CN104875479A - Side-open continuous screen printing device - Google Patents

Side-open continuous screen printing device Download PDF

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Publication number
CN104875479A
CN104875479A CN201510307580.3A CN201510307580A CN104875479A CN 104875479 A CN104875479 A CN 104875479A CN 201510307580 A CN201510307580 A CN 201510307580A CN 104875479 A CN104875479 A CN 104875479A
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China
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seat
frame
skeleton frame
screen printing
synchronizing wheel
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CN201510307580.3A
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CN104875479B (en
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李大明
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Dongguan Kin Wah Machinery Co Ltd
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Dongguan Kin Wah Machinery Co Ltd
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Abstract

The invention relates to the technical field of printing equipment and discloses a side-open continuous screen printing device. The side-open continuous screen printing device comprises a moving platform base, a hinge mechanism is arranged on one side of the moving platform base, and a jacking mechanism used for jacking a moving frame base is arranged on the other side of the moving platform base. By adoption of the side-open structure, in maintenance, the jacking mechanism is capable of jacking one side of the moving frame base to make it convenient for maintenance; in operation, the jacking mechanism is capable of jacking the moving frame base to enable displacement of the moving platform base so as to realize a next screen printing cycle. In addition, the jacking mechanism is greatly structurally simplified to realize high simplicity, and accordingly saving of manufacturing cost, easiness in control and convenience in use are achieved.

Description

A kind of laterally opened continuous screen printing device
Technical field
The present invention relates to printing equipment technical field, particularly relate to a kind of laterally opened continuous screen printing device.
Background technology
Silk-screen technology has been widely used in various industry, as: the printing surfaces such as plastic products, textile and other articles for daily use being carried out to pattern or word, adopt the mode of serigraphy widely, current silk-screen printing device generally comprise screen printing forme, scrape scraper plate, ink, print station and stock.Its general principle is: utilize the saturating ink of screen printing forme areas mesh, and the general principle of non-graphic part mesh not strike through is printed.Pour ink in screen printing forme side during printing, applying certain pressure with scraping the ink position of scraper plate on screen printing forme, moving towards the screen printing forme other end simultaneously.Ink is expressed on stock from the mesh of areas by scraper plate in movement.Trace set is made within limits due to the viscous effect of ink, scraping scraper plate in printing process is linear contact lay with screen printing forme and stock all the time, contact wire moves with scraper plate and mobile, owing to keeping certain gap between screen printing forme and stock, make screen printing forme when printing be produced reaction force to scraper plate by the tension force of self, this reaction force is called screen resilience.Due to the effect of screen resilience, make screen printing forme and stock only in portable linear contact lay, and screen printing forme other parts and stock are disengaged position.Make ink and silk screen generation rhegmagenesis, ensure that printed dimensions precision and avoid set-off stock.Lifted after the whole space of a whole page scraped by scraper plate, screen printing forme also lifts simultaneously, and ink is gently scraped back initial position, is so far a print stroke.
Certainly, above-mentioned silk-screen printing device can complete presswork preferably printing it for general single product, but, current most product in the fabrication process, all have employed pipelining, it means, if still carry out single-piece printing operation by the mode such as artificial, its efficiency far can not catch up with manufacturing schedule, in addition, particularly for the printing of strap or cloth, because strap or cloth are continuous length, strap or cloth is needed to tile, then one section of strap or cloth is printed, and then reset circulates next time, and existing printing equipment is when walking on stage mobile or printing, all adopt the mode of parallel lifting, namely employing four cylinders are at least needed to be achieved.The silk-screen brush device not easy care of this structure, and when changing screen frame, seem suitable loaded down with trivial details, in view of this, inventor has invented a kind of laterally opened continuous screen printing device.
Summary of the invention
The object of the invention is to for the deficiencies in the prior art, a kind of laterally opened continuous screen printing device be provided, this screen printing device have structure simple, be easy to safeguard and advantage easy to use.
For achieving the above object, the laterally opened continuous screen printing device of one of the present invention, comprise walking pedestal, the side walking pedestal is provided with linkwork, described linkwork is connected with movable skeleton frame, and described movable skeleton frame is provided with the fixture for clamping silk-screen screen frame, and described movable skeleton frame is provided with the screeding device that can laterally slide, and for driving the first driving mechanism of described screeding device, described in walk pedestal opposite side be provided with lifting body for skeleton frame movable described in jacking.
