CN216183579U - Single-layer type soft plate printing machine - Google Patents

Abstract

The utility model discloses a single-layer type soft plate printing machine, and relates to the technical field of printing and processing. The printing device comprises an unwinding assembly, a printing assembly, a winding assembly and a drying assembly, wherein one side of the unwinding assembly is provided with the printing assembly, the inner side of the printing assembly is clamped with a stamping roller, the printing assembly is positioned on one side of the unwinding assembly and is attached with an arc-shaped ink outlet, the upper end of the inner side of the printing assembly is fixedly welded with a drying box, the printing assembly is provided with the winding assembly opposite to the other end of the unwinding assembly, the upper ends of the unwinding assembly, the printing assembly and the winding assembly are fixedly screwed with the drying assembly, and the inner side of the drying assembly is fixedly screwed with a UV curing lamp. The utility model solves the problems that the roller replacement is time-consuming and labor-consuming, the production cost is higher, the printing pattern is easy to wear after being used for multiple times, the universality is lower and the drying efficiency is poor when the printing stock is dried in the printing process of the traditional flexible printing machine through the unreeling component, the printing component, the reeling component and the drying component.

Description

Single-layer type soft plate printing machine

Technical Field

The utility model belongs to the technical field of printing processing, and particularly relates to a single-layer type flexible plate printing machine.

Background

The modern printing machine is generally composed of mechanisms of plate loading, ink coating, impression, paper feeding and the like, and the working principle of the modern printing machine is that characters and images to be printed are made into a printing plate and then are loaded on the printing machine, then ink is coated on the position of the printing plate with the characters and the images by manpower or the printing machine, and then the printing plate is directly or indirectly transferred to paper or other printing stocks (such as textiles, metal plates, plastic, leather, wood plates, glass, ceramics and the like), so that the printed matters identical to the printing plate are copied, and the common printing machine on the market is divided into: the flexographic printing machine is favored by printing companies by the advantages of simple specific machine structure, strong material adaptability, small imprinting force, low printing cost, good quality of printed products and the like, but still has the following disadvantages in practical use:

1. in the printing process of the existing flexible plate printing machine, ink in an ink box is generally conducted through an anilox roller and then is transmitted to the upper side of a plate roller to print a printing stock, but because a plurality of mesh holes are formed in the upper side of the anilox roller, the ink can be blocked in the mesh holes after long-time use and is difficult to clean, the ink guiding efficiency of the anilox roller is reduced, the quality of a printed product is finally poor, patterns on the plate roller are generally fixed, the plate roller is generally required to be replaced when different patterns are printed, the assembly and disassembly are time-consuming and labor-consuming, the production cost of the plate roller is high, the production expense is greatly increased when different patterns are printed, the plate roller is not convenient to clean after use, patterns engraved on the surface of the plate roller are likely to be abraded after multiple times of cleaning, and the service life of the plate roller is reduced;

2. the existing flexible plate printing machine is used for ensuring that a pattern printed at the previous time does not influence the printing efficiency of the next time and ensuring the quality of a final silver product, generally, drying treatment needs to be carried out on a printing stock after printing is finished at every time, the existing flexible plate printing machine is usually dried by heating or cured by a UV curing lamp, the existing flexible plate printing machine can only dry and cure specific types of printing ink, the universality is poor, the heating and drying can cause the shrinkage and curling of the printing stock due to high temperature, the UV curing lamp can cause great discount on the drying and curing effect due to poor production environment in the curing process, and the production efficiency is reduced.

