CN112428673A - Automatic printing machine for electronic ceramics - Google Patents

Abstract

The utility model provides an automatic printing machine is used to electron pottery, including printing roof module, cam printing hypoplastron module, printing paper guide pulley module, lower guide pulley module, pottery transportation module, passive guide pulley module, the main function of printing roof module is used for supporting cam printing hypoplastron module, printing paper guide pulley module, lower guide pulley module, pottery transportation module, still provide supplementary printing function when passive guide pulley module, the main function of cam printing hypoplastron module is the main part effect that bears the printing function, the main function of printing paper guide pulley module is the guide printing paper, the main function of lower guide pulley module is the guide printing paper after the printing is accomplished, the main function of pottery transportation module is the transportation electron ceramic, the main function of passive guide pulley module is supplementary guide printing paper. The full-automatic printing machine is fully automatic in the whole process, very high in printing efficiency, capable of recycling printed paper after printing is completed, free of redundant garbage and very practical.

Description

Automatic printing machine for electronic ceramics

Technical Field

The invention relates to the technical field of processing and manufacturing, in particular to an automatic printing machine for electronic ceramics.

Background

In modern society, with the further development of science and technology, especially with the rapid progress in the field of material science, electronic ceramics, which is a ceramic capable of utilizing electricity and magnetism in the electronic industry, becomes more and more important as a new material. The electronic ceramic is a ceramic with new functions finally obtained through the precise control of the surface, grain boundary and size structure. Can be widely applied to the aspects of energy sources, household appliances, automobiles and the like. But the processing equipment for the electronic ceramics is very small at present. To solve such a problem, application No.: CN201410610313.9 discloses an electronic ceramic printing device, but such a device is easily damaged on the ceramic surface, and the efficiency is very low, and cannot meet the high demand of electronic ceramic at present.

Disclosure of Invention

The invention provides an automatic printing machine for electronic ceramics, which can effectively solve the technical problems and has the advantages of simple structure, low cost, high efficiency and high automation degree.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an automatic printing machine for electronic ceramics comprises a printing top plate module, a cam printing lower plate module, a printing paper guide wheel module, a lower guide wheel module, a ceramic transportation module and a driven guide wheel module, wherein the printing top plate module comprises a printing top plate module bottom plate and a printing top plate module upright post; the cam printing lower plate module comprises a cam printing lower plate module optical axis and a cam printing lower plate module printing lower plate; the printing paper guide wheel module comprises a printing paper guide wheel module bottom plate; the lower guide wheel module comprises a lower guide wheel module side panel; the ceramic transport module comprises a ceramic transport module tail plate; the passive guide wheel module comprises a passive guide wheel module tail plate.

The printing top plate module bottom plate in the printing top plate module and the cam printing lower plate module optical axis in the cam printing lower plate module are fixedly installed, the cam printing lower plate module printing lower plate in the cam printing lower plate module and the printing paper guide wheel module bottom plate in the printing paper guide wheel module are fixedly installed, the printing top plate module upright post in the printing top plate module and the lower guide wheel module side plate in the lower guide wheel module are fixedly installed, the cam printing lower plate module printing lower plate in the cam printing lower plate module and the ceramic transport module tail plate in the ceramic transport module are fixedly installed, and the driven guide wheel module tail plate in the driven guide wheel module and the cam printing lower plate module printing lower plate in the cam printing lower plate module are fixedly installed.

Further, the printing top plate module comprises a printing top plate module top plate, a printing top plate module base plate and a printing top plate module printing plate, wherein the printing top plate module bottom plate is fixedly installed with the printing top plate module upright post, the printing top plate module upright post is fixedly installed with the printing top plate module top plate, the printing top plate module top plate is fixedly installed with the printing top plate module base plate, and the printing top plate module base plate is fixedly installed with the printing top plate module printing plate.

Further, the cam printing lower plate module further comprises a cam printing lower plate module lower plate shaft, a cam printing lower plate module cam connecting rod, a cam printing lower plate module cam shaft, a cam printing lower plate module limiting clip, a cam printing lower plate module driven gear, a cam printing lower plate module shaft seat plate, a cam printing lower plate module driving shaft, a cam printing lower plate module driving gear, a cam printing lower plate module driven gear, a cam printing lower plate module belt, a cam printing lower plate module motor, a cam printing lower plate module driving gear, a cam printing lower plate module shaft seat and a cam printing lower plate module balancing weight, wherein the cam printing lower plate module optical axis is slidably mounted with the cam printing lower plate module printing lower plate, the cam printing lower plate module printing lower plate is rotatably mounted with the cam printing lower plate module lower plate shaft, and the cam printing lower plate module cam connecting rod are rotatably mounted, the cam connecting rod of the cam printing lower plate module is rotatably installed with the cam of the cam printing lower plate module, the cam of the cam printing lower plate module is fixedly installed with the cam shaft of the cam printing lower plate module, the cam shaft of the cam printing lower plate module is fixedly installed with the limit clip of the cam printing lower plate module, the cam shaft of the cam printing lower plate module is fixedly installed with the driven gear of the cam printing lower plate module, the cam shaft of the cam printing lower plate module is rotatably installed with the shaft seat plate of the cam printing lower plate module, the driven gear of the cam printing lower plate module is in gear fit with the driving gear of the cam printing lower plate module, the driving shaft of the cam printing lower plate module is fixedly installed with the driving gear of the cam printing lower plate module, the driving shaft of the cam printing lower plate, the cam printing lower plate module driven wheel is tightly attached to the cam printing lower plate module belt, the cam printing lower plate module belt is tightly attached to the cam printing lower plate module driving wheel, the cam printing lower plate module motor is fixedly installed with the cam printing lower plate module driving wheel, the cam printing lower plate module shaft seat is rotatably installed with the cam printing lower plate module driving shaft, and the cam printing lower plate module balancing weight is fixedly installed with the cam printing lower plate module driving shaft.