Further, described linkwork comprises the first hinged seat, second hinged seat and regulating shaft, one end of described regulating shaft is provided with the first adjustment code stretching into the first hinged seat, the other end of described regulating shaft is provided with the second adjustment code stretching into the second hinged seat, described first hinged seat is provided with the first adjusting screw(rod) be flexibly connected with the first adjustment code, described second hinged seat is provided with the second adjusting screw(rod) be flexibly connected with the second adjustment code, described first hinged seat, second hinged seat all with walk pedestal and be fixedly connected with, described regulating shaft be provided be connected with movable skeleton frame stretch out block.
Further, described fixture comprises the fixed frame be slidably connected with movable skeleton frame, described fixed frame is respectively arranged with the first guide pillar and the second guide pillar, also comprise and to be slidably connected with the first guide pillar and the second guide pillar and for the clamping mechanism of clamping silk-screen screen frame, and for longitudinally regulating the micro-adjusting mechanism of fixed frame.
Preferably, described clamping mechanism comprises the first telescopic arm be slidably connected with the first guide pillar, and the second telescopic arm to be slidably connected with the second guide pillar, the stiff end of described first telescopic arm and the second telescopic arm is provided with Fixing clamp-seat, the movable end of described first telescopic arm and the second telescopic arm is provided with movable deck, and described Fixing clamp-seat, movable deck are provided with the compression cylinder for compressing silk-screen screen frame.
Preferably, described movable skeleton frame is respectively arranged with the 3rd guide pillar and the 4th guide pillar, described fixed frame is provided with the sliding sleeve be slidably connected with the 3rd guide pillar, the 4th guide pillar respectively, described micro-adjusting mechanism comprises the fine tuning seat be connected with movable skeleton frame, described fine tuning seat is fixed with the first servo motor, described first servo motor is connected with fine setting screw rod, and described fine setting screw rod and fixed frame are spirally connected, and described fixed frame is also provided with the lead that at least one passes described fine tuning seat.
Further, described screeding device comprises moving beam, and the two ends of described moving beam are provided with chute, and described movable skeleton frame is provided with the first slide rail and the second slide rail that are connected with described slide; Described moving beam is provided with elevating bracket, and described elevating bracket is connected with for being coated with the scraper scraping silk printing screen frame, also comprises the lift cylinder for driving described elevating bracket.
Preferably, the gearbox that described first driving mechanism comprises the second servo motor and is connected with the second servo motor transmission, also comprise the first synchronizing wheel and second synchronizing wheel at the two ends being arranged at the first slide rail respectively, and be arranged at the 3rd synchronizing wheel at two ends and the 4th synchronizing wheel of the second slide rail respectively, described gearbox is connected with power transmission shaft, described power transmission shaft and the first synchronizing wheel, 3rd synchronizing wheel is in transmission connection, the first Timing Belt for driving described moving beam is provided with between described first synchronizing wheel and the second synchronizing wheel, the second Timing Belt for driving described moving beam is provided with between described 3rd synchronizing wheel and the 4th synchronizing wheel.
Further, described lifting body comprises jacking seat, described jacking seat is hinged with the jacking cylinder for lifting described movable skeleton frame, and described jacking cylinder is provided with the first stroke and the second stroke, and described jacking seat is also provided through the positioning guide column of described movable skeleton frame.
Further, described in walk the wheel seat that pedestal is provided with the both sides being positioned at movable skeleton frame, described wheel seat is provided with at least one for abutting the auxiliary wheel of movable skeleton frame.
Beneficial effect of the present invention: the laterally opened continuous screen printing device of one of the present invention, comprise walking pedestal, the side walking pedestal is provided with linkwork, described in walk pedestal opposite side be provided with lifting body for skeleton frame movable described in jacking; This screen printing device is owing to have employed laterally opened structure, when safeguarding, utilizing lifting body that lifting is carried out in the side of movable skeleton frame, can conveniently safeguard it, operationally, also be utilize lifting body to carry out lifting to movable skeleton frame, thus pedestal can be allowed away to carry out displacement, to realize the circulation of next silk-screen work, this laterally opened structure has reduced the number of the structure of lifting body greatly, mechanism is more simple, thus saves manufacturing cost, has advantage easy to control and easy to use.
