is connected with the end face of slide plate 31, the bottom surface of slide plate 31 is connected with the top of line slideway 33, the bottom of line slideway 33 is slidably matched with the track base 34 that is positioned at its below, the bottom of track base 34 is connected with the seat base plate 351 of the supporting seat of U-shaped structure 35, seat base plate 351 two ends seat connected vertically side plate 352 is connected with the straight line table top 1 of the side of being located thereon, described solenoid 32 evenly arranges along the end face of slide plate 31, supporting seat 35 evenly arranges along the bottom surface of slide plate 31, the spacing of adjacent solenoid 32 equals the length of a line slideway 33, the spacing of adjacent supporting seat 35 equals the length of two line slideways 33, and directly over each supporting seat 35, be provided with a solenoid 32, and slide plate 31 parallels with horizontal runing rest 71,

In described supporting seat 35, the first two supporting seat 35 of nearly straight line table top 1 head end is respectively last supporting seat 353, the first two supporting seat 354, a supporting seat 35 of nearly straight line table top 1 tail end is a rear supporting seat 355, described last supporting seat 353, directly over the first two supporting seat 354, be respectively arranged with last solenoid 321, first three solenoid 323, in last supporting seat 353, be provided with last track base 341 to be slidably matched with last line slideway 331, the head end of last line slideway 331 is mutually concordant with last track base 341, on the end face of the slide plate 31 directly over the tail end of last line slideway 331, be connected with the first two solenoid 322, the head end of described slide plate 31 is mutually concordant with last supporting seat 353, the tail end of slide plate 31 successively through after a supporting seat 355, after straight line table top 1 tail end, extend to the outside of straight line table top 1, an and solenoid 324 after being connected with on the end face of the tail end of slide plate 31,

Described horizontal drive mechanism is the lower unsettled seat 8 of U-shaped structure, it comprise lower unsettled base plate 81 and with its two ends lower unsettled side plate 82 connected vertically; The bottom surface of described lower unsettled base plate 81 is connected with lower level-end 52, the bottom surface at end face position between the first two solenoid 322, first three solenoid 323 after transition seat 85 and on slide plate 31 of lower unsettled base plate 81 is connected, lower unsettled side plate 82 respectively coordinates with the basal sliding of lower unsettled guide rail 84 by unsettled track base 83 under, and the top of lower unsettled guide rail 84 is connected with straight line table top 1.

The quantity of printing table 2 on described straight line table top 1, permanent magnet 23, solenoid 32 is all ten, and the quantity of supporting seat 35 on straight line table top 1, line slideway 33, track base 34 is all five.

The quantity of described roller 24 in a printing table 2 is three, and wherein, two rollers 24 are positioned at the same side of permanent magnet 23, and another roller 24 is positioned at the opposite side of permanent magnet 23.

The screen printing system at a kind of above-mentioned turning formula magnetic drive device place, described screen printing system comprises two turning formula magnetic drive devices that structure is consistent, be respectively turning formula magnetic drive device A No. one, No. two turning formula magnetic drive device B, servo-actuated half cambered surface 42 in a turning formula magnetic drive device A is connected with the tail end of No. two turning formula magnetic drive device B cathetus table tops 1, servo-actuated half cambered surface 42 in No. two turning formula magnetic drive device B is connected with the tail end of a turning formula magnetic drive device A cathetus table top 1, a rear solenoid 324 in a turning formula magnetic drive device A be arranged in No. two turning formula magnetic drive device B servo-actuated half cambered surface 42 under, a rear solenoid 324 in No. two turning formula magnetic drive device B be arranged in a turning formula magnetic drive device A servo-actuated half cambered surface 42 under, an and turning formula magnetic drive device A, two straight line table tops 1 in No. two turning formula magnetic drive device B, two arc-shaped table boards 4 form an occluded ellipse shape table top C altogether.