Further, the printing paper guide wheel module also comprises a printing paper guide wheel module vertical plate, a printing paper guide wheel module motor copper column, a printing paper guide wheel module driving wheel, a printing paper guide wheel module belt, a printing paper guide wheel module driven wheel, a printing paper guide wheel module friction sleeve, a printing paper guide wheel module bottom plate and the printing paper guide wheel module vertical plate are fixedly arranged, the printing paper guide wheel module vertical plate and the printing paper guide wheel module motor copper column are fixedly arranged, the printing paper guide wheel module motor copper column and the printing paper guide wheel module motor are fixedly arranged, the printing paper guide wheel module motor and the printing paper guide wheel module driving wheel are fixedly arranged, the printing paper guide wheel module driving wheel is tightly attached to the printing paper guide wheel module belt, the printing paper guide wheel module belt is tightly attached to the printing paper guide wheel module driven wheel, and the printing paper guide wheel module vertical plate are rotatably arranged, the printing paper guide wheel module driven wheel and the printing paper guide wheel module driven wheel shaft are fixedly arranged, and the printing paper guide wheel module driven wheel shaft and the printing paper guide wheel module friction sleeve are fixedly arranged.

Further, the lower guide wheel module also comprises a lower guide wheel module supporting shaft, a lower guide wheel module driving friction wheel shaft, a lower guide wheel module large friction wheel, a lower guide wheel module driven friction wheel shaft, a lower guide wheel module driven friction wheel, a lower guide wheel module inclined bracket, a lower guide wheel module bracket shaft, a lower guide wheel module friction sleeve, a lower guide wheel module motor, a lower guide wheel module upper large bracket, a lower guide wheel module upper center plate, a lower guide wheel module front panel, a lower guide wheel module upper motor, a lower guide wheel module upper driving wheel, a lower guide wheel module upper belt, a lower guide wheel module upper driven wheel, a lower guide wheel module upper driven shaft, a lower guide wheel module upper friction sleeve, a lower guide wheel module side panel is fixedly installed with the lower guide wheel module supporting shaft, a lower guide wheel module side panel is rotatably installed with the lower guide wheel module driving friction wheel shaft and the lower guide wheel module driven friction wheel shaft, the lower guide wheel module driving friction wheel shaft is fixedly installed, a lower guide wheel module driven friction wheel shaft and a lower guide wheel module driven friction wheel are fixedly installed, a lower guide wheel module inclined bracket and a lower guide wheel module side panel are fixedly installed, the lower guide wheel module inclined bracket and a lower guide wheel module bracket shaft are rotatably installed, the lower guide wheel module bracket shaft and a lower guide wheel module friction sleeve are fixedly installed, a lower guide wheel module motor and a lower guide wheel module driving friction wheel shaft are fixedly installed, a lower guide wheel module motor and a lower guide wheel module side panel are fixedly installed, the lower guide wheel module side panel and a lower guide wheel module upper large bracket are fixedly installed, the lower guide wheel module upper large bracket and a lower guide wheel module upper center panel are fixedly installed, the lower guide wheel module upper center panel and a lower guide wheel module front panel are fixedly installed, the lower guide wheel module upper motor and a lower guide wheel module upper driving wheel are fixedly installed, and the lower guide wheel module upper driving wheel and the lower guide wheel module upper, the upper driven wheel of the lower guide wheel module is tightly attached to the upper belt of the lower guide wheel module, the upper driven wheel of the lower guide wheel module is fixedly installed with the upper driven shaft of the lower guide wheel module, and the upper driven shaft of the lower guide wheel module is fixedly installed with the upper friction sleeve of the lower guide wheel module.

Further, the pottery transport module still include pottery transport module both sides board, pottery transport module roller bearing, pottery transport module support, pottery transport module center roller bearing, pottery transport module swash plate, pottery transport module bottom plate, pottery transport module tailboard, pottery transport module both sides board and the rotatory installation of pottery transport module roller bearing, pottery transport module both sides board and pottery transport module support fixed mounting, pottery transport module support and the rotatory installation of pottery transport module center roller bearing, pottery transport module center roller bearing and pottery transport module swash plate fixed mounting, pottery transport module bottom plate and pottery transport module swash plate, pottery transport module both sides board fixed mounting, pottery transport module tailboard and pottery transport module both sides board fixed mounting.

Further, the passive guide wheel module also comprises a passive guide wheel module upper large rolling shaft, a passive guide wheel module upper side plate, a passive guide wheel module upper rolling shaft, a passive guide wheel module vertical side plate, a passive guide wheel module vertical rolling shaft, a passive guide wheel module bracket shaft, a passive guide wheel module middle joint plate, a passive guide wheel module lower bracket, a passive guide wheel module lower central shaft, a passive guide wheel module lower friction sleeve, a passive guide wheel module lower multi-section shaft and a passive guide wheel module tail plate, wherein the passive guide wheel module upper large rolling shaft is rotatably installed with the passive guide wheel module upper side plate, the passive guide wheel module upper side plate is rotatably installed with the passive guide wheel module upper rolling shaft, the passive guide wheel module vertical rolling shaft is rotatably installed with the passive guide wheel module vertical rolling shaft, the passive guide wheel module bracket is fixedly installed with the passive guide wheel module vertical side plate, the passive guide wheel, the driven guide wheel module support shaft and the driven guide wheel module middle connecting plate are fixedly installed, the driven guide wheel module lower support and the driven guide wheel module vertical side plate are fixedly installed, the driven guide wheel module lower support and the driven guide wheel module lower central shaft are rotatably installed, the driven guide wheel module lower central shaft and the driven guide wheel module lower friction sleeve are fixedly installed, the driven guide wheel module lower support and the driven guide wheel module lower multi-section shaft are rotatably installed, and the driven guide wheel module lower support and the driven guide wheel module tail plate are fixedly installed.

