CN117162654A

CN117162654A - Electronic cloth icon printing device

Info

Publication number: CN117162654A
Application number: CN202311326182.7A
Authority: CN
Inventors: 张国平; 黄梅; 邓文斌; 刘远明
Original assignee: Kai Rongde Shaoguan Fiberglass Co ltd
Current assignee: Kai Rongde Shaoguan Fiberglass Co ltd
Priority date: 2023-10-13
Filing date: 2023-10-13
Publication date: 2023-12-05
Anticipated expiration: 2043-10-13
Also published as: CN117162654B

Abstract

The invention belongs to the technical field of electronic cloth processing, in particular to an electronic layout marking device which comprises a device base, wherein the device base is provided with a plurality of electronic layout marking grooves; the top end of the middle part of the device base is fixedly connected with a printing box; an ink storage cavity is formed in the printing box; the inside of the printing box is positioned below the ink storage cavity and is rotationally connected with a guide wheel; through the electronic cloth rotation of a roller and a roller laminating of No. two that set up, drive printing mould and be stained with black to the electronic cloth printing icon, constantly repel No. two magnetic path and slide with No. one magnetic path, drive the quantitative board and slide in depositing the interior volume overflow ink material of black chamber, play the effect to the downflow of black ration, utilize two material rollers to rotate respectively on two support frames, play the effect to the electronic cloth receive and release material, rely on a fixture block and No. two fixture blocks to the both ends joint of material roller respectively, play the effect to the assembly of material roller, utilize lantern ring and printing mould cooperation extrusion printing, improve the printing effect of electronic cloth icon.

Description

Electronic cloth icon printing device

Technical Field

The invention belongs to the technical field of electronic cloth processing, and particularly relates to an electronic cloth icon printing device.

Background

The electronic cloth is also called as electronic glass fiber cloth, is an essential basic source material in industries such as electronic information, aerospace and the like, almost appears in each electronic component, and is spread in various fields of national economy and national defense and military industry.

The electronic glass fiber cloth woven by the electronic glass fibers is an essential basic material in the copper-clad plate and printed circuit board industry, and the performance of the electronic glass fiber cloth determines the important performances such as the electrical performance, the mechanical performance, the dimensional stability and the like of CCL and PCB to a great extent.

In order to meet the demands of customers in the process of producing electronic cloth, icon information is usually required to be printed on the electronic cloth, and the color or the darkness or the lightness of the icon printed on the surface of the electronic cloth is caused because the ink amount is difficult to control by the existing electronic cloth icon printing device, so that the situation that the icon is unclear is caused.

To this end, the present invention provides an electronic cloth icon printing apparatus.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to an electronic layout marking device, which comprises a device base, wherein the device base is provided with a plurality of printing heads; the top end of the middle part of the device base is fixedly connected with a printing box; an ink storage cavity is formed in the printing box; the inside of the printing box is positioned below the ink storage cavity and is rotationally connected with a guide wheel; the outside of the guide wheel is fixedly connected with a first rotary roller which is rotationally connected with the inside of the printing box; the printing die is fixedly connected to the outside of the first rotary roller; the inside of the guide wheel is provided with a guide groove which is communicated with the printing die; the inside of the printing box is positioned below the first rotary roller and is rotationally connected with the second rotary roller; a quantifying component is arranged in the printing box and is used for quantitatively underflowing the printing ink; the top of device base is provided with winding mechanism, and winding mechanism is used for blowing rolling to the electron cloth.

Preferably, the quantifying component comprises a storage plate, a temporary storage groove, a first magnetic block, a second magnetic block and a quantifying plate; the storage plate is fixedly connected in the ink storage cavity; the temporary storage groove is formed in the storage plate; the first magnetic block is fixedly connected inside the guide wheel; the second magnetic block is connected inside the printing box and the storage plate in a sliding way, and can repel each other in the same polarity when the second magnetic block and the first magnetic block are close to each other; the quantifying plate is fixedly connected to the top end of the second magnetic block; the quantitative plate is close to the inside of one side of the temporary storage groove and is provided with an upper launder and a lower launder respectively.