A using method for above-mentioned turning formula magnetic drive device, described using method comprises the following steps:

First to horizontal rotating electromagnetic coil 711, perpendicular rotating electromagnetic coil 731 is switched on, solenoid after energising produces magnetic attraction to the permanent magnet 23 on its corresponding printing table 2, drive lower level-end 52 to move ahead by horizontal drive mechanism again, lower level-end 52 is successively through upper level-end 51, gear drive 6, rotating shaft 72 promotes horizontal runing rest 71, perpendicular runing rest 73 rotates, the magnetic attraction of the horizontal runing rest 71 of rotation between horizontal rotating electromagnetic coil 711 and its corresponding permanent magnet 23 drives the printing table 2 on it to rotate along arc-shaped table board 4, the magnetic attraction of perpendicular runing rest 73 between perpendicular rotating electromagnetic coil 731 and its corresponding permanent magnet 23 drives the printing table 2 on it to rotate along arc-shaped table board 4, rotate after 90 degree, horizontal rotating electromagnetic coil 711, perpendicular rotating electromagnetic coil 731 power-off are to shelve the printing table 2 rotating to reposition, again by horizontal drive mechanism successively through lower level-end 52, upper level-end 51, gear drive 6, rotating shaft 72 drives horizontal runing rest 71, perpendicular runing rest 73 rotates return to treat rotating operation next time, now, one time rotation process finishes, multiple rotation processes are circulated successively, be the using method of turning formula magnetic drive device.

A using method for above-mentioned screen printing system, described using method comprises the following steps:

First to a turning formula magnetic drive device A, solenoid in No. two turning formula magnetic drive device B is all switched on, solenoid after energising produces suction to its corresponding permanent magnet 23, drive again a slide plate 31 in turning formula magnetic drive device A to move ahead, the slide plate 31 moving ahead is through solenoid 32, magnetic attraction between permanent magnet 23 drives the printing table 2 on straight line table top 1 middle slide plate 31 to move ahead, in the process moving ahead, on slide plate 31, be positioned at the first two solenoid 322, position between first three solenoid 323 drives lower unsettled seat 8 along lower unsettled guide rail 84 to front slide, the lower unsettled seat 8 moving ahead is successively through Z-shaped subrack 5, gear drive 6 promotes L shaped subrack 7 and rotates counterclockwise, after rotation, the perpendicular corresponding printing table 2 of rotating electromagnetic coil 731 moves to the original position of the corresponding printing table 2 of horizontal rotating electromagnetic coil 711, after 2 of the corresponding printing tables of horizontal rotating electromagnetic coil 711 move in No. two turning formula magnetic drive device B a solenoid 324 move ahead after left room, simultaneously, in No. two turning formula magnetic drive device B the corresponding printing table 2 of horizontal rotating electromagnetic coil 711 move to counterclockwise in a turning formula magnetic drive device A after a solenoid 324 move ahead after left room, again to 32 power-off of all solenoids, then drive slide plate 31 returns to treat moving ahead next time, now, once the process of moving ahead finishes, move ahead in process at this, a turning formula magnetic drive device A, the method of operation of No. two turning formula magnetic drive device B is consistent, multiple processes that move ahead are circulated successively, be the using method of screen printing system.

Principle of the present invention is described as follows, referring to figure 1 – Figure 14:

1, the transmission of printing table on arc-shaped table board:

Printing table on arc-shaped table board relies on the turning formula drive unit of arc-shaped table board below setting and turns, and is generally counterclockwise turning, also can change as required clockwise turning into. Turning formula drive unit mainly comprises Z-shaped subrack, gear drive and L shaped subrack, wherein, L shaped subrack (horizontal runing rest, perpendicular runing rest) is in rotation, magnetic attraction by between solenoid, permanent magnet drives the printing table turning of rolling on arc-shaped table board, if set up a roller at the external end head of horizontal runing rest, perpendicular runing rest, the effect of the turning of rolling is better; Gear drive, as the transmission bridge between Z-shaped subrack, L shaped subrack, is realized by the engagement between gear, tooth bar completely, and accuracy is very high; Again, Z-shaped subrack is as the connection bridge of turning formula magnetic drive device, orthoscopic drive unit, be not only to provide a driving force to the operation of turning, more crucial is that straight line table top, arc-shaped table board are connected as one, provide driving force by moving ahead of straight line table top upper slide to the turning of printing table on arc-shaped table board, thereby the motion of all printing tables on straight line table top, arc-shaped table board is connected as one, improved collaborative and the accuracy of overall operation.