Therefore, the existing single-layer flexible plate printing machine cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a single-layer type flexible plate printing machine, which solves the problems that in the printing process of the existing flexible plate printing machine, printing ink can be solidified and blocked in an anilox hole of an anilox roller to cause the reduction of printing quality, a printing roller is time-consuming and labor-consuming to replace when different patterns are printed, the production cost is greatly increased due to the high production cost of the printing roller, the abrasion of engraved printing patterns can be caused due to the repeated cleaning of the printing roller, the service life of the printing roller is reduced, and the printing material is dried by the flexible plate printing machine, so that the universality is low and the drying efficiency is low.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to a single-layer flexible plate printing machine, which comprises an unreeling component, a printing component, a reeling component and a drying component, wherein the printing component is arranged on one side of the unreeling component, a printing stock can be stably unreeled through the unreeling component, the stability of printing speed is ensured, a stamping roller is clamped on the inner side of the printing component, a flexible printing plate is clamped and fixed on the outer peripheral surface of the stamping roller, when patterns are required to be printed, the flexible printing plate with corresponding patterns is clamped on the outer side of the stamping roller, the printing can be quickly printed, the replacement efficiency of the printed patterns is greatly improved, the cost of the flexible printing plate is low compared with that of the flexible printing plate directly carving the patterns on the printing roller, the flexible printing plate is convenient to clean, the production efficiency is improved, an arc-shaped ink outlet is jointed on one side of the unreeling component of the printing component, the arc-shaped ink outlet is jointed on the outer side of the flexible printing plate, and the excessive ink remained on the surface of the flexible printing plate can be avoided by the upward rotation of the stamping roller at one end of the arc-shaped ink outlet, the printing efficiency is improved, the upper end of the inner side of the printing assembly is fixedly welded with a drying box, the printed matter can be heated and dried through the drying box, the air flow in the drying box can be accelerated through the drying assembly, the shrinkage of a printing stock caused by overheating is avoided, the production efficiency is improved, the printing assembly is provided with a winding assembly relative to the other end of the unwinding assembly, the printed matter can be stably wound through the winding assembly in cooperation with the moving speed of other structures of the printing machine, the drying assembly is fixedly connected to the upper ends of the unwinding assembly, the printing assembly and the winding assembly, the UV curing lamp is fixedly connected to the inner side of the drying assembly in a screwing mode, the printing stock can be dedusted through the drying assembly when not printing, the printed product is not clear due to dust, the production environment is dedusted, the production efficiency is improved, and the drying and curing efficiency of the UV curing lamp is ensured, the UV curing lamp can be used for curing the corresponding printing ink, so that the universality of the printing ink is greatly improved.

Further, it has first support frame to unreel inboard both ends joint of subassembly, first support frame one end is run through and has been connect soon first fixed disk, two the inboard joint of first support frame has unreel the roller, it is fixed with first control panel to unreel subassembly one end joint, it runs through and has seted up first thermovent to unreel the subassembly both sides, unreels the inside servo motor that is provided with of subassembly, can drive the speed of unreeling roller cooperation printing through servo motor and unreel, guarantees the printing quality, can be fast with unreeling the roller joint between two first support frames through first fixed disk, and loading and unloading are convenient, reduce staff's intensity of labour, can dispel the heat to unreeling the subassembly inboard through first thermovent, and the extension unreels the life of subassembly.

Furthermore, an access door is connected to one end of the printing assembly in a clamped manner, a second control panel is connected to one side of the printing assembly in a clamped manner, a guide roller is connected to the inner side of the printing assembly in a clamped manner, water pumps are connected to the bottom end of the arc-shaped ink outlet in a clamped manner, an ink tank penetrates through the joints between the two water pumps, the arc-shaped ink outlet is attached to the outer peripheral surface of the flexible printing plate, a worker can conveniently and periodically overhaul the printing assembly through the access door, the service life of the printing assembly is prolonged, the moving direction of a printing stock can be adjusted through the guide roller, the looseness of the printing stock during printing is guaranteed, poor printing quality caused by excessive looseness is avoided, ink in the ink tank is filled between the arc-shaped ink outlet and the flexible printing plate through the water pumps, and when the embossing roller rotates upwards at one end of the arc-shaped ink outlet, redundant ink between the flexible printing plate and the arc-shaped ink outlet can flow downwards along with gravity, the phenomenon that the printing ink on the surface of the flexible printing plate is too much to cause unclear printing is avoided, and the printing efficiency is improved.