Accompanying drawing explanation
Fig. 1 is stereogram of the present invention.
Fig. 2 is partial structurtes schematic diagram of the present invention.
Fig. 3 is front view of the present invention.
Fig. 4 is top view of the present invention.
Fig. 5 is upward view of the present invention.
Fig. 6 is the structural representation of screeding device of the present invention.
Fig. 7 is the structural representation of linkwork of the present invention.
Reference numeral comprises:
Walk pedestal--11, movable skeleton frame--the 12, three guide pillar--121,
4th guide pillar--122, sliding sleeve--123, wheel seat--13,
Auxiliary wheel--131, linkwork--2, first hinged seat--21,
Second hinged seat--22, regulating shaft--23, first adjustment code--24,
Second adjustment code--the 25, first adjusting screw(rod)--26, second adjusting screw(rod)--27,
Stretch out block--28, fixture--3, fixed frame--31,
First guide pillar--32, second guide pillar--33, clamping mechanism--34,
First telescopic arm--341, second telescopic arm--342, Fixing clamp-seat--343,
Movable deck--344, compression cylinder--345, micro-adjusting mechanism--35,
First servo motor--351, fine setting screw rod--352, lead--353,
Screeding device--4, moving beam--41, first slide rail--42,
Second slide rail--43, elevating bracket--44, scraper--45,
Lift cylinder--46, screening glass-47, the first driving mechanism--5,
Second servo motor--the 51, first synchronizing wheel--52, second synchronizing wheel--53,
3rd synchronizing wheel--the 54, four synchronizing wheel--55, power transmission shaft--56,
First Timing Belt--57, second Timing Belt--58, lifting body--6,
Jacking seat--61, jacking cylinder--62, first stroke--621,
Second stroke--622, positioning guide column--63.
Detailed description of the invention
Below in conjunction with accompanying drawing, the present invention is described in detail.
See Fig. 1 to Fig. 7, a kind of laterally opened continuous screen printing device, comprise walking pedestal 11, the side walking pedestal 11 is provided with linkwork 2, described linkwork 2 is connected with movable skeleton frame 12, described movable skeleton frame 12 is provided with the fixture 3 for clamping silk-screen screen frame, described movable skeleton frame 12 is provided with the screeding device 4 that can laterally slide, and for driving the first driving mechanism 5 of described screeding device 4, described in walk pedestal 11 opposite side be provided with lifting body 6 for skeleton frame 12 movable described in jacking.The operation principle of this screen printing device is: walk pedestal 11 and be installed on corresponding guide rail, walk pedestal 11 in moving process, movable skeleton frame 12 is risen certain distance by described lifting body 6, make the gap that the maintenance of silk-screen screen frame and stock is certain, when walking pedestal 11 and moving into place, movable skeleton frame 12 puts down by described lifting body 6, make silk-screen screen frame and substrate contacts, then the first driving mechanism 5 drives screeding device 4 to be coated with in silk-screen screen frame to scrape, thus the presswork realized stock, when needs are safeguarded or change silk-screen screen frame, described lifting body 6 is by the side lifting of movable skeleton frame 12, the stroke of its lifting can have corresponding attended operation space for meeting, this shows, this screen printing device is owing to have employed laterally opened structure, when safeguarding, utilize lifting body 6 that lifting is carried out in the side of movable skeleton frame 12, can conveniently safeguard it, operationally, also be utilize lifting body 6 to carry out lifting to movable skeleton frame 12, thus pedestal 11 can be allowed away to carry out displacement, to realize the circulation of next silk-screen work, this laterally opened structure has reduced the number of the structure of lifting body 6 greatly, mechanism is simpler, thus save manufacturing cost, relative to the structure of the movable skeleton frame 12 of existing integral lifting, the technical program has more advantage easy to control and easy to use.
