CN102729592B - A kind of energy saving and environment friendly many chromatographys automatic printing machine - Google Patents
A kind of energy saving and environment friendly many chromatographys automatic printing machine Download PDFInfo
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- CN102729592B CN102729592B CN201210034896.6A CN201210034896A CN102729592B CN 102729592 B CN102729592 B CN 102729592B CN 201210034896 A CN201210034896 A CN 201210034896A CN 102729592 B CN102729592 B CN 102729592B
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Abstract
The present invention relates to a kind of energy saving and environment friendly many chromatographys automatic printing machine, by pre-process parts, circular arc district platen moving device I, II, at least two group printing units, drying unit, bedplate component, frame, control assembly, platen rectilinear movement locking device composition, pre-process parts are connected with first group of printing unit; Drying unit is provided with after often organizing printing unit; Circular arc district platen moving device I, II is separately positioned on the two ends of frame; Drying unit be one be arranged on printing unit after there is the drying mechanism of hot air circulation, waste gas ejectment function; Because pre-process parts are provided with locking device, can lock bedplate component; Be provided with platen rectilinear movement locking device, can conveniently move bedplate component; Owing to adopting concentrated mode of heating bedplate component to be dried, greatly reduce energy consumption, decrease the phenomenons such as the cracking of the coating after solidification and the aging jaundice of fabric, improve print quality, decrease environmental pollution.
Description
Technical field
The present invention relates to screen printing machine, specifically a kind of energy saving and environment friendly many chromatographys automatic printing machine.
Background technology
Through retrieval Patent documents of interest, not yet retrieve the energy saving and environment friendly many chromatographys automatic printing machine of the one identical with structure of the present invention at present.Domestic and international automatic printing machine, mainly contains the automatic printing machine of circular configuration and ellipsoidal structure and guide belt structure at present.Because the operation of its working plate in printing process of existing circle, oval decorating machine operates all at grade, because the needs of printing, before each chromatography has printed and carries out next chromaticity printing, need dry printing surface; In order to improve drying rate, moment high-power heating can only be taked to dry each printing surface, simultaneously due to unlimited heating, the energy major part of whole heating is made to distribute in the work environment, and the coating odor dispersion that heating process produces in the work environment, not only make amount of heat waste, and make working environment more severe, so be necessary to be improved existing printing machine, to reach the object of energy-conserving and environment-protective.
Summary of the invention
The object of the invention is to provide a kind of printed matter on polylith platen after printing is carried out concentrating heating, greatly can save electric energy, be conducive to waste gas to focus on, there is the high and energy saving and environment friendly many chromatographys automatic printing machine of one that is that can boost productivity of print quality.
In order to realize object of the present invention, the basis considering energy-conserving and environment-protective is designed to be moved linearly the energy saving and environment friendly many chromatographys automatic printing machine of one that locking device forms by pre-process parts, circular arc district platen moving device I, circular arc district platen moving device II, at least two group printing unit, at least two group drying units, bedplate component, frame, control assembly, platen, described pre-process parts are connected with first group of printing unit; Drying unit is provided with after often organizing printing unit; Circular arc district platen moving device I, circular arc district platen moving device II are separately positioned on the two ends of frame; Described printing unit is a general screen printing mechanism; Described drying unit be one be arranged on printing unit after there is the drying mechanism of hot air circulation, waste heat recovery, waste gas ejectment function; Described platen rectilinear movement locking device is separately positioned in the frame of printing unit corresponding position, and the horizontal linear realizing bedplate component moves.
Described pre-process parts are made up of the preposition locking mobile device of platen, support, support is provided with the preposition locking mobile device of platen, the preposition locking mobile device of described platen is made up of locking device, platen moving device, locking device is used for locking bedplate component, and platen moving device is used for promote table plate member and moves.
Described circular arc district platen moving device I is made up of circular arc district support I, arc guide rail I, circular arc rotating driving device I, and arc guide rail I is packed on circular arc district support I; Circular arc rotating driving device I is packed on circular arc district support I and also moves by drive table plate member.