Preferably, the winding mechanism comprises a supporting frame, a servo motor, a material roller, a connecting rod, a wheel disc, a belt and a clamping assembly; the support frames are fixedly connected to two sides of the top end of the device base; the servo motor is fixedly connected to the outside of one support frame; the material roller is rotationally connected to the inside of the supporting frame; the connecting rod is rotationally connected inside one side of the support frame far away from the servo motor; the wheel disc is fixedly connected to the outside of one side of the connecting rod, which is far away from the support frame; the belt is sleeved on the two wheel discs; the clamping assembly is arranged in the support frame and used for fixing the material roller on the support frame.

Preferably, the clamping assembly comprises a clamping rod, a first clamping block, a second clamping block and a handle; the clamping connection rod is fixedly connected to the output end of the servo motor, and is rotatably connected to the inside of the support frame; the first clamping block is slidably mounted inside the material roller through the first elastic piece and can be clamped inside the clamping rod; the second clamping block is slidably mounted in the connecting rod through a second elastic piece and can be clamped in the material roller; the handle is fixedly connected to the outer portion of the second clamping block, and the handle slides on the inner wall of the connecting rod.

Preferably, a lantern ring is fixedly connected to the outer part of the second rotary roller, and the lantern ring is positioned below the printing die; the inside threaded connection in top of printing case has the screw plug.

Preferably, a first gear is fixedly connected to the outer part of the connecting rod; an air duct is fixedly connected to the outside of the printing box, and a plurality of air ducts are arranged; the inside of the air guide cylinders are rotatably connected with rotating rods; one end of each rotating rod is fixedly connected with a second gear, and the outer part of the other end of each rotating rod is fixedly connected with a fan blade; chains are arranged between the first gear and the plurality of second gears; the inside of printing case is provided with the air-dry subassembly, and the air-dry subassembly is used for drying in the air to the ink.

Preferably, the air drying assembly comprises an air box, a first air pipe and a first air cylinder; the wind box is fixedly connected in the printing box, and is positioned at the side part of the first rotary roller; the first air pipes are fixedly connected in the air box and are respectively communicated with the air guide cylinders; the first air duct is fixedly connected in the air box, and is communicated with the first air duct.

Preferably, a second air duct is fixedly connected in the air box, and the second air duct is communicated with the first air duct; a heater is arranged in the wind box; and a heat conducting wire is arranged in the second air duct and connected with the heater.

Preferably, one side, far away from the wind box, of the interior of the printing box is symmetrically and fixedly connected with a guide block; the outside rigid coupling of guide block has the metal piece.

Preferably, the outside of one guide block is fixedly connected with a second air pipe, and the second air pipe is connected with the inside of the ventilation box; a plurality of third air pipes are fixedly connected in the air box, and are communicated with the second air pipes; and a plurality of third air pipes are provided with one-way valves.

The beneficial effects of the invention are as follows:

1. according to the electronic cloth icon printing device, the first rotating roller and the second rotating roller are arranged to be attached to electronic cloth to rotate, the printing die is driven to be stained with ink to print icons on the electronic cloth, the first magnetic block continuously repels the second magnetic block to slide, the quantitative plate is driven to slide in the ink storage cavity to quantitatively overflow ink, the effect of quantitatively flowing down the ink is achieved, the two material rollers are respectively rotated on the two supporting frames to play a role in collecting and discharging the electronic cloth, the two ends of the material rollers are respectively clamped by the first clamping block and the second clamping block to play a role in assembling the material rollers, and the collar is matched with the printing die to be used for extrusion printing, so that the printing effect of the electronic cloth icons is improved.

2. According to the electronic cloth icon printing device, the fan blades are arranged to rotate for exhausting, the first air cylinder which is sent into the air box is blown out, the effect of air drying ink on the electronic cloth is achieved, the heater is used for heating to generate heat, the heat is conducted into the second air cylinder, hot air is blown out at the bottom end of the second air cylinder, the effect of drying a printing position of the electronic cloth is achieved, the electronic cloth is symmetrically extruded by means of the two guide blocks, the effect of removing wrinkles of the electronic cloth is achieved, the third air pipe is used for circulating excessive heat at the second air cylinder, and the condition of overhigh heat at the second air cylinder is reduced.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a partial cross-sectional view of the printing box of the present invention;

FIG. 3 is a partial cross-sectional view of the support bracket of the present invention;

FIG. 4 is a schematic view of the structure of the stroke box of the present invention;

FIG. 5 is a schematic view of the structure of the guide block of the present invention;

FIG. 6 is a cross-sectional view of the structure of the wind tunnel in the present invention.