Furthermore, the vertical side plate of the driven guide wheel module and the upper roller of the driven guide wheel module are rotatably arranged.

Compared with the prior art, the invention has the beneficial effects that:

(1) the invention can not damage the surface of the electronic ceramic;

(2) the invention can quickly recover the printing paper;

(3) the invention has very high efficiency;

(4) the invention is fully automatic in the whole process.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural view of a printing top plate module according to the present invention.

Fig. 3 is a schematic structural view of a cam printing lower plate module according to the present invention.

Fig. 4 is a schematic structural diagram of a printing paper guide roller module according to the present invention.

FIG. 5 is a schematic view of a lower idler module according to the present invention.

Fig. 6 is a schematic structural view of a ceramic transport module according to the present invention.

Fig. 7 is a schematic structural diagram of a passive guide wheel module according to the present invention.

Reference numerals: 1-printing a top plate module; 2-cam printing lower plate module; 3-printing paper guide wheel module; 4-a lower guide wheel module; 5-a ceramic transport module; 6-passive guide wheel module; 101-printing a top plate module bottom plate; 102-printed roof module posts; 103-printing the top plate module top plate; 104-printing a top plate module backing plate; 105-printing a top plate module printing plate; 201-cam printing lower plate module optical axis; 202-cam printing lower plate module printing lower plate; 203-cam printing lower plate module lower plate shaft; 204-cam printing lower plate module cam link; 205-cam printing lower plate module cam; 206-cam printing lower plate module cam shaft; 207-cam printing lower plate module limit clip; 208-cam printing lower plate module driven gear; 209-cam printing lower plate module pedestal plate; 210-cam printing lower plate module drive shaft; 211-cam printing lower plate module drive gear; 212-cam printing lower plate module passive wheel; 213-cam printing lower plate module belt; 214-cam printing lower plate module motor; 215-cam printing lower plate module drive wheel; 216-cam printing lower plate module shaft seat; 217-cam printing lower plate module balancing weight; 301-printing paper guide wheel module base plate; 302-printing paper guide wheel module vertical plate; 303-printing paper guide wheel module motor; 304-printing paper guide wheel module motor copper column; 305-a printing paper guide wheel module driving wheel; 306-printing paper guide roller module belt; 307-printing paper guide wheel module driven wheel; 308-a printing paper guide wheel module driven wheel shaft; 309-printing paper guide wheel module friction sleeve; 401-lower idler module side panel; 402-lower idler module support shaft; 403-the lower guide wheel module active friction wheel shaft; 404-a large friction wheel of a lower guide wheel module; 405-a driven friction wheel shaft of the lower guide wheel module; 406-a lower idler module passive friction wheel; 407-lower guide wheel module inclined bracket; 408-lower idler module support shaft; 409-lower guide wheel module friction sleeve; 410-lower idler module motor; 411-upper large bracket of lower guide wheel module; 412-lower idler module upper center plate; 413-a lower idler module front panel; 414-lower idler module upper motor; 415-upper driving wheel of lower guide wheel module; 416-lower idler module upper belt; 417-upper driven wheel of lower guide wheel module; 418-a driven shaft on the lower guide wheel module; 419-upper friction sleeve of lower guide wheel module; 501-two side plates of a ceramic transport module; 502-ceramic transport module rollers; 503-ceramic transport module support; 504-ceramic transport module central roller; 505-ceramic transport module tilt plate; 506-ceramic transport module floor; 507-ceramic transport module tailboards; 601-a large roller on the passive guide wheel module; 602-a passive idler module upper side plate; 603-passive guide wheel module upper roller; 604-vertical side plates of passive guide wheel modules; 605-vertical rolling shaft of passive guide wheel module; 606-passive idler module support; 607-passive idler module support shaft; 608-passive idler module intermediate plate; 609-a lower bracket of the passive guide wheel module; 610-driven guide wheel module lower central shaft; 611-driven guide wheel module lower friction sleeve; 612-driven guide wheel module lower multi-section shaft; 613-passive idler module tailboard.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example (b): fig. 1 is a schematic view of the overall structure of the present invention, which includes a printing top plate module 1, a cam printing bottom plate module 2, a printing paper guide wheel module 3, a bottom guide wheel module 4, a ceramic transport module 5, and a passive guide wheel module 6, where the printing top plate module 1 includes a printing top plate module bottom plate 101 and a printing top plate module upright post 102; the cam printing lower plate module 2 comprises a cam printing lower plate module optical axis 201 and a cam printing lower plate module printing lower plate 202; the printing paper guide wheel module 3 comprises a printing paper guide wheel module bottom plate 301; the lower guide wheel module 4 comprises a lower guide wheel module side panel 401; the ceramic transport module 5 comprises a ceramic transport module tail plate 507; the passive idler module 6 includes a passive idler module tail plate 613; the printing top plate module bottom plate 101 in the printing top plate module 1 and the cam printing lower plate module optical axis 201 in the cam printing lower plate module 2 are fixedly installed, the cam printing lower plate module printing lower plate 202 in the cam printing lower plate module 2 and the printing paper guide wheel module bottom plate 301 in the printing paper guide wheel module 3 are fixedly installed, the printing top plate module upright post 102 in the printing top plate module 1 and the lower guide wheel module side plate 401 in the lower guide wheel module 4 are fixedly installed, the cam printing lower plate module printing lower plate 202 in the cam printing lower plate module 2 and the ceramic transport module tail plate 507 in the ceramic transport module 5 are fixedly installed, and the passive guide wheel module tail plate 613 in the passive guide wheel module 6 and the cam printing lower plate module printing lower plate 202 in the cam printing lower plate module 2 are fixedly installed.