Furthermore, a positioning roller is clamped on the inner side of the printing component, the positioning roller is attached to the upper side of a flexible printing plate, a clamping block is fixed on the inner side of the flexible printing plate, a clamping groove is formed in the outer peripheral surface of the stamping roller, the flexible printing plate is clamped on the outer peripheral surface of the stamping roller through the clamping block, the clamping block is clamped on the inner side of the clamping groove, an ink leakage disc is clamped at the bottom end of the inner side of the printing component and is positioned on the lower side of the stamping roller, an air cylinder is arranged at one end of the positioning roller, the positioning roller can be moved up and down through the air cylinder, the upper side of a printing stock is pressed through the positioning roller in the printing process, the full contact between the printing stock and the flexible printing plate can be guaranteed, the printing efficiency is guaranteed, a servo motor is clamped and fixed at one end of the stamping roller, the stamping roller can be driven to rotate at a stable speed through the servo motor, and the flexible printing plate clamped on the outer peripheral surface of the stamping roller can be quickly replaced according to printed patterns, need not carry out the holistic change of embossing roll, the loading and unloading efficiency is high, be convenient for wash, reduce staff's intensity of labour, and flexographic printing plate cost is lower, be difficult for leading to the wearing and tearing of pattern at abluent in-process, reduce the production spending, the surplus printing ink in flexographic printing plate surface falls into hourglass china ink dish upside under the effect of gravity, it runs through on one side of the china ink dish and has seted up the through-hole to leak, the through-hole is located the china ink groove upside, unnecessary printing ink falls back the china ink inslot through the through-hole and removes to the flexographic printing plate surface through the water pump once more, improve the utilization ratio of printing ink, reduce the spending.

Further, stoving bottom of the case end runs through and has seted up the pan feeding mouth, stoving case upper end runs through and has seted up the discharge gate, stoving incasement side joint is fixed with the hot plate, stoving case one end runs through the joint and has communicating pipe, and the stock that prints passes through the pan feeding mouth and gets into stoving incasement side, and the stock that adopts water base or solvent type printing ink can carry out the drying by heating through the hot plate of stoving incasement, and the air that blows off through the communicating pipe can be with higher speed the flow of stoving incasement air, avoids the stock overheated and curl and the shrink, improves printed matter quality, and the stock after the stoving can remove through the discharge gate and print or receive the material subassembly and receive the material to next printing subassembly.

Further, the inboard both ends joint of rolling subassembly has the second support frame, second support frame one end is run through and has been connect the second fixed disk soon, two the joint has the wind-up roll between the second support frame, rolling subassembly one end joint is fixed with third control panel, the second thermovent has been seted up in the running through of rolling subassembly both sides, is provided with servo motor in the rolling subassembly, can drive the stable rotation of wind-up roll through servo motor, guarantees winding speed and unwinding speed, printing speed unanimity, avoids because the winding speed leads to the printing quality not good at the excessive speed, can dispel the heat to the rolling subassembly through the second thermovent, avoids overheated leading to damaging.

Furthermore, a moving groove is arranged at the bottom end of the drying component, positioning rods are clamped and fixed at two ends of the inner side of the moving groove, the UV curing lamp is screwed and fixed at the inner side of the moving groove, the UV curing lamp is positioned at the upper side of the positioning rods, the upper end of a communicating pipe of the drying box is communicated with the inner side of the drying component in a penetrating manner, a fan and a dust removal filter screen are arranged in the drying component, when a printing stock moves in the moving groove, the moving direction of the printing stock can be calibrated through the positioning rods, a vent is arranged at the top end of the moving groove, dust on the surface of the printing stock can be sucked into the inner side of the drying component through the vent for filtering, poor printing quality caused by the dust is avoided, dust in an environment can be filtered, the influence of the dust on the curing of the UV curing lamp is avoided, the printing stock adopting UV or UV/EB flexible printing ink is cured through the UV curing lamp, and the universality of the utility model is greatly improved, meanwhile, the fan in the drying assembly can operate to accelerate the flow of air in the drying box through the heating pipe, damage to printing materials caused by overheating in the drying box is avoided, and drying efficiency is improved.