In the figure: 1. a device base; 11. a printing box; 12. a guide wheel; 13. a first rotating roller; 14. printing a mold; 15. a diversion trench; 16. a second rotating roller; 2. a storage plate; 21. a temporary storage groove; 22. a first magnetic block; 23. a second magnetic block; 24. a metering plate; 3. a support frame; 31. a servo motor; 32. a material roller; 33. a connecting rod; 34. a wheel disc; 35. a belt; 4. a clamping rod; 41. a first clamping block; 42. a second clamping block; 43. a handle; 5. a collar; 51. a threaded plug; 6. a first gear; 61. an air duct; 62. a rotating rod; 63. a second gear; 64. a fan blade; 65. a chain; 7. a wind box; 71. a first air pipe; 72. a first air duct; 8. a second air duct; 81. a heater; 82. a heat conducting wire; 9. a guide block; 91. a metal block; 92. a second air pipe; 93. and a third air pipe.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1, 2, 4 and 5, an electronic layout marking device according to an embodiment of the present invention includes a device base 1; the top end of the middle part of the device base 1 is fixedly connected with a printing box 11; an ink storage cavity is formed in the printing box 11; the inside of the printing box 11 is positioned below the ink storage cavity and is rotationally connected with a guide wheel 12; the outside of the guide wheel 12 is fixedly connected with a first rotary roller 13, and the first rotary roller 13 is rotationally connected inside the printing box 11; the printing die 14 is fixedly connected to the outer part of the first rotary roller 13; a diversion trench 15 is formed in the diversion wheel 12, and the diversion trench 15 is communicated with the printing mould 14; a second rotary roller 16 is rotatably connected below the first rotary roller 13 in the printing box 11; a quantifying component is arranged in the printing box 11 and is used for quantitatively underflowing the printing ink; the top end of the device base 1 is provided with a winding mechanism which is used for discharging and winding the electronic cloth; in the production process of the electronic cloth, the electronic cloth is wound and unwound by the winding mechanisms on the two sides of the top end of the base 1 of the device, the electronic cloth passes through a space between a first rotating roller 13 and a second rotating roller 16 inside the printing box 11 in advance and is attached to the outer parts of the first rotating roller 13 and the second rotating roller 16, when the electronic cloth is wound and conveyed by the winding mechanisms, the quantitative assembly synchronously drives the first rotating roller 13 and the second rotating roller 16 to rotate, the first rotating roller 13 drives the guide wheel 12 to rotate, the quantitative assembly on the top end of the guide wheel 12 controls the quantitative ink in the ink storage cavity to flow downwards, the ink flows into the guide groove 15 inside the guide wheel 12, finally the ink falls into the first rotating roller 13 to be absorbed by the printing die 14, and the printing die 14 prints icons on the surface of the electronic cloth along with the rotation of the first rotating roller 13, so that the control of the printed ink amount is realized, and the condition that the printing of the icons is not clear is reduced.

As shown in fig. 1 to 2, the quantifying component includes a storage plate 2, a temporary storage groove 21, a first magnetic block 22, a second magnetic block 23 and a quantifying plate 24; the storage plate 2 is fixedly connected in the ink storage cavity; the temporary storage groove 21 is formed in the storage plate 2; the first magnetic block 22 is fixedly connected inside the guide wheel 12; the second magnetic block 23 is slidably connected inside the printing box 11 and the storage plate 2, and the second magnetic block 23 and the first magnetic block 22 can repel each other in the same polarity when being close to each other; the quantifying plate 24 is fixedly connected to the top end of the second magnetic block 23; an upper launder and a lower launder are respectively arranged in the quantitative plate 24 near one side of the temporary storage groove 21; when the ink quantitatively flows down, the guide wheel 12 rotates along with the first rotating roller 13, the first magnetic block 22 rotates to be close to the second magnetic block 23, the first magnetic block 22 magnetically repels the second magnetic block 23, the second magnetic block 23 slides upwards to the inside of the printing box 11 and the storage plate 2, the quantitative plate 24 synchronously slides upwards to be pushed into the ink storage cavity, part of the ink in the ink storage cavity is filled into the upper groove, the quantitative plate 24 slides downwards along with the gravity of the second magnetic block 23 after the first magnetic block 22 is far away from the second magnetic block 23, the quantitative plate 24 temporarily seals the ink storage cavity, the ink filled into the upper groove flows back to the temporary storage groove 21, flows back to the lower groove from the temporary storage groove 21, and finally the ink flows to the printing mould 14 through the guide groove 15 for printing icons, and the first magnetic block 22 and the second magnetic block 23 continuously repel, so that the ink quantitatively flows down in the ink storage cavity is realized.