In the technical program, described linkwork 2 comprises the first hinged seat 21, second hinged seat 22 and regulating shaft 23, one end of described regulating shaft 23 is provided with the first adjustment code 24 stretching into the first hinged seat 21, the other end of described regulating shaft 23 is provided with the second adjustment code 25 stretching into the second hinged seat 22, described first hinged seat 21 is provided with the first adjusting screw(rod) 26 be flexibly connected with the first adjustment code 24, described second hinged seat 22 is provided with the second adjusting screw(rod) 27 be flexibly connected with the second adjustment code 25, described first hinged seat 21, second hinged seat 22 all with walk pedestal 11 and be fixedly connected with, described regulating shaft 23 be provided be connected with movable skeleton frame 12 stretch out block 28.In order to make described movable skeleton frame 12 when unilateral side switching, this linkwork 2 is arranged at away the outside of pedestal 11 and movable skeleton frame 12, avoid causing interference to stock, and, for the stock of different-thickness, the strap of such as different-thickness and cloth thereof, can regulate the first adjustment code 24, second adjustment code 25, thus make it be suitable for the stock printing of different-thickness.
In the technical program, described fixture 3 comprises the fixed frame 31 be slidably connected with movable skeleton frame 12, described fixed frame 31 is respectively arranged with the first guide pillar 32 and the second guide pillar 33, also comprise and to be slidably connected with the first guide pillar 32 and the second guide pillar 33 and for the clamping mechanism 34 of clamping silk-screen screen frame, and for longitudinally regulating the micro-adjusting mechanism 35 of fixed frame 31.The fixed frame 31 that described and movable skeleton frame 12 is slidably connected refers to, described fixed frame 31 realizes longitudinal sliding motion in movable skeleton frame 12, the object of its longitudinal sliding motion is the convenient position regulating its fixed frame 31, that is, when fixed frame 31 clamping has silk-screen screen frame, the position of silk-screen screen frame is adjusted.
Further, described clamping mechanism 34 comprises the first telescopic arm 341 be slidably connected with the first guide pillar 32, and the second telescopic arm 342 to be slidably connected with the second guide pillar 33, the stiff end of described first telescopic arm 341 and the second telescopic arm 342 is provided with Fixing clamp-seat 343, the movable end of described first telescopic arm 341 and the second telescopic arm 342 is provided with movable deck 344, and described Fixing clamp-seat 343, movable deck 344 are provided with the compression cylinder 345 for compressing silk-screen screen frame.Described first telescopic arm 341, second telescopic arm 342 can carry out telescopic adjustment according to the length of different silk-screen screen frames, so that silk-screen screen frame is installed in movable deck 344, in the actual installation process of silk-screen screen frame, after silk-screen screen frame is installed on movable deck 344 and Fixing clamp-seat 343, recycling press-fits cylinder by silk-screen screen frame compressing tightly, thus realizes fixing reliably.
In actual use, often need to finely tune silk-screen screen frame, thus make the printed patterns on silk-screen screen frame correct be printed in stock surface, conveniently regulate, described movable skeleton frame 12 is respectively arranged with the 3rd guide pillar 121 and the 4th guide pillar 122, described fixed frame 31 be provided with respectively with the 3rd guide pillar 121, the sliding sleeve 123 that 4th guide pillar 122 is slidably connected, described micro-adjusting mechanism 35 comprises the fine tuning seat be connected with movable skeleton frame 12, described fine tuning seat is fixed with the first servo motor 351, described first servo motor 351 is connected with fine setting screw rod 352, described fine setting screw rod 352 is spirally connected with fixed frame 31, described fixed frame 31 is also provided with the lead 353 that at least one passes described fine tuning seat.When needs are finely tuned, described first servo motor 351 drives fine setting screw rod 352, because fine setting screw rod 352 is spirally connected with fixed frame 31, so the rotation of fine setting screw rod 352, further fixed frame 31 will be carried out longitudinal moving forward and backward, namely make fixed frame 31 move along the first guide pillar 32, the 4th guide pillar 122, when this longitudinal movement substantially increases silk-screen to version efficiency.
Scrape because serigraphy needs corresponding scraping blade to carry out painting to half tone, in the technical program, described screeding device 4 comprises moving beam 41, the two ends of described moving beam 41 are provided with chute, and described movable skeleton frame 12 is provided with the first slide rail 42 and the second slide rail 43 be connected with described slide; Described moving beam 41 is provided with elevating bracket 44, and described elevating bracket 44 is connected with for being coated with the scraper 45 scraping silk printing screen frame, also comprises the lift cylinder 46 for driving described elevating bracket 44.The operation principle of this device is: described lift cylinder 46 drives elevating bracket 44 to move down, scraper 45 contacts with silk printing screen, then under the effect of the firstth driving mechanism 5, realize horizontal painting to scrape, it often moves and once namely realizes one-step print, after being completed for printing, lift cylinder 46 is utilized to drive elevating bracket 44 up, scraper 45 is separated with silk printing screen, in addition, due to when printing, the top of silk-screen screen frame can accommodating a certain amount of ink, because scraper 45 is generally made up of soft silica gel etc., when too many ink gathers, the normal painting so just easily affecting scraper 45 is scraped, so, as preferably, the side of described scraper 45 is also provided with for the protection of sheet 47, when a large amount of ink gathers, in the moving process of scraper 45, screening glass 47 stops gathering excessive ink, more ink is avoided to cause the distortion of scraper 45.