The printing top plate module 1 further comprises a printing top plate module top plate 103, a printing top plate module backing plate 104 and a printing top plate module printing plate 105, wherein the printing top plate module bottom plate 101 is fixedly mounted with the printing top plate module upright post 102, the printing top plate module upright post 102 is fixedly mounted with the printing top plate module top plate 103, the printing top plate module top plate 103 is fixedly mounted with the printing top plate module backing plate 104, and the printing top plate module backing plate 104 is fixedly mounted with the printing top plate module printing plate 105. The main function of the module is to support the cam printing lower plate module 2, the printing paper guide wheel module 3, the lower guide wheel module 4, the ceramic transportation module 5 and the passive guide wheel module 6 and provide a printing auxiliary function, the cam printing lower plate module printing lower plate 202 in the cam printing lower plate module 2 can be matched with the printing top plate module printing plate 105 in the printing top plate module 1 to clamp electronic ceramic and printing paper together, and printing is completed at the moment.

The cam printing lower plate module 2 further comprises a cam printing lower plate module lower plate shaft 203, a cam printing lower plate module cam connecting rod 204, a cam printing lower plate module cam 205, a cam printing lower plate module cam shaft 206, a cam printing lower plate module limit clip 207, a cam printing lower plate module driven gear 208, a cam printing lower plate module shaft base plate 209, a cam printing lower plate module driving shaft 210, a cam printing lower plate module driving gear 211, a cam printing lower plate module driven gear 212, a cam printing lower plate module belt 213, a cam printing lower plate module motor 214, a cam printing lower plate module driving gear 215, a cam printing lower plate module shaft base 216, a cam printing lower plate module balancing weight 217, wherein the cam printing lower plate module optical axis 201 is slidably installed with the cam printing lower plate module printing lower plate 202, and the cam printing lower plate module lower plate shaft 203 is rotatably installed, the cam printing lower plate module lower plate shaft 203 and the cam printing lower plate module cam link 204 are rotatably installed, the cam printing lower plate module cam link 204 and the cam printing lower plate module cam 205 are rotatably installed, the cam printing lower plate module cam 205 and the cam printing lower plate module cam shaft 206 are fixedly installed, the cam printing lower plate module cam shaft 206 and the cam printing lower plate module limit clip 207 are fixedly installed, the cam printing lower plate module cam shaft 206 and the cam printing lower plate module driven gear 208 are fixedly installed, the cam printing lower plate module cam shaft 206 and the cam printing lower plate module shaft seat plate 209 are rotatably installed, the cam printing lower plate module driven gear 208 and the cam printing lower plate module driving gear 211 form gear matching, the cam printing lower plate module driving shaft 210 and the cam printing lower plate module driving gear 211 are fixedly installed, the cam printing lower plate module driving shaft 210 and the cam printing lower plate module shaft seat plate 209 are, the cam printing lower plate module driving shaft 210 is fixedly installed with the cam printing lower plate module driven wheel 212, the cam printing lower plate module driven wheel 212 is tightly attached to the cam printing lower plate module belt 213, the cam printing lower plate module belt 213 is tightly attached to the cam printing lower plate module driving wheel 215, the cam printing lower plate module motor 214 is fixedly installed with the cam printing lower plate module driving wheel 215, the cam printing lower plate module shaft seat 216 is rotatably installed with the cam printing lower plate module driving shaft 210, and the cam printing lower plate module balancing weight 217 is fixedly installed with the cam printing lower plate module driving shaft 210. The main function of the module is to bear the main function of the printing function, firstly, a cam printing lower plate module motor 214 drives a cam printing lower plate module driving wheel 215 to rotate, the cam printing lower plate module driving wheel 215 drives a cam printing lower plate module driven wheel 212 to rotate through a cam printing lower plate module belt 213, the cam printing lower plate module driven wheel 212 drives a cam printing lower plate module driving gear 211 to rotate through a cam printing lower plate module driving shaft 210, the cam printing lower plate module driving gear 211 drives a cam printing lower plate module driven gear 208 to rotate, the cam printing lower plate module driven gear 208 drives a cam printing lower plate module cam 205 to rotate through a cam printing lower plate module cam shaft 206, the cam printing lower plate module cam 205, a cam printing lower plate module cam connecting rod 204 and the cam printing lower plate module lower plate shaft 203 form a cam mechanism, and the cam printing lower plate module cam 205 continuously rotates, the cam printing lower plate module printing lower plate 202 continuously slides up and down along the cam printing lower plate module optical axis 201, and is matched with the printing top plate module printing plate 105 in the up-and-down sliding process of the cam printing lower plate module printing lower plate 202 to jointly extrude printing paper and electronic ceramic, so that printing is completed.