As shown in fig. 1 and 3, the winding mechanism comprises a supporting frame 3, a servo motor 31, a material roller 32, a connecting rod 33, a wheel disc 34, a belt 35 and a clamping assembly; the supporting frames 3 are fixedly connected to two sides of the top end of the device base 1; the servo motor 31 is fixedly connected to the outside of one support frame 3; the material roller 32 is rotatably connected to the inside of the support frame 3; the connecting rod 33 is rotatably connected inside one side of the support frame 3 away from the servo motor 31; the wheel disc 34 is fixedly connected to the outside of one side of the connecting rod 33, which is far away from the support frame 3; the belt 35 is sleeved on the two wheel discs 34; the clamping assembly is arranged in the support frame 3 and is used for fixing the material roller 32 on the support frame 3; when receiving and releasing the electronic cloth, the two ends of the electronic cloth are respectively wound by utilizing the two material rollers 32, the two material rollers 32 are respectively fixed on the two support frames 3 by the clamping assembly, the output end of the servo motor 31 arranged on one support frame 3 rotates to drive one material roller 32 to rotate, the material rollers 32 synchronously drive the wheel discs 34 on the connecting rods 33 to rotate, and the belt 35 connected on the two wheel discs 34 can drive the material rollers 32 on one side without the servo motor 31 to synchronously rotate, so that the effect of receiving and releasing the electronic cloth is realized.

The clamping assembly comprises a clamping rod 4, a first clamping block 41, a second clamping block 42 and a handle 43; the clamping connection rod 4 is fixedly connected to the output end of the servo motor 31, and the clamping connection rod 4 is rotatably connected to the inside of the support frame 3; the first clamping block 41 is slidably mounted inside the material roller 32 through a first elastic piece, and the first clamping block 41 can be clamped inside the clamping rod 4; the second clamping block 42 is slidably mounted inside the connecting rod 33 through a second elastic piece, and the second clamping block 42 can be clamped inside the material roller 32; the handle 43 is fixedly connected to the outside of the second clamping block 42, and the handle 43 slides on the inner wall of the connecting rod 33; when the material roller 32 is fixed on the support frame 3, the first clamping block 41 and the second clamping block 42 are extruded to retract into the material roller 32 and the connecting rod 33 respectively, the first elastic piece and the second elastic piece are contracted and stressed to clamp the material roller 32 into the top end of the support frame 3, then the first elastic piece and the second elastic piece are elastically reset, the first clamping block 41 at one end of the material roller 32 is clamped into the inside of the clamping rod 4, the second clamping block 42 is clamped into the other end of the material roller 32, the material roller 32 and the connecting rod 33 can be driven to synchronously rotate along with the rotation of the output end of the servo motor 31, the material roller 32 is clamped on the support frame 3, when the clamping of the material roller 32 is required to be canceled, the draggable handle 43 reversely slides, the clamping at the second clamping block 42 can be driven to be released, and the first clamping block 41 is also provided with a component for releasing the clamping in the same type, so that the material roller 32 is convenient to be installed and detached.

As shown in fig. 1, 2 and 4, the outside of the second rotating roller 16 is fixedly connected with a collar 5, and the collar 5 is positioned below the printing die 14; a threaded plug 51 is connected to the inside of the top end of the printing box 11 in a threaded manner; when the icons are printed on the surface of the electronic cloth, the collar 5 is fixed outside the second rotary roller 16, the bottom of the printing position of the electronic cloth can be attached, the collar 5 is matched with the printing die 14 to squeeze the icons for printing the electronic cloth, the effect of printing the surface of the electronic cloth is improved, meanwhile, the ink storage cavity is blocked by the threaded plug 51, and the influence of mixing impurities into ink on printing is reduced.