Further, the gearbox that described first driving mechanism 5 comprises the second servo motor 51 and is in transmission connection with the second servo motor 51, also comprise first synchronizing wheel 52 and second synchronizing wheel 53 at the two ends being arranged at the first slide rail 42 respectively, and be arranged at the 3rd synchronizing wheel 54 at two ends and the 4th synchronizing wheel 55 of the second slide rail 43 respectively, described gearbox is connected with power transmission shaft 56, described power transmission shaft 56 and the first synchronizing wheel 52, 3rd synchronizing wheel 54 is in transmission connection, the first Timing Belt 57 for driving described moving beam 41 is provided with between described first synchronizing wheel 52 and the second synchronizing wheel 53, the second Timing Belt 58 for driving described moving beam 41 is provided with between described 3rd synchronizing wheel 54 and the 4th synchronizing wheel 55.When lift cylinder 46 drives elevating bracket 44 to move down, when scraper 45 is contacted with silk printing screen, described second servo motor 51 starts, gear is carried out to power transmission shaft 56 by gearbox, because power transmission shaft 56 is connected with the first synchronizing wheel 52, the 3rd synchronizing wheel 54, so, power transmission shaft 56 can realize synchronously driving the first synchronizing wheel 52 and the 3rd synchronizing wheel 54, then, further, because the first synchronizing wheel 52, second synchronizing wheel 53 is in transmission connection by the first Timing Belt 57, and described first Timing Belt 57 connects the end of described moving beam 41; In like manner, because the 3rd synchronizing wheel 54, the 4th synchronizing wheel 55 are in transmission connection by the second Timing Belt 58, and described second Timing Belt 58 connects the other end of described moving beam 41, like this, under the effect of power transmission shaft 56, first Timing Belt 57, second Timing Belt 58 realizes synchronously driving moving beam 41 to move along the first slide rail 42, second slide rail 43, and be all arranged at moving beam 41 due to elevating bracket 44, scraper 45 and lift cylinder 46, so, when moving beam 41 carries out transverse shifting, namely achieve the work of scraper 45 on silk printing screen and move.The structure of this first driving mechanism 5 is simple, and utilizes single servo motor namely to achieve both sides synchronously to drive, not only saved manufacturing cost, and, be convenient to Comprehensive Control.
In the technical program, described lifting body 6 comprises jacking seat 61, described jacking seat 61 is hinged with the jacking cylinder 62 for lifting described movable skeleton frame 12, described jacking cylinder 62 is provided with the first stroke 621 and the second stroke 622, and described jacking seat 61 is also provided through the positioning guide column 63 of described movable skeleton frame 12.Described jacking seat 61 with walk pedestal 11 and be fixedly connected with, because described jacking cylinder 62 is when the movable skeleton frame 12 of jack-up, described movable skeleton frame 12 is arcuate movement track, so, in this programme, described jacking seat 61 is hinged with jacking cylinder 62, simultaneously, described first stroke 621 is less lift height, lift height is 40 ~ 70mm, described second stroke 622 is larger lift height, this height is 220 ~ 260mm, in actual use, when walking pedestal 11 and needing mobile, described jacking cylinder 62 jacking to the first stroke 621, stock is separated with silk-screen screen frame, and make it have certain safety clearance, change when needs or when safeguarding this screen printing device, jacking cylinder 62 can be utilized to make it be operated in the second stroke 622, thus obtain larger operation and maintenance space.