Described circular arc district platen moving device II is made up of circular arc district support II, arc guide rail II, circular arc rotating driving device II, and arc guide rail II is packed on circular arc district support II; Circular arc rotating driving device II is packed on circular arc district support II and drive table plate member moves.
Described drying unit is made up of mobile device, heated air circulation device, waste-heat recovery device, waste gas ejectment device in casing, heater, decline conveying mechanism, rising conveying mechanism, drive unit, platen case, casing is made up of heating cabinet district, cooler bin district, heater to be arranged on casing and to be connected with heating cabinet district, and carries out air-supply circulation by heated air circulation device; Decline conveying mechanism is arranged in heating cabinet district; Rising conveying mechanism is arranged in cooler bin district; Drive unit is arranged on casing, is connected respectively with decline conveying mechanism, rising conveying mechanism; In platen case, mobile device is arranged on the bottom of casing, for moving in cooler bin district by the bedplate component in case by heating cabinet district; Heated air circulation device is arranged on casing; Described waste-heat recovery device is arranged on casing, makes the waste heat in casing be recycled in heater; Waste gas ejectment device is connected with the cooler bin district of casing.
Locking device in the preposition locking mobile device of platen in described pre-process parts is pneumatic structure form, electromagnetic location version one wherein; Platen moving device in the preposition locking mobile device of described platen is cylinder thrust unit, Timing Belt drive unit, chain gearing one wherein.
Circular arc rotating driving device I in described circular arc district platen moving device I is motor rotational structure form, pneumatic driving structure form one wherein.
Circular arc rotating driving device II in described circular arc district platen moving device II is motor rotational structure form, pneumatic driving structure form.
During work, cloth to be printed is pasted and is bonded on the platen of pre-process parts, and the printing coating that will print will be added in each printing unit; Under the effect of control assembly, the platen moving device of the preposition locking mobile device of the platen in pre-process parts drives bedplate component to move, then bedplate component is moved to the position of printing unit under the effect of platen rectilinear movement locking device; When bedplate component dislocation printing unit, through photo-electric control probe monitors, and transfer signals in control assembly, control assembly sends instruction, and the positioner in printing unit positions locking to platen, prints cloth on platen simultaneously; When unclamping bedplate component under the control at control assembly after printing unit printing terminates, and under the effect of platen rectilinear movement locking device bedplate component moved in drying unit inner chamber and dry, meanwhile next bedplate component moves to printing position, and start next round printing, continue to move into drying unit after completing printing, lastblock bedplate component then drives decline conveying mechanism bedplate component to be moved down under the effect of drive unit, and by bedplate component progressively dislocation bottom half under the effect of drive unit.Now by heater, the printed cloth in the bedplate component of some pieces of upper and lower arrangements is dried in casing; Along with the effect bedplate component of drive unit progressively moves down, move on to the bottom of casing, under the effect of bedplate component mobile device in platen case of bottom, platen is passed cooler bin district; Rising conveying mechanism is driven under drive unit effect, bedplate component is made progressively to be moved upwards up in the printing plane of printing unit, and station bedplate component being moved on to next printing unit under the effect of platen rectilinear movement locking device prints, go round and begin again and realize many topping printings, the working continuously of oven dry.When bedplate component moves on to complete machine two ends, under the effect of circular arc district platen moving device I and circular arc district platen moving device II, bedplate component direction is changed, thus make all bedplate component periodic duties; The conveying of the bedplate component of whole streamline forms a complete circulating conveyor chain, makes every block platen by certain beat, the direction synchronizing moving of specifying.The number of printing unit is determined as required.Bedplate component enters into bake oven device, first dries heating in heating cabinet district, then enters insulation cooling in cooler bin, makes the drying course of bedplate component be in a suitable temperature.Drying unit is provided with waste gas ejectment device, and the waste gas in drying unit is discharged and carried out focusing on designing by object; Drying unit is designed to its object of version of one subregion to reduce energy ezpenditure, and coating is effectively solidified on cloth and designs.