As shown in fig. 1, 3, 5 and 6, the external part of the connecting rod 33 is fixedly connected with a first gear 6; an air duct 61 is fixedly connected to the outside of the printing box 11, and a plurality of air ducts 61 are arranged; a rotating rod 62 is rotatably connected to the inside of the plurality of air ducts 61; one end of the rotating rods 62 is fixedly connected with a second gear 63, and the outer part of the other end of the rotating rods 62 is fixedly connected with fan blades 64; chains 65 are arranged between the first gear 6 and the plurality of second gears 63; an air drying component is arranged in the printing box 11 and used for air drying the ink; after the icon is printed on the electronic cloth, the ink at the printing position is not dried, the ink is easily wound and adhered to other places of the electronic cloth, the connecting rod 33 is utilized to drive the first gear 6 to rotate, the chain 65 synchronously drives the second gears 63 to rotate along with the rotation of the first gear 6, the second gears 63 drive the fan blades 64 connected with the rotating rod 62 inside the air duct 61 to rotate for exhausting, the air is introduced into the air drying assembly inside the printing box 11, the air drying assembly blows air to the printing position, and the ink at the printing position can be dried.

As shown in fig. 1, 3 to 6, the air drying assembly comprises an air box 7, an air duct 71 and an air duct 72; the wind box 7 is fixedly connected inside the printing box 11, and the wind box 7 is positioned at the side part of the first rotary roller 13; the first air pipes 71 are fixedly connected in the air box 7, and the first air pipes 71 are respectively communicated with the air guide cylinders 61; the first air duct 72 is fixedly connected inside the air box 7, and the first air duct 72 is communicated with the first air duct 71; when the ink on the electronic cloth is air-dried, the fan blades 64 rotate to exhaust air into the air duct 61, the air duct 61 is communicated with the first air pipe 71 inside the air box 7 to guide air, the extracted air is sent to the first air pipe 72 to blow downwards, and the first air pipe 72 blows air to the surface of the printed electronic cloth, so that the ink at the printing position is air-dried.

A second air duct 8 is fixedly connected inside the air box 7, and the second air duct 8 is communicated with a first air duct 71; a heater 81 is installed inside the wind box 7; a heat conducting wire 82 is arranged in the second air duct 8, and the heat conducting wire 82 is connected with a heater 81; when needs are to the quick dry of printing department's china ink, utilize the inside work heating of heater 81 at wind-box 7 to with the heat conduction silk 82 conduction to the inside of No. two dryer 8, rotate the updraft of flabellum 64 and get into the inside of No. one tuber pipe 71 after, the wind blows the inside of No. two dryer 8, mix the heat and blow hot-blast to the electron cloth surface, realize the stoving effect to the electron cloth, when the electron cloth after the stoving reaches No. one dryer 72 below simultaneously, the wind temperature of No. one dryer 72 department is less than the wind temperature of No. two dryer 8 departments, the icon of printing can be finalized the design by the forced air of No. one dryer 72 blowing, the effect to the icon printing is improved.

As shown in fig. 1, 4 and 5, a guide block 9 is symmetrically and fixedly connected to one side, far away from the wind box 7, of the inside of the printing box 11; a metal block 91 is fixedly connected to the outer part of the guide block 9; when the electronic cloth is printed, the printing effect is easily affected due to the fact that part of the electronic cloth is wound and folded, the two symmetrical guide blocks 9 are used for being fixed at the feeding position of the printing box 11, and when the electronic cloth is conveyed, the electronic cloth is extruded and flattened by the two guide blocks 9 in advance by matching with the two metal blocks 91, so that the effect of shaping and removing the folds of the electronic cloth is achieved.

A second air pipe 92 is fixedly connected to the outer part of one guide block 9, and the second air pipe 92 is communicated with the inner part of the air box 7; a plurality of third air pipes 93 are fixedly connected in the air box 7, and the third air pipes 93 are communicated with the second air pipes 92; a plurality of third air pipes 93 are provided with one-way valves; when the heat of No. two dryer 8 departments is too high, utilize a plurality of No. three tuber pipes 93 to fix the lateral part at No. two dryer 8, with the inside of too much heat transfer to No. two tuber pipes 92, the check valve control heat only goes out and does not return, reduce No. two dryer 8 departments heat too high condition, simultaneously along with the inside No. one tuber pipe 71 air supply of wind box 7, the inside of No. two tuber pipes 92 also can be sent into to partial wind-force, consequently blow hot-blast to guide block 9 departments, by the department blowout of metal piece 91, not only can be to blowing away the impurity on the electron cloth, but also can improve the wrinkle effect of removing to the electron cloth.