The printing paper guide wheel module 3 further comprises a printing paper guide wheel module vertical plate 302, a printing paper guide wheel module motor 303, a printing paper guide wheel module motor copper column 304, a printing paper guide wheel module driving wheel 305, a printing paper guide wheel module belt 306, a printing paper guide wheel module driven wheel 307, a printing paper guide wheel module driven wheel shaft 308 and a printing paper guide wheel module friction sleeve 309, wherein a printing paper guide wheel module bottom plate 301 is fixedly installed with the printing paper guide wheel module vertical plate 302, the printing paper guide wheel module vertical plate 302 is fixedly installed with the printing paper guide wheel module motor copper column 304, the printing paper guide wheel module motor copper column 304 is fixedly installed with the printing paper guide wheel module motor 303, the printing paper guide wheel module motor 303 is fixedly installed with the printing paper guide wheel module driving wheel 305, the printing paper guide wheel module driving wheel 305 is tightly attached to the printing paper guide wheel module belt 306, the printing paper guide wheel module belt 306 is tightly attached to the printing paper guide wheel, the printing paper guide wheel module driven wheel 307 is rotatably installed with the printing paper guide wheel module vertical plate 302, the printing paper guide wheel module driven wheel 307 is fixedly installed with the printing paper guide wheel module driven wheel shaft 308, and the printing paper guide wheel module driven wheel shaft 308 is fixedly installed with the printing paper guide wheel module friction sleeve 309. The main effect of this module is to be used for guiding the printing paper, at first twine the printing paper on printing paper guide pulley module friction cover 309, printing paper guide pulley module motor copper post 304 drives printing paper guide pulley module action wheel 305 rotatory this moment, printing paper guide pulley module action wheel 305 drives printing paper guide pulley module passive wheel 307 through printing paper guide pulley module belt 306 and rotates, printing paper guide pulley module passive wheel 307 drives printing paper guide pulley module friction cover 309 through printing paper guide pulley module passive wheel axle 308 and rotates, printing paper guide pulley module friction cover 309 constantly rubs the printing paper this moment, accomplish the function of guiding the printing paper.

The lower guide wheel module 4 further comprises a lower guide wheel module support shaft 402, a lower guide wheel module driving friction wheel shaft 403, a lower guide wheel module large friction wheel 404, a lower guide wheel module driven friction wheel shaft 405, a lower guide wheel module driven friction wheel 406, a lower guide wheel module inclined bracket 407, a lower guide wheel module bracket shaft 408, a lower guide wheel module friction sleeve 409, a lower guide wheel module motor 410, a lower guide wheel module upper large bracket 411, a lower guide wheel module upper central plate 412, a lower guide wheel module front panel 413, a lower guide wheel module upper motor 414, a lower guide wheel module upper driving wheel 415, a lower guide wheel module upper belt 416, a lower guide wheel module upper driven wheel 417, a lower guide wheel module upper driven shaft 418 and a lower guide wheel module upper friction sleeve 419, wherein the lower guide wheel module side panel 401 is fixedly mounted with the lower guide wheel module support shaft 402, the lower guide wheel module side panel 401 is rotatably mounted with the lower guide wheel module driving friction wheel shaft 403 and the lower guide, a lower guide wheel module driving friction wheel shaft 403 is fixedly installed with a lower guide wheel module large friction wheel 404, a lower guide wheel module driven friction wheel shaft 405 is fixedly installed with a lower guide wheel module driven friction wheel 406, a lower guide wheel module inclined bracket 407 is fixedly installed with a lower guide wheel module side panel 401, a lower guide wheel module inclined bracket 407 is rotatably installed with a lower guide wheel module bracket shaft 408, a lower guide wheel module bracket shaft 408 is fixedly installed with a lower guide wheel module friction sleeve 409, a lower guide wheel module motor 410 is fixedly installed with a lower guide wheel module driving friction wheel shaft 403, a lower guide wheel module motor 410 is fixedly installed with a lower guide wheel module side panel 401, a lower guide wheel module side panel 401 is fixedly installed with a lower guide wheel module upper large bracket 411, a lower guide wheel module upper large bracket 411 is fixedly installed with a lower guide wheel module upper center plate 412, a lower guide wheel module upper center plate 412 is fixedly installed with a lower guide wheel module front panel 413, a lower guide wheel module front panel 413 is, the upper motor 414 of the lower guide wheel module is fixedly mounted with the upper driving wheel 415 of the lower guide wheel module, the upper driving wheel 415 of the lower guide wheel module is tightly attached with the upper belt 416 of the lower guide wheel module, the upper driven wheel 417 of the lower guide wheel module is fixedly mounted with the upper driven shaft 418 of the lower guide wheel module, and the upper driven shaft 418 of the lower guide wheel module is fixedly mounted with the upper friction sleeve 419 of the lower guide wheel module. The module has the main functions of guiding printing paper after printing is finished, firstly, the lower guide wheel module motor 410 drives the lower guide wheel module driving friction wheel shaft 403 to rotate, at the moment, the lower guide wheel module large friction wheel 404 and the lower guide wheel module driven friction wheel 406 can clamp the printing paper to rotate, then the printing paper winds the lower guide wheel module upper friction sleeve 419, at the moment, the lower guide wheel module upper motor 414 drives the lower guide wheel module upper driving wheel 415 to rotate, the lower guide wheel module upper driving wheel 415 drives the lower guide wheel module upper driven wheel 417 to rotate through the lower guide wheel module upper belt 416, the lower guide wheel module upper driven wheel 417 drives the lower guide wheel module upper friction sleeve 419 to rotate through the lower guide wheel module upper driven shaft 418, and the lower guide wheel module upper friction sleeve 419 finishes the printing paper guiding function.