Advantage of the present invention is: because pre-process parts are provided with locking device, thus can lock bedplate component; Owing to being provided with platen rectilinear movement locking device, thus can conveniently move bedplate component; Because circular arc district platen moving device is designed to the independent version rotated, thus make bedplate component effectively turn to circulation at equipment two ends, make overall structure simple; Concentrate mode of heating bedplate component to be moved in bake oven device owing to adopting polylith platen to dry, effectively can prevent heat loss, thus greatly reduce energy consumption; Owing to extending the oven dry heat time of single platen, can corresponding reduction bake out temperature, decrease energy consumption, decrease the phenomenons such as the cracking of the coating after solidification and the aging jaundice of fabric, thus improve print quality; Owing to being focused on by waste gas when drying, thus decrease environmental pollution, improve the condition of work of production scene; Control owing to adopting computer to be combined with photoelectricity, automaticity is high, and work coordination reliably, and is convenient to maintenance, so there is very large practical and popularizing value.
Accompanying drawing explanation
Below with reference to accompanying drawing, the present invention is conducted further description:
Accompanying drawing 1 is the structural representation of a kind of energy saving and environment friendly many chromatographys automatic printing machine of the present invention;
Accompanying drawing 2 is that the A of accompanying drawing 1 is to structural representation;
Accompanying drawing 3 is structural representations of a kind of pre-process parts of energy saving and environment friendly many chromatographys automatic printing machine;
Accompanying drawing 4 is the structural representations along accompanying drawing 1B-B section;
Accompanying drawing 5 is structural representations of a kind of bedplate component of energy saving and environment friendly many chromatographys automatic printing machine.
Detailed description of the invention
With reference to accompanying drawing 1, accompanying drawing 2, accompanying drawing 3, accompanying drawing 4, accompanying drawing 5, energy saving and environment friendly many chromatographys automatic printing machine of the present invention is made up of pre-process parts 1, circular arc district platen moving device I 2, circular arc district platen moving device II 3, at least two group printing unit 4, at least two group drying unit 5, bedplate component 6, frame 7, control assembly 8, the platen locking device 9 that moves linearly, the present embodiment printing unit 4 is eight groups, drying unit eight groups, described pre-process parts 1 are connected with first group of printing unit 4, described pre-process parts 1 are by the preposition locking mobile device 11 of platen, support 12 forms, support 12 is provided with the preposition locking mobile device 11 of platen, the preposition locking mobile device 11 of described platen is by locking device 11a, platen moving device 11b forms, locking device 11a is used for locking bedplate component 6, platen moving device 11b is used for promote table plate member 6 and moves, described bedplate component 6 is by platen 6a, directive wheel 6b, locating piece I 6c, locating piece II 6d forms, directive wheel 6b is fixed on platen 6a, locating piece I 6c, locating piece II 6d, be arranged on platen 6a respectively, locking device 11a in the preposition locking mobile device 11 of platen in described pre-process parts 1 is pneumatic structure form, electromagnetic location version one wherein, and the locking device 11a of the present embodiment is pneumatic structure form, platen moving device 11b in the preposition locking mobile device 11 of described platen is cylinder thrust unit, Timing Belt drive unit, chain gearing one wherein, and the platen moving device 11b of the present embodiment is cylinder thrust unit, drying unit 5 is provided with after often organizing printing unit 4, circular arc district platen moving device I 2, circular arc district platen moving device II 3 are separately positioned on the two ends of frame 7, described circular arc district platen moving device I 2 is made up of circular arc district support I 21, arc guide rail I 22, circular arc rotating driving device I 23, and arc guide rail I 22 is packed on circular arc district support I 21, circular arc rotating driving device I 23 is packed on circular arc district support I 21 and drive table plate member 6 