In the working process, in the production process of the electronic cloth, the electronic cloth is wound and unwound by winding mechanisms on two sides of the top end of the base 1 of the device, the electronic cloth passes through a space between a first rotary roller 13 and a second rotary roller 16 inside the printing box 11 in advance and is attached to the outer parts of the first rotary roller 13 and the second rotary roller 16, when the electronic cloth is wound and conveyed by the winding mechanisms, the quantitative assembly synchronously drives the first rotary roller 13 and the second rotary roller 16 to rotate, the first rotary roller 13 drives the guide wheel 12 to rotate, the quantitative assembly on the top end of the guide wheel 12 controls the quantitative downflow of ink in the ink storage cavity, the ink flows into a guide groove 15 in the guide wheel 12, finally the ink falls into the first rotary roller 13 to be absorbed by a printing die 14, and the printing die 14 prints icons on the surface of the electronic cloth when rotating along with the first rotary roller 13, so that the control of the quantity of the printed ink is realized, and the condition that the printing of the icons is unclear is reduced; when the ink quantitatively flows down, the guide wheel 12 rotates along with the first rotating roller 13, the first magnetic block 22 rotates to be close to the second magnetic block 23, the first magnetic block 22 magnetically repels the second magnetic block 23, the second magnetic block 23 slides upwards to the inside of the printing box 11 and the storage plate 2, the quantitative plate 24 synchronously slides upwards to be pushed into the ink storage cavity, part of the ink in the ink storage cavity is filled into the upper launder, the quantitative plate 24 slides downwards along with the gravity of the second magnetic block 23 after the first magnetic block 22 is far away from the second magnetic block 23, the quantitative plate 24 temporarily seals the ink storage cavity, the ink filled in the upper launder flows back to the temporary storage groove 21 and flows back to the lower launder from the temporary storage groove 21, and finally the ink flows to the printing mould 14 through the guide groove 15 for printing icons, and the first magnetic block 22 and the second magnetic block 23 continuously repel, so that the ink quantitatively flows down in the ink storage cavity is realized;

when the electronic cloth is wound and unwound, two material rollers 32 are respectively wound around two ends of the electronic cloth, the two material rollers 32 are respectively fixed on two support frames 3 through a clamping assembly, the output end of a servo motor 31 arranged on one support frame 3 rotates to drive one material roller 32 to rotate, the material rollers 32 synchronously drive a wheel disc 34 on a connecting rod 33 to rotate, and a belt 35 connected with the two wheel discs 34 can drive the material rollers 32 on one side without the servo motor 31 to synchronously rotate, so that the effect of winding and unwinding the electronic cloth is realized; when the material roller 32 is fixed on the support frame 3, the first clamping block 41 and the second clamping block 42 are extruded to retract into the material roller 32 and the connecting rod 33 respectively, the first elastic piece and the second elastic piece are contracted and stressed to clamp the material roller 32 into the top end of the support frame 3, then the first elastic piece and the second elastic piece are elastically reset, the first clamping block 41 at one end of the material roller 32 is clamped into the clamping rod 4, the second clamping block 42 is clamped into the other end of the material roller 32, and along with the rotation of the output end of the servo motor 31, the material roller 32 and the connecting rod 33 can be driven to synchronously rotate, so that the material roller 32 is fixedly clamped on the support frame 3, when the clamping of the material roller 32 is required to be canceled, the handle 43 can be pulled to reversely slide, the clamping at the second clamping block 42 can be driven to be released, and the first clamping block 41 is also provided with a same type clamping releasing component, so that the material roller 32 is convenient to install and detach;