Ceramic transport module 5 still include ceramic transport module both sides board 501, ceramic transport module roller bearing 502, ceramic transport module support 503, ceramic transport module center roller bearing 504, ceramic transport module swash plate 505, ceramic transport module bottom plate 506, ceramic transport module tailboard 507, ceramic transport module both sides board 501 and the rotatory installation of ceramic transport module roller bearing 502, ceramic transport module both sides board 501 and ceramic transport module support 503 fixed mounting, ceramic transport module support 503 and the rotatory installation of ceramic transport module center roller bearing 504, ceramic transport module center roller bearing 504 and ceramic transport module swash plate 505 fixed mounting, ceramic transport module bottom plate 506 and ceramic transport module swash plate 505, ceramic transport module both sides board 501 fixed mounting, ceramic transport module tailboard 507 and ceramic transport module both sides board 501 fixed mounting. The module is mainly used for transmitting the electronic ceramic products, the electronic ceramic products can freely move on the ceramic transport module roller 502, friction can be reduced by rolling of the ceramic transport module roller 502, and the ceramic transport module inclined plate 505 is used for limiting.

The driven guide wheel module 6 further comprises a driven guide wheel module upper large roller 601, a driven guide wheel module upper side plate 602, a driven guide wheel module upper roller 603, a driven guide wheel module vertical side plate 604, a driven guide wheel module vertical roller 605, a driven guide wheel module support 606, a driven guide wheel module support shaft 607, a driven guide wheel module middle connecting plate 608, a driven guide wheel module lower support 609, a driven guide wheel module lower central shaft 610, a driven guide wheel module lower friction sleeve 611, a driven guide wheel module lower multi-section shaft 612, and a driven guide wheel module tail plate 613, the driven guide wheel module upper large roller 601 and the driven guide wheel module upper side plate 602 are rotatably mounted, the driven guide wheel module upper side plate 602 and the driven guide wheel module upper roller 603 are rotatably mounted, the driven guide wheel module vertical side plate 604 and the driven guide wheel module vertical roller 605 are rotatably mounted, and the driven guide wheel module support 606 and the driven guide wheel module vertical side, the driven guide wheel module support 606 and the driven guide wheel module support shaft 607 are rotatably mounted, the driven guide wheel module support shaft 607 and the driven guide wheel module middle connecting plate 608 are fixedly mounted, the driven guide wheel module lower support 609 and the driven guide wheel module vertical side plate 604 are fixedly mounted, the driven guide wheel module lower support 609 and the driven guide wheel module lower central shaft 610 are rotatably mounted, the driven guide wheel module lower central shaft 610 and the driven guide wheel module lower friction sleeve 611 are fixedly mounted, the driven guide wheel module lower support 609 and the driven guide wheel module lower multi-section shaft 612 are rotatably mounted, and the driven guide wheel module lower support 609 and the driven guide wheel module tail plate 613 are fixedly mounted.

The module mainly functions in passively guiding printing paper, the printing paper can pass through the upper roller 603 of the passive guide wheel module, the bracket shaft 607 of the passive guide wheel module and the vertical roller 605 of the passive guide wheel module, the friction force can be reduced by the rolling of the upper roller 603 of the passive guide wheel module, the vertical roller 605 of the passive guide wheel module and the bracket shaft 607 of the passive guide wheel module, and the printing paper can be clamped by the lower friction sleeve 611 of the passive guide wheel module and the lower multi-section shaft 612 of the passive guide wheel module to prevent the dislocation of the printing paper.

The vertical side plate 604 of the passive guide wheel module is rotatably mounted with the upper roller 603 of the passive guide wheel module.

Claims (8)

1. The utility model provides an automatic printing machine is used to electron pottery, includes printing roof module (1), cam printing hypoplastron module (2), printing paper guide wheel module (3), lower guide wheel module (4), pottery transportation module (5), passive guide wheel module (6), its characterized in that:

the printing top plate module (1) comprises a printing top plate module bottom plate (101) and printing top plate module upright posts (102);

the cam printing lower plate module (2) comprises a cam printing lower plate module optical axis (201) and a cam printing lower plate module printing lower plate (202);

the printing paper guide wheel module (3) comprises a printing paper guide wheel module bottom plate (301);

the lower guide wheel module (4) comprises a lower guide wheel module side panel (401);

the ceramic transport module (5) comprises a ceramic transport module tail plate (507);

the passive idler module (6) comprises a passive idler module tail plate (613);

a printing top plate module bottom plate (101) in the printing top plate module (1) and an optical axis (201) of a cam printing lower plate module in the cam printing lower plate module (2) are fixedly installed, a cam printing lower plate module printing lower plate (202) in the cam printing lower plate module (2) is fixedly installed with a printing paper guide wheel module bottom plate (301) in the printing paper guide wheel module (3), a printing top plate module upright post (102) in the printing top plate module (1) is fixedly installed with a lower guide wheel module side plate (401) in the lower guide wheel module (4), the cam printing lower plate module printing lower plate (202) in the cam printing lower plate module (2) is fixedly installed with a ceramic transport module tail plate (507) in the ceramic transport module (5), a driven guide wheel module tail plate (613) in the driven guide wheel module (6) is fixedly installed with a cam printing lower plate module printing lower plate (202) in the cam printing lower plate module (2).