moves, circular arc rotating driving device I 23 in described circular arc district platen moving device I 2 is motor rotational structure form, pneumatic driving structure form one wherein, and the circular arc rotating driving device I 23 of the present embodiment is the version of pneumatic actuation, described circular arc district platen moving device II 3 is made up of circular arc district support II 31, arc guide rail II 32, circular arc rotating driving device II 33, and arc guide rail II 32 is packed on circular arc district support II 31, circular arc rotating driving device II 33 is packed on circular arc district support II 31 and also moves by drive table plate member 6, circular arc rotating driving device II 33 in described circular arc district platen moving device II 3 is motor rotational structure form, pneumatic driving structure form one wherein, and the circular arc rotating driving device II 33 of the present embodiment is the version of pneumatic actuation, described printing unit 4 is a general screen printing mechanism, described drying unit 5 is a drying mechanism being arranged on that printing unit 4 has hot air circulation, waste heat recovery, waste gas ejectment function afterwards, described drying unit 5 is made up of mobile device 56, heated air circulation device 57, waste-heat recovery device 58, waste gas ejectment device 59 in casing 51, heater 52, decline conveying mechanism 53, rising conveying mechanism 54, drive unit 55, platen case, casing 51 is made up of heating cabinet district 51a, cooler bin district 51b, heater 52 to be arranged on casing 51 and to be connected with heating cabinet district 51a, and carries out air-supply circulation by heated air circulation device 57, heater 52 can be electrical heating, steam heated, and can also be the mode of gas heating, the present embodiment adopts electrically heated mode to heat, decline conveying mechanism 53 is arranged in heating cabinet district 51a, rising conveying mechanism 54 is arranged in cooler bin district 51b, drive unit 55 is arranged on casing 51, is connected respectively with decline conveying mechanism 53, rising conveying mechanism 54, in platen case, mobile device 56 is arranged on the bottom of casing 51, for the bedplate component 6 in case is moved in cooler bin district 51b by heating cabinet district 51a, in platen case, mobile device 56 can be chain-drive version can be also the version of air cylinder driven, and the present embodiment adopts the version of pneumatic actuation, heated air circulation device 57 is arranged on casing 51, described waste-heat recovery device 58 is arranged on casing 51, makes the waste heat in casing 51 be recycled in heater 52, waste gas ejectment device 59 is connected with the cooler bin district 51b of casing 51, described platen rectilinear movement locking device 9 is separately positioned in the frame 7 of printing unit 4 corresponding position, and the horizontal linear realizing bedplate component 6 moves.
Claims (4)
1. energy saving and environment friendly many chromatographys automatic printing machine, be made up of pre-process parts (1), circular arc district platen moving device I (2), circular arc district platen moving device II (3), at least two group printing unit (4), at least two group drying units (5), bedplate component (6), frame (7), control assembly (8), platen rectilinear movement locking device (9), it is characterized in that: described pre-process parts (1) are connected with first group of printing unit (4); Drying unit (5) is provided with after often organizing printing unit (4); Circular arc district platen moving device I (2), circular arc district platen moving device II (3) are separately positioned on the two ends of frame (7); Described printing unit (4) is a general screen printing mechanism; Described drying unit (5) is a drying mechanism being arranged on that printing unit (4) has hot air circulation, waste heat recovery, waste gas ejectment function afterwards; Described platen rectilinear movement locking device (9) is separately positioned in the frame (7) of printing unit (4) corresponding position, and the horizontal linear realizing bedplate component (6) moves; Described pre-process parts (1) are made up of the preposition locking mobile device (11) of platen, support (12), support (12) is provided with the preposition locking mobile device (11) of platen, the preposition locking mobile device (11) of described platen is made up of locking device (11a), platen moving device (11b), locking device (11a) is for locking bedplate component (6), and platen moving device (11b) moves for promote table plate member (6); Described