when the icons are printed on the surface of the electronic cloth, the collar 5 is fixed outside the second rotary roller 16, the bottom of the printing position of the electronic cloth can be attached, the collar 5 is matched with the printing die 14 to squeeze the icons for printing the electronic cloth, the effect of printing the surface of the electronic cloth is improved, meanwhile, the ink storage cavity is blocked by the threaded plug 51, and the influence of mixing of impurities into ink on printing is reduced; after the icons are printed on the electronic cloth, the ink at the printing position is not dried, the ink is easily wound and adhered to other places of the electronic cloth, the first gear 6 is driven to rotate by the connecting rod 33, the chains 65 synchronously drive the plurality of second gears 63 to rotate along with the rotation of the first gear 6, the second gears 63 drive the fan blades 64 connected with the rotating rods 62 in the air duct 61 to rotate for exhausting, the air is introduced into an air drying assembly in the printing box 11, the air drying assembly blows air to the printing position, and the ink at the printing position can be dried; when the ink on the electronic cloth is air-dried, the fan blades 64 rotate to exhaust air into the air duct 61, the air duct 61 is communicated with the first air pipe 71 in the air box 7 to guide air, the extracted air is sent to the first air pipe 72 to blow downwards, and the first air pipe 72 blows air to the surface of the printed electronic cloth, so that the effect of air-drying the ink at the printing position is realized; when the ink at the printing position needs to be quickly dried, the heater 81 is utilized to heat the inside of the air box 7, heat is conducted to the inside of the second air duct 8 through the heat conducting wire 82, after the fan blades 64 rotate to exhaust air and enter the first air duct 71, air is blown into the inside of the second air duct 8, heat is mixed to blow hot air to the surface of the electronic cloth, the drying effect on the electronic cloth is achieved, and meanwhile when the dried electronic cloth reaches the position below the first air duct 72, the air temperature at the position of the first air duct 72 is lower than the air temperature at the position of the second air duct 8, the printed icon can be shaped by the air cooling blown by the first air duct 72, and the effect on icon printing is improved;

when the electronic cloth is printed, as part of the electronic cloth is wound and wrinkled, the printing effect is easily affected, two symmetrical guide blocks 9 are used for fixing at the feeding position of the printing box 11, and when the electronic cloth is conveyed, the electronic cloth is extruded and flattened by the two guide blocks 9 and the two metal blocks 91 in advance, so that the shaping and wrinkling removing effects of the electronic cloth are realized; when the heat of No. two dryer 8 departments is too high, utilize a plurality of No. three tuber pipes 93 to fix the lateral part at No. two dryer 8, with the inside of too much heat transfer to No. two tuber pipes 92, the check valve control heat only goes out and does not return, reduce No. two dryer 8 departments heat too high condition, simultaneously along with the inside No. one tuber pipe 71 air supply of wind box 7, the inside of No. two tuber pipes 92 also can be sent into to partial wind-force, consequently blow hot-blast to guide block 9 departments, by the department blowout of metal piece 91, not only can be to blowing away the impurity on the electron cloth, but also can improve the wrinkle effect of removing to the electron cloth.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An electronic cloth icon printing device is characterized in that: comprises a device base (1); the top end of the middle part of the device base (1) is fixedly connected with a printing box (11); an ink storage cavity is formed in the printing box (11); the inside of the printing box (11) is positioned below the ink storage cavity and is rotationally connected with a guide wheel (12); the outside of the guide wheel (12) is fixedly connected with a first rotating roller (13), and the first rotating roller (13) is rotationally connected inside the printing box (11); the printing die (14) is fixedly connected to the outer part of the first rotary roller (13); a diversion trench (15) is formed in the diversion wheel (12), and the diversion trench (15) is communicated with the printing mold (14); the inside of the printing box (11) is positioned below the first rotary roller (13) and is rotationally connected with a second rotary roller (16); a quantifying component is arranged in the printing box (11) and is used for quantitatively underflowing the printing ink; the device is characterized in that a winding mechanism is arranged at the top end of the device base (1) and used for discharging and winding the electronic cloth.

2. An electronic cloth icon printing apparatus as claimed in claim 1 wherein: the quantitative assembly comprises a storage plate (2), a temporary storage groove (21), a first magnetic block (22), a second magnetic block (23) and a quantitative plate (24); the storage plate (2) is fixedly connected in the ink storage cavity; the temporary storage groove (21) is formed in the storage plate (2); the first magnetic block (22) is fixedly connected in the guide wheel (12); the second magnetic block (23) is slidably connected inside the printing box (11) and the storage plate (2), and the second magnetic block (23) and the first magnetic block (22) can repel each other in the same polarity when being close to each other; the quantifying plate (24) is fixedly connected to the top end of the second magnetic block (23); the quantitative plate (24) is provided with an upper launder and a lower launder respectively near the inner part of one side of the temporary storage groove (21).