The utility model has the following beneficial effects:

1. the utility model solves the problems that the prior soft plate printing machine usually conducts ink in an ink box through an anilox roller and then transfers the ink to the upper side of a plate roller to print a printing stock in the printing process by arranging a printing component, but because a plurality of mesh holes are formed in the upper side of the anilox roller, the ink is blocked in the mesh holes after long-time use and is difficult to clean, the ink guiding efficiency of the anilox roller is reduced, the quality of a printed product is not good, patterns on the plate roller are generally fixed, the plate roller is usually required to be replaced when different patterns are printed, the assembly and disassembly are time-consuming and labor-consuming, the production cost of the plate roller is higher, the production expenditure is greatly increased when different patterns are printed, the plate roller is inconvenient to clean after use, patterns engraved on the surface of the plate are possibly abraded after being cleaned for a plurality of times, and the service life of the plate roller is shortened, can avoid leading the in-process of china ink through arc ink outlet, the too much attached to flexographic printing plate surface of printing ink, unnecessary printing ink can flow back to the china ink inslot and use once more, improve the utilization ratio of printing ink, reduce the production spending, flexographic printing plate can be changed according to the required speed of printing, need not carry out the dismouting to the embossing roller, improve handling efficiency, and the reduction in production cost, and flexographic printing plate is because its surface can buckle, be convenient for wash for metal version roller, the glyptic pattern in difficult wearing and tearing surface, the service life of pattern has been prolonged.

2. The utility model solves the problems that the prior soft plate printing machine needs to carry out drying treatment on the printing stock after finishing each printing in order to ensure that the pattern printed at the previous time does not influence the printing efficiency of the next time and ensure the quality of the final silver product in the printing process by arranging the printing component and the drying component, the drying mode of the prior soft plate printing machine is usually heating drying or UV curing lamp curing, the prior soft plate printing machine can only carry out drying and curing on specific types of printing ink, the universality is poor, the heating drying can cause the shrinkage and curling of the printing stock due to higher temperature, the UV curing lamp can cause great reduction of the drying and curing effect due to poor production environment in the curing process, and the production efficiency is reduced, the water-based or solvent-based printing ink can be dried by the drying box, and the UV or UV/EB soft printing ink can be dried by the UV curing lamp, the universality of the utility model is improved, the drying component can filter dust on the surface of the printing stock and in the environment, and meanwhile, the drying box can avoid overheating, thus ensuring the printing and drying efficiency.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a structural effect diagram of the present invention;

FIG. 2 is a schematic view of the unwinding assembly of the present invention;

FIG. 3 is a right side view of the printing element of the present invention;

FIG. 4 is a left side view of the printing element of the present invention;

FIG. 5 is a structural view of the platen roller of the present invention;

FIG. 6 is a schematic view of a take-up assembly of the present invention;