Because movable skeleton frame 12 needs when printing to keep stationary state, thus make pattern printing accurate; When walking pedestal 11 when mobile, described movable skeleton frame 12 is in active state again, in order to make movable skeleton frame 12 stablizing under two states, in the technical program, described walk pedestal 11 be provided with the wheel seat 13 of the both sides being positioned at movable skeleton frame 12, described wheel seat 13 is provided with at least one for abutting the auxiliary wheel 131 of movable skeleton frame 12.Institute's auxiliary wheel 131 can adopt bearing, wheel seat 13 preferably arranges two or three bearings arranged vertically, when printing state, this auxiliary wheel 131 being positioned at the both sides of movable skeleton frame 12 compresses movable skeleton frame 12, make movable skeleton frame 12 have good locations in the horizontal direction to fix, when needs lifting plays described movable skeleton frame 12, under the effect of jacking cylinder 62, movable skeleton frame 12 is along with the rotatable guide effect of auxiliary wheel 131, be elevated smoothly, certainly, in the both sides of described movable skeleton frame 12, the position of corresponding auxiliary wheel 131 can arrange boss, thus make structure more firm.
Above content is only preferred embodiment of the present invention, and for those of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, this description should not be construed as limitation of the present invention.

Claims (9)

1. a laterally opened continuous screen printing device, comprise walking pedestal (11), it is characterized in that: the side walking pedestal (11) is provided with linkwork (2), described linkwork (2) is connected with movable skeleton frame (12), described movable skeleton frame (12) is provided with the fixture (3) for clamping silk-screen screen frame, described movable skeleton frame (12) is provided with the screeding device (4) that can laterally slide, and for driving first driving mechanism (5) of described screeding device (4), described walk the opposite side of pedestal (11) be provided with lifting body (6) for skeleton frame (12) movable described in jacking.
2. the laterally opened continuous screen printing device of one according to claim 1, it is characterized in that: described linkwork (2) comprises the first hinged seat (21), second hinged seat (22) and regulating shaft (23), one end of described regulating shaft (23) is provided with the first adjustment code (24) stretching into the first hinged seat (21), the other end of described regulating shaft (23) is provided with the second adjustment code (25) stretching into the second hinged seat (22), described first hinged seat (21) is provided with the first adjusting screw(rod) (26) be flexibly connected with the first adjustment code (24), described second hinged seat (22) is provided with the second adjusting screw(rod) (27) be flexibly connected with the second adjustment code (25), described first hinged seat (21), second hinged seat (22) all with walk pedestal (11) and be fixedly connected with, described regulating shaft (23) be provided be connected with movable skeleton frame (12) stretch out block (28).
3. the laterally opened continuous screen printing device of one according to claim 1, it is characterized in that: described fixture (3) comprises the fixed frame (31) be slidably connected with movable skeleton frame (12), described fixed frame (31) is respectively arranged with the first guide pillar (32) and the second guide pillar (33), also comprise and to be slidably connected with the first guide pillar (32) and the second guide pillar (33) and for the clamping mechanism (34) of clamping silk-screen screen frame, and for longitudinally regulating the micro-adjusting mechanism (35) of fixed frame (31).
4. the laterally opened continuous screen printing device of one according to claim 3, it is characterized in that: described clamping mechanism (34) comprises the first telescopic arm (341) be slidably connected with the first guide pillar (32), and the second telescopic arm (342) to be slidably connected with the second guide pillar (33), the stiff end of described first telescopic arm (341) and the second telescopic arm (342) is provided with Fixing clamp-seat (343), the movable end of described first telescopic arm (341) and the second telescopic arm (342) is provided with movable deck (344), described Fixing clamp-seat (343), movable deck (344) is provided with the compression cylinder (345) for compressing silk-screen screen frame.
5. the laterally opened continuous screen printing device of one according to claim 3, it is characterized in that: described movable skeleton frame (12) is respectively arranged with the 3rd guide pillar (121) and the 4th guide pillar (122), described fixed frame (31) be provided with respectively with the 3rd guide pillar (121), the sliding sleeve (123) that 4th guide pillar (122) is slidably connected, described micro-adjusting mechanism (35) comprises the fine tuning seat be connected with movable skeleton frame (12), described fine tuning seat is fixed with the first servo motor (351), described first servo motor (351) is connected with fine setting screw rod (352), described fine setting screw rod (352) and fixed frame (31) are spirally connected, described fixed frame (31) is also provided through the lead (353) of described fine tuning seat.