2, the transmission of printing table on straight line table top:

The roller that printing table arranges by its bottom rolls on the end face of straight line table top, the below of the bottom surface of straight line table top is provided with slide plate so that solenoid to be installed, the permanent magnet corresponding setting one by one that solenoid arranges with middle part, printing table bottom surface, when use, the slide plate moving ahead passes through solenoid, suction between permanent magnet drives printing table to roll along straight line table top, only printing table face is fed forward to a pitch (distance between adjacent solenoid) to solenoid, power-off is beneficial to follow-up slide plate return at every turn, this pitch is by every pair of line slideway, the relative displacement of track base is controlled, if be fed forward far away, line slideway can skid off track base, cause line slideway, track base departs from mutually, equipment is out of service.

Embodiment 1:

Referring to figure 1 – Figure 14, a kind of turning formula magnetic drive device, comprise the printing table 2 of arc-shaped table board 4 and upper setting thereof, described printing table 2 is turned and is rolled along the end face of arc-shaped table board 4, and below arc-shaped table board 4, is provided with the turning formula drive unit of printing table 2, described arc-shaped table board 4 comprises and interconnects active half cambered surface 41 being structure as a whole, servo-actuated half cambered surface 42, the below of described active half cambered surface 41 is provided with a turning formula drive unit, this turning formula drive unit comprises Z-shaped subrack 5, gear drive 6 and L shaped subrack 7, described L shaped subrack 7 comprises horizontal runing rest 71, rotating shaft 72 and perpendicular runing rest 73, the end face of one end of horizontal runing rest 71 is connected with horizontal rotating electromagnetic coil 711, the vertical connection of one end of the other end of horizontal runing rest 71 and perpendicular runing rest 73, the end face of the other end of perpendicular runing rest 73 is connected with perpendicular rotating electromagnetic coil 731, horizontal runing rest 71, the inwall of the junction of perpendicular runing rest 73 is fixedly connected with the top of rotating shaft 72, the bottom of this rotating shaft 72 coordinates with upper level-end 51 transmissions of Z-shaped subrack 5 through gear drive 6, the lower level-end 52 of Z-shaped subrack 5 is connected with horizontal drive mechanism, the bottom of described arc-shaped table board 4 is provided with the isolation cambered surface 43 of same radian, the permanent magnet 23 of horizontal rotating electromagnetic coil 711 on isolation cambered surface 43 printing table 2 corresponding with it is just to arranging, and the permanent magnet 23 of perpendicular rotating electromagnetic coil 731 on isolation cambered surface 43 printing table 2 corresponding with it is just to arranging, described printing table 2 comprises platen 21, gripper shoe 22, permanent magnet 23 and roller 24, the middle part of the bottom surface of described platen 21 is provided with gripper shoe 22, the middle part of gripper shoe 22 bottom surfaces is provided with permanent magnet 23, and the position that is positioned at permanent magnet 23 both sides on gripper shoe 22 bottom surfaces is provided with roller 24.