fig. 7 is a block diagram of a drying assembly of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. an unwinding assembly; 101. a first support frame; 102. unwinding rollers; 103. a first control panel; 104. a first heat dissipation port; 105. a first fixed disk; 2. a printing assembly; 201. an access door; 202. a water pump; 203. an ink tank; 204. an arc-shaped ink outlet; 205. a guide roller; 206. a second control panel; 207. a platen roller; 208. a positioning roller; 209. an ink leakage disc; 210. a drying box; 211. a communicating pipe; 212. heating plates; 213. a discharge port; 214. a card slot; 215. a flexible printed board; 216. a clamping block; 217. a feeding port; 3. a winding component; 301. a wind-up roll; 302. a second fixed disk; 303. a third control panel; 304. a second heat dissipation port; 305. a second support frame; 4. a drying assembly; 401. a moving groove; 402. a UV curing lamp; 403. and (5) positioning the rod.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 7, the present invention is a single-layer flexible printing press, including an unwinding assembly 1, a printing assembly 2, a winding assembly 3 and a drying assembly 4, wherein the printing assembly 2 is disposed on one side of the unwinding assembly 1, the unwinding assembly 1 can stably unwind a printing material and match the printing speed and the winding speed, a stamping roller 207 is fastened on the inner side of the printing assembly 2, a flexible printing plate 215 is fastened and fixed on the outer peripheral surface of the stamping roller 207, when a pattern is to be printed, the flexible printing plate 215 with a corresponding pattern is fastened and fixed on the outer side of the stamping roller 207, the flexible printing plate 215 has a low cost relative to the pattern directly engraved on a plate roller, and is convenient to clean, the printing assembly 2 is attached with an arc-shaped ink outlet 204 on one side of the unwinding assembly 1, the arc-shaped ink outlet 204 is attached to the outer side of the flexible printing plate 215, and the printing plate 207 rotates upward at one end of the arc-shaped ink outlet 204 to prevent ink retained on the surface of the flexible printing plate 215 Too much, the drying box 210 is welded and fixed at the upper end of the inner side of the printing component 2, the printed matter can be heated and dried through the drying box 210, the air flow in the drying box 210 can be accelerated through the drying component 4, the contraction of printing stocks caused by overheating is avoided, the other end of the printing component 2, which is opposite to the unreeling component 1, is provided with the reeling component 3, the moving speed of other structures of the utility model can be matched through the reeling component 4, the printed presswork is stably rolled, the upper ends of the unreeling component 1, the printing component 2 and the reeling component 3 are fixedly screwed with a drying component 4, the inner side of the drying component 4 is fixedly screwed with a UV curing lamp 402, the drying component 4 can remove dust when the printing stock does not start to be printed, thereby avoiding the unclear printing finished product caused by dust, and remove dust to the production environment, guarantee UV curing lamp 402 drying solidification efficiency, can solidify corresponding printing ink through UV curing lamp 402.

As shown in fig. 1, 2, 3, and 5, the first support frames 101 are fastened to two ends of the inner side of the unwinding assembly 1, the first fixing tray 105 is screwed through one end of the first support frame 101, the unwinding roller 102 is fastened to the inner sides of the two first support frames 101, the first control panel 103 is fastened to one end of the unwinding assembly 1, the first heat dissipating port 104 is fastened to two sides of the unwinding assembly 1, the access door 201 is fastened to one end of the printing assembly 2, the second control panel 206 is fastened to one side of the printing assembly 2, the guide roller 205 is fastened to the inner side of the printing assembly 2, the water pump 202 is fastened to the bottom end of the arc ink outlet 204, the ink slot 203 is fastened between the two water pumps 202, the arc ink outlet 204 is attached to the outer peripheral surface of the flexible printed board 215, the positioning roller 208 is fastened to the inner side of the printing assembly 2, the positioning roller 208 is attached to the upper side of the flexible printed board 215, and the fixture block 216 is fixed to the inner side of the flexible printed board 215, the peripheral surface of the stamping roller 207 is provided with a clamping groove 214, the flexible printing plate 215 is clamped on the peripheral surface of the stamping roller 207 through a clamping block 216, the clamping block 216 is clamped on the inner side of the clamping groove 214, the bottom end of the inner side of the printing component 2 is clamped with an ink leakage disc 209, the ink leakage disc 209 is positioned on the lower side of the stamping roller 207, a servo motor is arranged in the unwinding component 1, the unwinding roller 102 can be driven by the servo motor to be unwound in a manner of matching with the printing speed, the unwinding roller 102 can be quickly clamped between two first supporting frames 101 through a first fixing disc 105, the labor intensity of workers is reduced, the inner side of the unwinding component 1 can be subjected to heat dissipation through a first heat dissipation port 104, a printing stock entering the printing component 2 is adjusted in the moving direction through a guide roller 205, the loosening degree of the printing stock during printing is adjusted, poor printing quality caused by over loosening is avoided, one end of a positioning roller 208 is provided with an air cylinder, the positioning roller 208 can be moved up and down through the air cylinder, the upper side of the printing stock is pressed through the positioning roller 208 in the printing process, so that the printing stock can be fully contacted with the flexible printing plate 215, a servo motor is fixed at one end of the printing roll 207 in a clamping manner, the printing roll 207 can be driven to rotate at a stable speed through the servo motor, the flexible printing plate 215 clamped on the outer peripheral surface of the printing roll 207 can be rapidly replaced according to a printed pattern, the whole replacement of the printing roll 207 is not required, the labor intensity of workers is reduced, the flexible printing plate 215 is low in cost, the pattern is not easy to wear in the cleaning process, the production expenditure is reduced, ink in the ink tank 203 is filled between the arc-shaped ink outlet 204 and the flexible printing plate 215 through the water pump 202, when the printing roll 207 rotates upwards at one end of the arc-shaped ink outlet 204, redundant ink between the flexible printing plate 215 and the arc-shaped ink outlet 204 can flow downwards along with gravity, avoid flexographic printing plate 215 surface printing ink too much to lead to unclear, unnecessary printing ink falls into hourglass china ink dish 209 upside, leaks china ink dish 209 one side and runs through and seted up the through-hole, and the through-hole is located china ink groove 203 upside, and unnecessary printing ink flows back to china ink groove 203 through the through-hole and removes to flexographic printing plate 215 surface through water pump 202 once more, reduces the spending, can be convenient for the staff through access door 201 and carry out regular maintenance to printing module 2.