6. the laterally opened continuous screen printing device of one according to claim 1, it is characterized in that: described screeding device (4) comprises moving beam (41), the two ends of described moving beam (41) are provided with chute, and described movable skeleton frame (12) is provided with the first slide rail (42) and the second slide rail (43) that are connected with described slide; Described moving beam (41) is provided with elevating bracket (44), and described elevating bracket (44) is connected with for being coated with the scraper (45) scraping silk printing screen frame, also comprises the lift cylinder (46) for driving described elevating bracket (44).
7. the laterally opened continuous screen printing device of one according to claim 6, it is characterized in that: the gearbox that described first driving mechanism (5) comprises the second servo motor (51) and is in transmission connection with the second servo motor (51), also comprise the first synchronizing wheel (52) and second synchronizing wheel (53) at the two ends being arranged at the first slide rail (42) respectively, and be arranged at the 3rd synchronizing wheel (54) at two ends and the 4th synchronizing wheel (55) of the second slide rail (43) respectively, described gearbox is connected with power transmission shaft (56), described power transmission shaft (56) and the first synchronizing wheel (52), 3rd synchronizing wheel (54) is in transmission connection, the first Timing Belt (57) for driving described moving beam (41) is provided with between described first synchronizing wheel (52) and the second synchronizing wheel (53), the second Timing Belt (58) for driving described moving beam (41) is provided with between described 3rd synchronizing wheel (54) and the 4th synchronizing wheel (55).
8. the laterally opened continuous screen printing device of one according to claim 1, it is characterized in that: described lifting body (6) comprises jacking seat (61), described jacking seat (61) is hinged with the jacking cylinder (62) for lifting described movable skeleton frame (12), described jacking cylinder (62) is provided with the first stroke (621) and the second stroke (622), and described jacking seat (61) is also provided through the positioning guide column (63) of described movable skeleton frame (12).
9. according to the arbitrary described laterally opened continuous screen printing device of one of claim 1 ~ 8, it is characterized in that: described in walk the wheel seat (13) that pedestal (11) is provided with the both sides being positioned at movable skeleton frame (12), described wheel seat (13) is provided with the auxiliary wheel (131) for abutting movable skeleton frame (12).
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105690982A (en) * 2015-12-31 2016-06-22 东旭科技集团有限公司 MPDP electrode printing system for glass assembly
CN110053351A (en) * 2019-05-27 2019-07-26 惠州绿保科技有限公司 A kind of carbon paper screen printer

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3650208A (en) * 1969-11-17 1972-03-21 Daryl Gene Lambert Screen printing machine with single-sided rack-and-pinion drive
CN2175102Y (en) * 1994-01-18 1994-08-24 陈东钦 Improved structure of screen printer
US5713277A (en) * 1996-06-05 1998-02-03 Svecia Usa, Inc. Combination print head and pivotable print screen holder and method for improved operator safety during screen maintenance
CN201169112Y (en) * 2008-03-14 2008-12-24 台湾恒基股份有限公司 Driving device of printer
CN104309278A (en) * 2014-10-30 2015-01-28 中国地质大学(武汉) Three-dimensional manual curve surface screen printing machine
CN204820618U (en) * 2015-06-08 2015-12-02 东莞市坚华机械有限公司 Open continuous silk screen printing device inclines

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3650208A (en) * 1969-11-17 1972-03-21 Daryl Gene Lambert Screen printing machine with single-sided rack-and-pinion drive
CN2175102Y (en) * 1994-01-18 1994-08-24 陈东钦 Improved structure of screen printer
US5713277A (en) * 1996-06-05 1998-02-03 Svecia Usa, Inc. Combination print head and pivotable print screen holder and method for improved operator safety during screen maintenance
CN201169112Y (en) * 2008-03-14 2008-12-24 台湾恒基股份有限公司 Driving device of printer
CN104309278A (en) * 2014-10-30 2015-01-28 中国地质大学(武汉) Three-dimensional manual curve surface screen printing machine
CN204820618U (en) * 2015-06-08 2015-12-02 东莞市坚华机械有限公司 Open continuous silk screen printing device inclines

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105690982A (en) * 2015-12-31 2016-06-22 东旭科技集团有限公司 MPDP electrode printing system for glass assembly
CN110053351A (en) * 2019-05-27 2019-07-26 惠州绿保科技有限公司 A kind of carbon paper screen printer

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