A using method for above-mentioned turning formula magnetic drive device, described using method comprises the following steps:

First to horizontal rotating electromagnetic coil 711, perpendicular rotating electromagnetic coil 731 is switched on, solenoid after energising produces magnetic attraction to the permanent magnet 23 on its corresponding printing table 2, drive lower level-end 52 to move ahead by horizontal drive mechanism again, lower level-end 52 is successively through upper level-end 51, gear drive 6, rotating shaft 72 promotes horizontal runing rest 71, perpendicular runing rest 73 rotates, the magnetic attraction of the horizontal runing rest 71 of rotation between horizontal rotating electromagnetic coil 711 and its corresponding permanent magnet 23 drives the printing table 2 on it to rotate along arc-shaped table board 4, the magnetic attraction of perpendicular runing rest 73 between perpendicular rotating electromagnetic coil 731 and its corresponding permanent magnet 23 drives the printing table 2 on it to rotate along arc-shaped table board 4, rotate after 90 degree, horizontal rotating electromagnetic coil 711, perpendicular rotating electromagnetic coil 731 power-off are to shelve the printing table 2 rotating to reposition, again by horizontal drive mechanism successively through lower level-end 52, upper level-end 51, gear drive 6, rotating shaft 72 drives horizontal runing rest 71, perpendicular runing rest 73 rotates return to treat rotating operation next time, now, one time rotation process finishes, multiple rotation processes are circulated successively, be the using method of turning formula magnetic drive device.

Embodiment 2:

Substance is with embodiment 1, and difference is:

Described gear drive 6 comprises gear wheel 61, No. two gear wheels 62, No. two gear shafts 63, No. three gear shafts 64 and tooth bar 65, a described gear wheel 61 is meshed with No. two gear shafts 63, No. two gear shaft 63 coaxially arranges with No. two gear wheels 62 that are positioned at directly over it, and No. two gear wheel 62 is meshed with tooth bar 65 through No. three gear shafts 64; The bottom surface of described tooth bar 65 is slidably matched through tooth bar slide track seat 651 and tooth bar slide rail 652, one end of tooth bar 65 is connected with the upper level-end 51 of Z-shaped subrack 5, the other end of tooth bar 65 coordinates with the bottom transmission of rotating shaft 72 successively after No. three gear shafts 64, No. two gear wheels 62, No. two gear shafts 63, a gear wheel 61, and the bottom of rotating shaft 72 is positioned at the inside of a gear wheel 61.

Embodiment 3:

Substance is with embodiment 1, and difference is:

Described turning formula magnetic drive device also comprises multiple printing tables 2 of a straight line table top 1 and upper setting, described printing table 2 rolls along the end face of straight line table top 1, the below of straight line table top 1 is provided with the orthoscopic drive unit 3 of printing table 2, this orthoscopic drive unit 3 comprises slide plate 31 and multiple solenoid 32, line slideway 33, track base 34, supporting seat 35, the bottom of described solenoid 32 is connected with the end face of slide plate 31, the bottom surface of slide plate 31 is connected with the top of line slideway 33, the bottom of line slideway 33 is slidably matched with the track base 34 that is positioned at its below, the bottom of track base 34 is connected with the seat base plate 351 of the supporting seat of U-shaped structure 35, seat base plate 351 two ends seat connected vertically side plate 352 is connected with the straight line table top 1 of the side of being located thereon, described solenoid 32 evenly arranges along the end face of slide plate 31, supporting seat 35 evenly arranges along the bottom surface of slide plate 31, the spacing of adjacent solenoid 32 equals the length of a line slideway 33, the spacing of adjacent supporting seat 35 equals the length of two line slideways 33, and directly over each supporting seat 35, be provided with a solenoid 32, and slide plate 31 parallels with horizontal runing rest 71,

In described supporting seat 35, the first two supporting seat 35 of nearly straight line table top 1 head end is respectively last supporting seat 353, the first two supporting seat 354, a supporting seat 35 of nearly straight line table top 1 tail end is a rear supporting seat 355, described last supporting seat 353, directly over the first two supporting seat 354, be respectively arranged with last solenoid 321, first three solenoid 323, in last supporting seat 353, be provided with last track base 341 to be slidably matched with last line slideway 331, the head end of last line slideway 331 is mutually concordant with last track base 341, on the end face of the slide plate 31 directly over the tail end of last line slideway 331, be connected with the first two solenoid 322, the head end of described slide plate 31 is mutually concordant with last supporting seat 353, the tail end of slide plate 31 successively through after a supporting seat 355, after straight line table top 1 tail end, extend to the outside of straight line table top 1, an and solenoid 324 after being connected with on the end face of the tail end of slide plate 31,