As shown in fig. 1, 4, 6, and 7, a feeding port 217 is formed at the bottom end of the drying box 210 in a penetrating manner, a discharging port 213 is formed at the upper end of the drying box 210 in a penetrating manner, a heating plate 212 is fixed at the inner side of the drying box 210 in a clamping manner, a communicating pipe 211 is formed at one end of the drying box 210 in a penetrating manner, second support frames 305 are clamped at the two ends of the inner side of the winding assembly 3 in a penetrating manner, one end of each second support frame 305 is connected with a second fixed disc 302 in a penetrating manner, a winding roller 301 is clamped between the two second support frames 305, a third control panel 303 is clamped at one end of the winding assembly 3 in a clamping manner, second heat dissipation ports 304 are formed at the two sides of the winding assembly 3 in a penetrating manner, a moving groove 401 is formed at the bottom end of the drying assembly 4, positioning rods 403 are clamped and fixed at the two ends of the inner side of the moving groove 401 in a rotating manner, a UV curing lamp 402 is fixed at the inner side of the moving groove 401 in a rotating manner, the UV curing lamp 402 is positioned at the upper side of the positioning rods 403, the upper end of the communicating pipe 211 of the drying box 210 is communicated with the inner side of the drying assembly 4 in a penetrating manner, printed printing stock enters the inner side of the drying box 210 through the feeding port 217, the printing stock adopting water-based or solvent-based ink can be heated and dried through the heating plate 212 in the drying box 210, the air blown out from the communicating pipe 211 can accelerate the flow of the air in the drying box 210, the curling and the contraction of the printing stock due to overheating are avoided, the dried printing stock can move to the next printing component 2 through the discharging port 213 to be printed or the material receiving component 3 is used for receiving the material, a fan and a filter screen for dust removal are arranged in the drying component 4, the moving direction of the printing stock can be calibrated through the positioning rod 403 when the printing stock moves in the moving tank 401, the top end of the moving tank 401 is provided with a vent, the dust on the surface of the printing stock can be sucked into the inner side of the drying component 4 through the vent to be filtered, the problem that the printing quality is poor due to the dust is avoided, and the dust in the environment can be filtered, avoid the dust to cause the influence to the solidification of UV curing lamp 402, the stock that adopts UV or UV EB flexo printing ink removes the in-process in shifting chute 401 and solidifies through UV curing lamp 402, be provided with servo motor in the rolling subassembly 3, can drive the stable rotation of wind-up roll 301 through servo motor, guarantee the rolling speed and unreel speed, the printing speed is unanimous, avoid because the rolling speed leads to the printing quality not good at the excessive speed, can dispel the heat to rolling subassembly 3 through second thermovent 304, avoid overheated leading to damaging.