3. An electronic cloth icon printing apparatus as claimed in claim 1 wherein: the winding mechanism comprises a supporting frame (3), a servo motor (31), a material roller (32), a connecting rod (33), a wheel disc (34), a belt (35) and a clamping assembly; the supporting frames (3) are fixedly connected to two sides of the top end of the device base (1); the servo motor (31) is fixedly connected to the outside of one support frame (3); the material roller (32) is rotationally connected inside the supporting frame (3); the connecting rod (33) is rotatably connected inside one side of the support frame (3) far away from the servo motor (31); the wheel disc (34) is fixedly connected to the outside of one side of the connecting rod (33) far away from the supporting frame (3); the belt (35) is sleeved on the two wheel discs (34); the clamping assembly is arranged in the support frame (3) and used for fixing the material roller (32) on the support frame (3).

4. An electronic cloth icon printing apparatus as claimed in claim 3 wherein: the clamping assembly comprises a clamping rod (4), a first clamping block (41), a second clamping block (42) and a handle (43); the clamping connection rod (4) is fixedly connected to the output end of the servo motor (31), and the clamping connection rod (4) is rotatably connected to the inside of the support frame (3); the first clamping block (41) is slidably arranged inside the material roller (32) through a first elastic piece, and the first clamping block (41) can be clamped inside the clamping connection rod (4); the second clamping block (42) is slidably mounted inside the connecting rod (33) through a second elastic piece, and the second clamping block (42) can be clamped inside the material roller (32); the handle (43) is fixedly connected to the outer portion of the second clamping block (42), and the handle (43) slides on the inner wall of the connecting rod (33).

5. An electronic cloth icon printing apparatus as claimed in claim 1 wherein: the outside of the second rotating roller (16) is fixedly connected with a lantern ring (5), and the lantern ring (5) is positioned below the printing die (14); a threaded plug (51) is connected to the inside of the top end of the printing box (11) in a threaded mode.

6. An electronic cloth icon printing apparatus as claimed in claim 3 wherein: a first gear (6) is fixedly connected to the outer part of the connecting rod (33); an air duct (61) is fixedly connected to the outside of the printing box (11), and a plurality of air ducts (61) are arranged; a rotating rod (62) is rotatably connected inside the air ducts (61); one end of each rotating rod (62) is fixedly connected with a second gear (63), and the outside of the other end of each rotating rod (62) is fixedly connected with a fan blade (64); chains (65) are arranged between the first gear (6) and the second gears (63); the inside of printing case (11) is provided with the air-dry subassembly, and the air-dry subassembly is used for drying in the air to the ink.

7. The electronic cloth icon printing apparatus of claim 6 wherein: the air drying assembly comprises an air box (7), a first air pipe (71) and a first air cylinder (72); the wind box (7) is fixedly connected in the printing box (11), and the wind box (7) is positioned at the side part of the first rotary roller (13); the first air pipes (71) are fixedly connected in the air box (7), and the first air pipes (71) are respectively communicated with the air guide cylinders (61); the first air duct (72) is fixedly connected inside the air box (7), and the first air duct (72) is communicated with the first air duct (71).

8. The electronic cloth icon printing apparatus of claim 7 wherein: a second air duct (8) is fixedly connected inside the air box (7), and the second air duct (8) is communicated with a first air duct (71); a heater (81) is arranged in the wind box (7); and a heat conducting wire (82) is arranged in the second air duct (8), and the heat conducting wire (82) is connected with a heater (81).

9. The electronic cloth icon printing apparatus of claim 7 wherein: guide blocks (9) are symmetrically and fixedly connected to one side, away from the wind box (7), of the interior of the printing box (11); the outside of the guide block (9) is fixedly connected with a metal block (91).

10. The electronic cloth icon printing apparatus of claim 9 wherein: a second air pipe (92) is fixedly connected to the outer part of one guide block (9), and the second air pipe (92) is connected with the inner part of the ventilation box (7); a plurality of third air pipes (93) are fixedly connected in the air box (7), and the third air pipes (93) are communicated with the second air pipes (92); and a plurality of third air pipes (93) are provided with one-way valves.