Described horizontal drive mechanism is the lower unsettled seat 8 of U-shaped structure, it comprise lower unsettled base plate 81 and with its two ends lower unsettled side plate 82 connected vertically; The bottom surface of described lower unsettled base plate 81 is connected with lower level-end 52, the bottom surface at end face position between the first two solenoid 322, first three solenoid 323 after transition seat 85 and on slide plate 31 of lower unsettled base plate 81 is connected, lower unsettled side plate 82 respectively coordinates with the basal sliding of lower unsettled guide rail 84 by unsettled track base 83 under, and the top of lower unsettled guide rail 84 is connected with straight line table top 1.

Embodiment 4:

Substance is with embodiment 3, and difference is:

The quantity of printing table 2 on described straight line table top 1, permanent magnet 23, solenoid 32 is all ten, and the quantity of supporting seat 35 on straight line table top 1, line slideway 33, track base 34 is all five. The quantity of described roller 24 in a printing table 2 is three, and wherein, two rollers 24 are positioned at the same side of permanent magnet 23, and another roller 24 is positioned at the opposite side of permanent magnet 23.

Embodiment 5:

With the screen printing system of formula magnetic drive device assembling of turning described in embodiment 3, particular content is as follows:

The screen printing system at a kind of above-mentioned turning formula magnetic drive device place, described screen printing system comprises two turning formula magnetic drive devices that structure is consistent, be respectively turning formula magnetic drive device A No. one, No. two turning formula magnetic drive device B, servo-actuated half cambered surface 42 in a turning formula magnetic drive device A is connected with the tail end of No. two turning formula magnetic drive device B cathetus table tops 1, servo-actuated half cambered surface 42 in No. two turning formula magnetic drive device B is connected with the tail end of a turning formula magnetic drive device A cathetus table top 1, a rear solenoid 324 in a turning formula magnetic drive device A be arranged in No. two turning formula magnetic drive device B servo-actuated half cambered surface 42 under, a rear solenoid 324 in No. two turning formula magnetic drive device B be arranged in a turning formula magnetic drive device A servo-actuated half cambered surface 42 under, an and turning formula magnetic drive device A, two straight line table tops 1 in No. two turning formula magnetic drive device B, two arc-shaped table boards 4 form an occluded ellipse shape table top C altogether.

A using method for above-mentioned screen printing system, described using method comprises the following steps:

First to a turning formula magnetic drive device A, solenoid in No. two turning formula magnetic drive device B is all switched on, solenoid after energising produces suction to its corresponding permanent magnet 23, drive again a slide plate 31 in turning formula magnetic drive device A to move ahead, the slide plate 31 moving ahead is through solenoid 32, magnetic attraction between permanent magnet 23 drives the printing table 2 on straight line table top 1 middle slide plate 31 to move ahead, in the process moving ahead, on slide plate 31, be positioned at the first two solenoid 322, position between first three solenoid 323 drives lower unsettled seat 8 along lower unsettled guide rail 84 to front slide, the lower unsettled seat 8 moving ahead is successively through Z-shaped subrack 5, gear drive 6 promotes L shaped subrack 7 and rotates counterclockwise, after rotation, the perpendicular corresponding printing table 2 of rotating electromagnetic coil 731 moves to the original position of the corresponding printing table 2 of horizontal rotating electromagnetic coil 711, after 2 of the corresponding printing tables of horizontal rotating electromagnetic coil 711 move in No. two turning formula magnetic drive device B a solenoid 324 move ahead after left room, simultaneously, in No. two turning formula magnetic drive device B the corresponding printing table 2 of horizontal rotating electromagnetic coil 711 move to counterclockwise in a turning formula magnetic drive device A after a solenoid 324 move ahead after left room, again to 32 power-off of all solenoids, then drive slide plate 31 returns to treat moving ahead next time, now, once the process of moving ahead finishes, move ahead in process at this, a turning formula magnetic drive device A, the method of operation of No. two turning formula magnetic drive device B is consistent, multiple processes that move ahead are circulated successively, be the using method of screen printing system.