One specific application of this embodiment is: the first fixing disc 105 is rotated, the unwinding roller 102 is taken down, the printing stock is sleeved on the outer surface of the unwinding roller 102, the unwinding roller 102 is clamped between the two first supporting frames 101, the first fixing disc 105 is rotated reversely to position the unwinding roller 102, the corresponding flexible printing plate 215 is clamped on the outer peripheral surface of the stamping roller 207 through the clamping block 216 according to the pattern to be printed, the whole stamping roller 207 does not need to be replaced, the loading and unloading efficiency is high, the cleaning is convenient, the labor intensity of workers is reduced, the cost of the flexible printing plate 215 is low, the pattern is not easy to wear in the cleaning process, the production expense is reduced, the servo motor drives the unwinding roller 102, the stamping roller 207 and the winding roller 301 to rotate in the same speed and the same direction, the stability in the printing process is ensured, and the situation that the printed pattern is unclear due to different rotating speeds is avoided, one end of a printing stock is oriented and moved to the upper end of a first printing assembly 2 through a positioning rod 403, the direction of the printing stock is adjusted through a guide roller 205, the looseness degree of the printing stock in the printing process is improved, poor printing quality caused by over-looseness is avoided, the printing stock is attached to the upper side of a flexible printing plate 215, a positioning roller 208 is controlled by a second control panel 206 to move downwards and be attached to the upper side of the printing stock, the lower end of the printing stock is fully attached to the flexible printing plate 215, the printing efficiency is ensured, one end of the printing stock passes through a material inlet 217 and a material outlet 213, is reversed through the positioning rod 403 and moves to a next printing assembly 2, is finally attached to the outer peripheral surface of a winding roller 301, a drying assembly 4 is started, air in a production environment can be driven to flow through a fan, dust in the environment is filtered through a filter screen in the drying assembly 4, and poor printing quality caused by the dust is avoided, adjusting the power of a water pump 202 according to the type of the printed ink, starting a drying box 210 or a UV curing lamp 402, filling the ink in an ink tank 203 into a space between a flexible printing plate 215 and an arc-shaped ink outlet 204 by the water pump 202, when an embossing roller 207 rotates upwards at one end of the arc-shaped ink outlet 204, enabling the redundant ink between the flexible printing plate 215 and the arc-shaped ink outlet 204 to flow downwards along with gravity, avoiding unclear printed patterns caused by excessive ink on the surface of the flexible printing plate 215, enabling the redundant ink on the surface of the flexible printing plate 215 to fall onto an upper side of an ink leakage disc 209, enabling a through hole to penetrate through one side of the ink leakage disc 209 and be located on the upper side of the ink tank 203, enabling the redundant ink to flow back into the ink tank 203 through the through hole and move to the surface of the flexible printing plate 215 through the water pump 202 again, improving the utilization rate of the ink, reducing the expenditure, enabling the ink to be transferred to the surface of a printing stock through an embossing roller 207, and after the patterns are printed, when the ink is water-based or solvent-based, the heating plate 212 can heat and dry ink, the temperature in the drying box 210 can be reduced through clean air blown out by the communicating pipe 211, damage of printing stocks due to overheating is avoided, when the ink is UV or UV/EB flexible printing ink, the printing stocks moving in the moving groove 401 are solidified through the UV curing lamp 402, the universality of the utility model is greatly improved, after multiple times of printing, printed matters are rolled through the rolling roller 301, the first heat dissipation port 104 and the second heat dissipation port 304 can dissipate heat in the unwinding assembly 1 and the winding assembly 3, damage of the printed matters due to overheating is avoided, regular maintenance can be carried out on the interior of the printing assembly 2 by opening the maintenance door 201, and the service life of the utility model is prolonged.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (7)