2. The automatic printer for electronic ceramics according to claim 1, characterized in that: the printing top plate module (1) further comprises a printing top plate module top plate (103), a printing top plate module cushion plate (104) and a printing top plate module printing plate (105), wherein the printing top plate module bottom plate (101) is fixedly installed with the printing top plate module upright post (102), the printing top plate module upright post (102) is fixedly installed with the printing top plate module top plate (103), the printing top plate module top plate (103) is fixedly installed with the printing top plate module cushion plate (104), and the printing top plate module cushion plate (104) is fixedly installed with the printing top plate module printing plate (105).

3. The automatic printer for electronic ceramics according to claim 1, characterized in that: the cam printing lower plate module (2) further comprises a cam printing lower plate module lower plate shaft (203), a cam printing lower plate module cam connecting rod (204), a cam printing lower plate module cam (205), a cam printing lower plate module cam shaft (206), a cam printing lower plate module limiting clamp (207), a cam printing lower plate module driven gear (208), a cam printing lower plate module shaft seat plate (209), a cam printing lower plate module driving shaft (210), a cam printing lower plate module driving gear (211), a cam printing lower plate module driven wheel (212), a cam printing lower plate module belt (213), a cam printing lower plate module motor (214), a cam printing lower plate module driving wheel (215), a cam printing lower plate module shaft seat (216) and a cam printing lower plate module balancing weight (217), wherein the cam printing lower plate module optical axis (201) is installed with the cam printing lower plate module printing lower plate (202) in a sliding manner, the cam printing lower plate module printing lower plate (202) and the cam printing lower plate module lower plate shaft (203) are rotatably installed, the cam printing lower plate module lower plate shaft (203) and the cam printing lower plate module cam connecting rod (204) are rotatably installed, the cam printing lower plate module cam connecting rod (204) and the cam printing lower plate module cam (205) are rotatably installed, the cam printing lower plate module cam (205) and the cam printing lower plate module cam shaft (206) are fixedly installed, the cam printing lower plate module cam shaft (206) and the cam printing lower plate module limiting clamp (207) are fixedly installed, the cam printing lower plate module cam shaft (206) and the cam printing lower plate module driven gear (208) are fixedly installed, the cam printing lower plate module cam shaft (206) and the cam printing lower plate module shaft base plate (209) are rotatably installed, and the cam printing lower plate module driven gear (208) and the cam printing lower plate module (211) form a gear driving gear, the cam printing lower plate module driving shaft (210) and the cam printing lower plate module driving gear (211) are fixedly installed, the cam printing lower plate module driving shaft (210) and a cam printing lower plate module shaft seat plate (209) are rotatably installed, the cam printing lower plate module driving shaft (210) and a cam printing lower plate module driven wheel (212) are fixedly installed, the cam printing lower plate module driven wheel (212) is tightly attached to a cam printing lower plate module belt (213), the cam printing lower plate module belt (213) is tightly attached to a cam printing lower plate module driving wheel (215), a cam printing lower plate module motor (214) and the cam printing lower plate module driving wheel (215) are fixedly installed, the cam printing lower plate module shaft seat (216) and the cam printing lower plate module driving shaft (210) are rotatably installed, and a cam printing lower plate module balancing weight (217) and the cam printing lower plate module driving shaft (210) are fixedly installed.

4. The automatic printer for electronic ceramics according to claim 1, characterized in that: the printing paper guide wheel module (3) further comprises a printing paper guide wheel module vertical plate (302), a printing paper guide wheel module motor (303), a printing paper guide wheel module motor copper column (304), a printing paper guide wheel module driving wheel (305), a printing paper guide wheel module belt (306), a printing paper guide wheel module driven wheel (307), a printing paper guide wheel module driven wheel shaft (308) and a printing paper guide wheel module friction sleeve (309), a printing paper guide wheel module bottom plate (301) and the printing paper guide wheel module vertical plate (302) are fixedly installed, the printing paper guide wheel module vertical plate (302) and the printing paper guide wheel module motor copper column (304) are fixedly installed, the printing paper guide wheel module motor copper column (304) and the printing paper guide wheel module motor (303) are fixedly installed, the printing paper guide wheel module motor (303) and the printing paper guide wheel module driving wheel (305) are fixedly installed, the printing paper guide wheel module driving wheel (305) and the printing paper guide wheel module belt (306) are tightly attached, the printing paper guide wheel module belt (306) is tightly attached to the printing paper guide wheel module driven wheel (307), the printing paper guide wheel module driven wheel (307) is rotatably installed with the printing paper guide wheel module vertical plate (302), the printing paper guide wheel module driven wheel (307) is fixedly installed with the printing paper guide wheel module driven wheel shaft (308), and the printing paper guide wheel module driven wheel shaft (308) is fixedly installed with the printing paper guide wheel module friction sleeve (309).