Claims (8)

1. a turning formula magnetic drive device, comprise the printing table (2) of arc-shaped table board (4) and upper setting thereof, described printing table (2) is turned and is rolled along the end face of arc-shaped table board (4), and the turning formula drive unit that is provided with printing table (2) in the below of arc-shaped table board (4), is characterized in that:

Described arc-shaped table board (4) comprises and interconnects active half cambered surface (41) being structure as a whole, servo-actuated half cambered surface (42), the below of described active half cambered surface (41) is provided with a turning formula drive unit, this turning formula drive unit comprises Z-shaped subrack (5), gear drive (6) and L shaped subrack (7), described L shaped subrack (7) comprises horizontal runing rest (71), rotating shaft (72) and perpendicular runing rest (73), the end face of one end of horizontal runing rest (71) is connected with horizontal rotating electromagnetic coil (711), the vertical connection of one end of the other end of horizontal runing rest (71) and perpendicular runing rest (73), the end face of the other end of perpendicular runing rest (73) is connected with perpendicular rotating electromagnetic coil (731), horizontal runing rest (71), the inwall of the junction of perpendicular runing rest (73) is fixedly connected with the top of rotating shaft (72), the bottom of this rotating shaft (72) coordinates with upper level-end (51) transmission of Z-shaped subrack (5) through gear drive (6), the lower level-end (52) of Z-shaped subrack (5) is connected with horizontal drive mechanism,

The bottom of described arc-shaped table board (4) is provided with the isolation cambered surface (43) of same radian, the permanent magnet (23) of horizontal rotating electromagnetic coil (711) on isolation cambered surface (43) printing table corresponding with it (2) is just to arranging, and the permanent magnet (23) of perpendicular rotating electromagnetic coil (731) on isolation cambered surface (43) printing table corresponding with it (2) is just to arranging; Described printing table (2) comprises platen (21), gripper shoe (22), permanent magnet (23) and roller (24), the middle part of the bottom surface of described platen (21) is provided with gripper shoe (22), the middle part of gripper shoe (22) bottom surface is provided with permanent magnet (23), and the position that is positioned at permanent magnet (23) both sides on gripper shoe (22) bottom surface is provided with roller (24).

2. a kind of turning formula magnetic drive device according to claim 1, it is characterized in that: described gear drive (6) comprises a gear wheel (61), No. two gear wheels (62), No. two gear shafts (63), No. three gear shafts (64) and tooth bar (65), a described gear wheel (61) is meshed with No. two gear shafts (63), No. two gear shafts (63) coaxially arrange with No. two gear wheels (62) that are positioned at directly over it, and No. two gear wheels (62) are meshed with tooth bar (65) through No. three gear shafts (64); The bottom surface of described tooth bar (65) is slidably matched through tooth bar slide track seat (651) and tooth bar slide rail (652), one end of tooth bar (65) is connected with the upper level-end (51) of Z-shaped subrack (5), the other end of tooth bar (65) coordinates with the bottom transmission of rotating shaft (72) successively after No. three gear shafts (64), No. two gear wheels (62), No. two gear shafts (63), a gear wheel (61), and the bottom of rotating shaft (72) is positioned at the inside of a gear wheel (61).