1. The utility model provides a soft version printing machine of individual layer formula, includes unreels subassembly (1), printing element (2), rolling subassembly (3) and drying assembly (4), its characterized in that: unreel subassembly (1) one side and be provided with printing module (2), printing module (2) inboard joint has impression roller (207), impression roller (207) outer peripheral face joint is fixed with flexographic printing board (215), printing module (2) are located to unreel subassembly (1) one side laminating and have arc ink outlet (204), printing module (2) inboard upper end welded fastening has stoving case (210), printing module (2) are provided with rolling component (3) for unreeling subassembly (1) the other end, it is fixed with drying assembly (4) to unreel subassembly (1), printing module (2) and rolling component (3) upper end soon, drying assembly (4) inboard connects soon and is fixed with UV curing lamp (402).

2. The single-layer soft printing machine according to claim 1, wherein the first support frames (101) are fastened to two inner ends of the unwinding assembly (1), one end of each first support frame (101) is rotatably connected with a first fixed disc (105) in a penetrating manner, the unwinding rollers (102) are fastened to two inner sides of the first support frames (101), one end of the unwinding assembly (1) is fixedly connected with a first control panel (103) in a clamping manner, and first heat dissipation ports (104) are formed in two sides of the unwinding assembly (1) in a penetrating manner.

3. The single-layer soft plate printing machine according to claim 1, wherein an access door (201) is clamped at one end of the printing assembly (2), a second control panel (206) is clamped and fixed at one side of the printing assembly (2), a guide roller (205) is clamped and connected at the inner side of the printing assembly (2), a water pump (202) is clamped and fixed at the bottom end of the arc-shaped ink outlet (204), an ink groove (203) is formed between the water pumps (202) in a penetrating and clamping mode, and the arc-shaped ink outlet (204) is attached to the outer peripheral surface of the flexible printing plate (215).

4. The single-layer soft plate printing machine as claimed in claim 1, wherein a positioning roller (208) is clamped on the inner side of the printing assembly (2), the positioning roller (208) is attached to the upper side of a flexible printing plate (215), a clamping block (216) is fixed on the inner side of the flexible printing plate (215), a clamping groove (214) is formed in the outer peripheral surface of the pressing roller (207), the flexible printing plate (215) is clamped on the outer peripheral surface of the pressing roller (207) through the clamping block (216), the clamping block (216) is clamped on the inner side of the clamping groove (214), an ink leakage disc (209) is clamped at the bottom end of the inner side of the printing assembly (2), and the ink leakage disc (209) is located on the lower side of the pressing roller (207).

5. The single-layer flexible plate printing machine as claimed in claim 1, wherein a feeding port (217) is formed through the bottom end of the drying box (210), a discharging port (213) is formed through the upper end of the drying box (210), a heating plate (212) is fixed to the inner side of the drying box (210) in a clamping manner, and a communicating pipe (211) is connected to one end of the drying box (210) in a clamping manner.

6. The single-layer flexible plate printing machine as claimed in claim 1, wherein second supporting frames (305) are fastened to two ends of the inner side of the winding assembly (3), one end of each second supporting frame (305) is screwed with a second fixed plate (302) in a penetrating manner, a winding roller (301) is fastened between the two second supporting frames (305), a third control panel (303) is fastened to one end of the winding assembly (3) in a clamping manner, and second heat dissipation ports (304) are formed in two sides of the winding assembly (3) in a penetrating manner.

7. The single-layer soft plate printing machine according to claim 1, wherein a moving groove (401) is formed in the bottom end of the drying assembly (4), positioning rods (403) are fixed to two ends of the inner side of the moving groove (401) in a clamped mode, the UV curing lamp (402) is fixed to the inner side of the moving groove (401) in a screwed mode, the UV curing lamp (402) is located on the upper side of the positioning rods (403), and the upper end of a communicating pipe (211) of the drying box (210) is communicated with the inner side of the drying assembly (4) in a penetrating mode.

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