5. The automatic printer for electronic ceramics according to claim 1, characterized in that: the lower guide wheel module (4) further comprises a lower guide wheel module supporting shaft (402), a lower guide wheel module driving friction wheel shaft (403), a lower guide wheel module large friction wheel (404), a lower guide wheel module driven friction wheel shaft (405), a lower guide wheel module driven friction wheel (406), a lower guide wheel module inclined bracket (407), a lower guide wheel module bracket shaft (408), a lower guide wheel module friction sleeve (409), a lower guide wheel module motor (410), a lower guide wheel module upper large bracket (411), a lower guide wheel module upper center plate (412), a lower guide wheel module front panel (413), a lower guide wheel module upper motor (414), a lower guide wheel module upper driving wheel (415), a lower guide wheel module upper belt (416), a lower guide wheel module upper driven wheel (417), a lower guide wheel module upper driven shaft (418) and a lower guide wheel module upper friction sleeve (419), wherein the lower guide wheel module side panel (401) is fixedly installed with the lower guide wheel module supporting shaft (402), a lower guide wheel module side panel (401) is rotatably installed with a lower guide wheel module driving friction wheel shaft (403) and a lower guide wheel module driven friction wheel shaft (405), the lower guide wheel module driving friction wheel shaft (403) is fixedly installed with a lower guide wheel module large friction wheel (404), the lower guide wheel module driven friction wheel shaft (405) is fixedly installed with a lower guide wheel module driven friction wheel (406), a lower guide wheel module inclined bracket (407) is fixedly installed with a lower guide wheel module side panel (401), the lower guide wheel module inclined bracket (407) is rotatably installed with a lower guide wheel module bracket shaft (408), the lower guide wheel module bracket shaft (408) is fixedly installed with a lower guide wheel module friction sleeve (409), a lower guide wheel module motor (410) is fixedly installed with the lower guide wheel module driving friction wheel shaft (403), the lower guide wheel module motor (410) is fixedly installed with the lower guide wheel module side panel (401), the lower guide wheel module side panel (401) is fixedly installed with a lower guide wheel module upper large bracket (411), an upper large support (411) of the lower guide wheel module is fixedly installed with an upper central plate (412) of the lower guide wheel module, the upper central plate (412) of the lower guide wheel module is fixedly installed with a front panel (413) of the lower guide wheel module, the front panel (413) of the lower guide wheel module is fixedly installed with an upper motor (414) of the lower guide wheel module, the upper motor (414) of the lower guide wheel module is fixedly installed with an upper driving wheel (415) of the lower guide wheel module, the upper driving wheel (415) of the lower guide wheel module is tightly attached to an upper belt (416) of the lower guide wheel module, an upper driven wheel (417) of the lower guide wheel module is tightly attached to an upper driven shaft (418) of the lower guide wheel module, and the upper driven shaft (418) of the lower guide wheel module is fixedly installed with an upper friction sleeve (419) of the lower guide wheel module.

6. The automatic printer for electronic ceramics according to claim 1, characterized in that: the ceramic transport module (5) also comprises two side plates (501) of the ceramic transport module, a roller (502) of the ceramic transport module, a bracket (503) of the ceramic transport module, a central roller (504) of the ceramic transport module, an inclined plate (505) of the ceramic transport module, a bottom plate (506) of the ceramic transport module and a tail plate (507) of the ceramic transport module, wherein the two side plates (501) of the ceramic transport module and the roller (502) of the ceramic transport module are rotatably mounted, the two side plates (501) of the ceramic transport module and the bracket (503) of the ceramic transport module are fixedly mounted, the bracket (503) of the ceramic transport module and the central roller (504) of the ceramic transport module are rotatably mounted, the central roller (504) of the ceramic transport module and the inclined plate (505) of the ceramic transport module are fixedly mounted, the bottom plate (506) of the ceramic transport module, the two side plates, the ceramic transport module tail plate (507) is fixedly installed with two side plates (501) of the ceramic transport module.

7. The automatic printer for electronic ceramics according to claim 1, characterized in that: the driven guide wheel module (6) further comprises a driven guide wheel module upper large rolling shaft (601), a driven guide wheel module upper side plate (602), a driven guide wheel module upper rolling shaft (603), a driven guide wheel module vertical side plate (604), a driven guide wheel module vertical rolling shaft (605), a driven guide wheel module bracket (606), a driven guide wheel module bracket shaft (607), a driven guide wheel module middle joint plate (608), a driven guide wheel module lower bracket (609), a driven guide wheel module lower central shaft (610), a driven guide wheel module lower friction sleeve (611), a driven guide wheel module lower multi-section shaft (612) and a driven guide wheel module tail plate (613), wherein the driven guide wheel module upper large rolling shaft (601) is rotatably installed with the driven guide wheel module upper side plate (602), the driven guide wheel module upper side plate (602) is rotatably installed with the driven guide wheel module upper rolling shaft (603), the driven guide wheel module vertical side plate (604) is rotatably installed with the driven guide wheel module vertical rolling shaft, a driven guide wheel module support (606) and a driven guide wheel module vertical side plate (604) are fixedly installed, the driven guide wheel module support (606) and a driven guide wheel module support shaft (607) are rotatably installed, the driven guide wheel module support shaft (607) and a driven guide wheel module middle connecting plate (608) are fixedly installed, a driven guide wheel module lower support (609) and a driven guide wheel module vertical side plate (604) are fixedly installed, a driven guide wheel module lower support (609) and a driven guide wheel module lower central shaft (610) are rotatably installed, the driven guide wheel module lower central shaft (610) and a driven guide wheel module lower friction sleeve (611) are fixedly installed, the driven guide wheel module lower support (609) and a driven guide wheel module lower multi-section shaft (612) are rotatably installed, and the driven guide wheel module lower support (609) and a driven guide wheel module tail plate (613) are fixedly installed.

8. The automatic printer for electronic ceramics according to claim 1, characterized in that: and the vertical side plate (604) of the driven guide wheel module is rotatably arranged with the upper roller (603) of the driven guide wheel module.

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