circular arc district platen moving device I (2) is made up of circular arc district support I (21), arc guide rail I (22), circular arc rotating driving device I (23), and arc guide rail I (22) is packed on circular arc district support I (21); Circular arc rotating driving device I (23) is packed in the upper also drive table plate member (6) of circular arc district support I (21) and moves; Described circular arc district platen moving device II (3) is made up of circular arc district support II (31), arc guide rail II (32), circular arc rotating driving device II (33), and arc guide rail II (32) is packed on circular arc district support II (31); Circular arc rotating driving device II (33) is packed in the upper also drive table plate member (6) of circular arc district support II (31) and moves; Described drying unit (5) is made up of mobile device (56), heated air circulation device (57), waste-heat recovery device (58), waste gas ejectment device (59) in casing (51), heater (52), decline conveying mechanism (53), rising conveying mechanism (54), drive unit (55), platen case, casing (51) is made up of heating cabinet district (51a), cooler bin district (51b), heater (52) is arranged on casing (51) and goes up and be connected with heating cabinet district (51a), and carries out air-supply circulation by heated air circulation device (57); Decline conveying mechanism (53) is arranged in heating cabinet district (51a); Rising conveying mechanism (54) is arranged in cooler bin district (51b); Drive unit (55) is arranged on casing (51), is connected respectively with decline conveying mechanism (53), rising conveying mechanism (54); In platen case, mobile device (56) is arranged on the bottom of casing (51), for moving in cooler bin district (51b) by the bedplate component (6) in case by heating cabinet district (51a); Heated air circulation device (57) is arranged on casing (51); Described waste-heat recovery device (58) is arranged on casing (51), makes the waste heat in casing (51) be recycled in heater (52); Waste gas ejectment device (59) is connected with the cooler bin district (51b) of casing (51).
2. the energy saving and environment friendly many chromatographys automatic printing machine of one according to claim 1, is characterized in that: the locking device (11a) in the preposition locking mobile device (11) of the platen in described pre-process parts (1) is pneumatic structure form, electromagnetic location version one wherein; Platen moving device (11b) in the preposition locking mobile device (11) of described platen is cylinder thrust unit, Timing Belt drive unit, chain gearing one wherein.
3. the energy saving and environment friendly many chromatographys automatic printing machine of one according to claim 1, is characterized in that: the version that the circular arc rotating driving device I (23) in described circular arc district platen moving device I (2) rotates for motor, pneumatic driving structure form one wherein.
4. the energy saving and environment friendly many chromatographys automatic printing machine of one according to claim 1, is characterized in that: the circular arc rotating driving device II (33) in described circular arc district platen moving device II (3) is motor rotational structure form, pneumatic driving structure form one wherein.
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CN201210034896.6A CN102729592B (en) | 2011-04-01 | 2012-02-16 | A kind of energy saving and environment friendly many chromatographys automatic printing machine |
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CN201110081643 | 2011-04-01 | ||
CN201110081643.X | 2011-04-01 | ||
CN201210034896.6A CN102729592B (en) | 2011-04-01 | 2012-02-16 | A kind of energy saving and environment friendly many chromatographys automatic printing machine |
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CN102729592B true CN102729592B (en) | 2016-01-13 |
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CN104071986A (en) * | 2013-03-29 | 2014-10-01 | 南通繁华玻璃金属制品有限公司 | Multichannel automatic printing streamline for silk printing glass |
CN108819458A (en) * | 2018-06-06 | 2018-11-16 | 东莞市名菱工业自动化科技有限公司 | A kind of Full-automatic colorful screen printer machine |
CN109028871A (en) * | 2018-06-29 | 2018-12-18 | 苏州极数印花科技有限公司 | A kind of new type auto drying printing machine |
CN110014729B (en) * | 2019-04-26 | 2023-08-08 | 邱德强 | Drying mode and conveying mode of single-color or multi-color automatic printing machine |
CN110481148A (en) * | 2019-09-02 | 2019-11-22 | 明门(中国)幼童用品有限公司 | Print product plan and the printing process using the system |
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