3. a kind of turning formula magnetic drive device according to claim 1 and 2, it is characterized in that: described turning formula magnetic drive device also comprises multiple printing tables (2) of a straight line table top (1) and upper setting, described printing table (2) rolls along the end face of straight line table top (1), the below of straight line table top (1) is provided with the orthoscopic drive unit (3) of printing table (2), this orthoscopic drive unit (3) comprises slide plate (31) and multiple solenoid (32), line slideway (33), track base (34), supporting seat (35), the bottom of described solenoid (32) is connected with the end face of slide plate (31), the bottom surface of slide plate (31) is connected with the top of line slideway (33), the bottom of line slideway (33) is slidably matched with the track base (34) that is positioned at its below, the bottom of track base (34) is connected with the seat base plate (351) of the supporting seat (35) of U-shaped structure, seat base plate (351) two ends seat connected vertically side plates (352) are connected with the straight line table top (1) of the side of being located thereon, described solenoid (32) evenly arranges along the end face of slide plate (31), supporting seat (35) evenly arranges along the bottom surface of slide plate (31), the spacing of adjacent solenoid (32) equals the length of a line slideway (33), the spacing of adjacent supporting seat (35) equals the length of two line slideways (33), and directly over each supporting seat (35), be provided with a solenoid (32), and slide plate (31) parallels with horizontal runing rest (71),

In described supporting seat (35), the first two supporting seat (35) of nearly straight line table top (1) head end is respectively last supporting seat (353), the first two supporting seat (354), a supporting seat (35) of nearly straight line table top (1) tail end is a rear supporting seat (355), described last supporting seat (353), directly over the first two supporting seat (354), be respectively arranged with last solenoid (321), first three solenoid (323), in last supporting seat (353), be provided with last track base (341) to be slidably matched with last line slideway (331), the head end of last line slideway (331) is mutually concordant with last track base (341), on the end face of the slide plate (31) directly over the tail end of last line slideway (331), be connected with the first two solenoid (322), the head end of described slide plate (31) is mutually concordant with last supporting seat (353), the tail end of slide plate (31) successively through after a supporting seat (355), after straight line table top (1) tail end, extend to the outside of straight line table top (1), an and solenoid (324) after being connected with on the end face of the tail end of slide plate (31),

Described horizontal drive mechanism is the lower unsettled seat (8) of U-shaped structure, it comprise lower unsettled base plate (81) and with its two ends lower unsettled side plates connected vertically (82); The bottom surface of described lower unsettled base plate (81) is connected with lower level-end (52), the end face of lower unsettled base plate (81) is positioned at the position between the first two solenoid (322), first three solenoid (323) bottom surface after transition seat (85) and on slide plate (31) is connected, lower unsettled side plate (82) respectively coordinates with the basal sliding of lower unsettled guide rail (84) by unsettled track base (83) under, and the top of lower unsettled guide rail (84) is connected with straight line table top (1).

4. a kind of turning formula magnetic drive device according to claim 3, it is characterized in that: the quantity of printing table (2) on described straight line table top (1), permanent magnet (23), solenoid (32) is all ten, the quantity of supporting seat (35) on straight line table top (1), line slideway (33), track base (34) is all five.

5. a kind of turning formula magnetic drive device according to claim 3, it is characterized in that: the quantity of described roller (24) in a printing table (2) is three, wherein, two rollers (24) are positioned at the same side of permanent magnet (23), and another roller (24) is positioned at the opposite side of permanent magnet (23).

6. the screen printing system at a turning formula magnetic drive device claimed in claim 3 place, it is characterized in that: described screen printing system comprises two turning formula magnetic drive devices that structure is consistent, be respectively a turning formula magnetic drive device (A), No. two turning formula magnetic drive devices (B), servo-actuated half cambered surface (42) in a turning formula magnetic drive device (A) is connected with the tail end of No. two turning formula magnetic drive devices (B) cathetus table tops (1), servo-actuated half cambered surface (42) in No. two turning formula magnetic drive devices (B) is connected with the tail end of a turning formula magnetic drive device (A) cathetus table top (1), a rear solenoid (324) in a turning formula magnetic drive device (A) be arranged in No. two turning formula magnetic drive devices (B) servo-actuated half cambered surface (42) under, a rear solenoid (324) in No. two turning formula magnetic drive devices (B) be arranged in a turning formula magnetic drive device (A) servo-actuated half cambered surface (42) under, an and turning formula magnetic drive device (A), two straight line table tops (1) in No. two turning formula magnetic drive devices (B), two arc-shaped table boards (4) form an occluded ellipse shape table top (C) altogether.

7. a using method for turning formula magnetic drive device claimed in claim 1, is characterized in that described using method comprises the following steps:

First to horizontal rotating electromagnetic coil (711), perpendicular rotating electromagnetic coil (731) energising, permanent magnet (23) on the printing table (2) that solenoid after energising is corresponding to it produces magnetic attraction, drive lower level-end (52) to move ahead by horizontal drive mechanism again, lower level-end (52) is successively through upper level-end (51), gear drive (6), rotating shaft (72) promotes horizontal runing rest (71), perpendicular runing rest (73) rotation, the magnetic attraction of the horizontal runing rest (71) of rotation between horizontal rotating electromagnetic coil (711) and its corresponding permanent magnet (23) drives the printing table (2) on it to rotate along arc-shaped table board (4), the magnetic attraction of perpendicular runing rest (73) between perpendicular rotating electromagnetic coil (731) and its corresponding permanent magnet (23) drives the printing table (2) on it to rotate along arc-shaped table board (4), rotate after 90 degree, horizontal rotating electromagnetic coil (711), perpendicular rotating electromagnetic coil (731) power-off is to shelve the printing table (2) rotating to reposition, again by horizontal drive mechanism successively through lower level-end (52), upper level-end (51), gear drive (6), rotating shaft (72) drives horizontal runing rest (71), perpendicular runing rest (73) rotation return is to treat rotating operation next time, now, one time rotation process finishes, multiple rotation processes are circulated successively, be the using method of turning formula magnetic drive device.

8. a using method for screen printing system claimed in claim 6, is characterized in that described using method comprises the following steps:

First to a turning formula magnetic drive device (A), solenoid in No. two turning formula magnetic drive devices (B) is all switched on, the permanent magnet (23) that solenoid after energising is corresponding to it produces suction, drive again the slide plate (31) in a turning formula magnetic drive device (A) to move ahead, the slide plate (31) moving ahead is through solenoid (32), magnetic attraction between permanent magnet (23) drives the printing table (2) on straight line table top (1) middle slide plate (31) to move ahead, in the process moving ahead, on slide plate (31), be positioned at the first two solenoid (322), position between first three solenoid (323) drives lower unsettled seat (8) along lower unsettled guide rail (84) to front slide, the lower unsettled seat (8) moving ahead is successively through Z-shaped subrack (5), gear drive (6) promotes L shaped subrack (7) and rotates counterclockwise, after rotation, the perpendicular corresponding printing table of rotating electromagnetic coil (731) (2) moves to the original position of the corresponding printing table of horizontal rotating electromagnetic coil (711) (2), after the corresponding printing table of horizontal rotating electromagnetic coil (711) (2) moves in No. two turning formula magnetic drive devices (B) solenoid (324) move ahead after left room, simultaneously, in No. two turning formula magnetic drive devices (B) the corresponding printing table of horizontal rotating electromagnetic coil (711) (2) move to counterclockwise in a turning formula magnetic drive device (A) after a solenoid (324) move ahead after left room, again to all solenoids (32) power-off, then drive slide plate (31) return to treat moving ahead next time, now, once the process of moving ahead finishes, move ahead in process at this, a turning formula magnetic drive device (A), the method of operation of No. two turning formula magnetic drive devices (B) is consistent, multiple processes that move ahead are circulated successively, be the using method of screen printing system.