CN112874179A

CN112874179A - Intelligent printing machine and operation method thereof

Info

Publication number: CN112874179A
Application number: CN202110212395.1A
Authority: CN
Inventors: 冯利春
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-25
Filing date: 2021-02-25
Publication date: 2021-06-01

Abstract

The invention discloses an intelligent printing machine and an operation method thereof, wherein the intelligent printing machine comprises a printing machine main body, a printing head is arranged at the upper end of the printing machine main body in a matching mode, printed cloth is arranged on the left side of the printing machine main body, a main stepping motor is fixedly connected to the right lower side of the printing machine main body, a winding column is fixedly connected to the main shaft end of the main stepping motor, and a cooling and reinforcing mechanism is arranged on the right side of the printing head. According to the invention, the first electric telescopic rod is upwards extended by triggering the key switch, the supporting tube uniformly distributed above the first electric telescopic rod is upwards abutted to the lower part of the printed cloth by the first electric telescopic rod, the abutted printed cloth is propped open by the top ball at the upper end of the supporting tube and the raised particles on the outer wall of the supporting tube, so that the line gap of the cloth body is enlarged, the printed spray can conveniently permeate into the printed cloth, and meanwhile, the air suction pump starts to operate, and the heat at the printed position on the printed cloth contacted with the upper side is pumped away through the telescopic suction nozzle and the supporting tube.

Description

Intelligent printing machine and operation method thereof

Technical Field

The invention relates to the technical field of printing machines, in particular to an intelligent printing machine and an operation method thereof.

Background

The current printing machine type is many, mainly has flat screen printing machine, circular screen printing machine, digital printing machine and race platform printing machine, and present printing machine carries out the operation and the drying process of stamp through the horizontally conduction band transmission mainly.

The traditional printing machine has the following defects:

after general calico printing machine printing and dyeing is accomplished, still need carry out one section on the conduction band and remove and provide dyestuff infiltration and firm time, it is relatively time-consuming, low efficiency, if direct font pattern that leads to printing and dyeing again through the wind pressure effect expands the scattering easily, influence the finished product effect, and general printing and dyeing pattern effect needs the manual work to go the inspection, calico printing machine itself can't go the monitoring and processing, it is relatively troublesome, general printing and dyeing is all through horizontal conduction band transmission simultaneously, guarantee to spread out a period, whole device will occupy bigger place like this.

Disclosure of Invention

The invention aims to provide an intelligent printing machine and an operation method thereof, and aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent printing machine comprises a printing machine main body, wherein a printing head is arranged at the upper end of the printing machine main body in a matching mode, a printed cloth is arranged on the left side of the printing machine main body, a main stepping motor is fixedly connected to the lower right side of the printing machine main body, a winding column is fixedly connected to the main shaft end of the main stepping motor, a cooling reinforcing mechanism is arranged on the right side of the printing head, the cooling reinforcing mechanism comprises a supporting frame, a first electric telescopic rod, a supporting transverse plate, a conveying belt, an auxiliary supporting plate, an air suction pump, a telescopic suction nozzle, a magnet, a supporting pipe, a top ball, protruding particles, an iron plate, an air cooler, a storage box, a square inner frame, a bottom plate, a sealing column, a lower pressing plate and a square surrounding frame, the supporting transverse plate is horizontally and fixedly connected to the upper end of the first electric telescopic rod, the auxiliary supporting plate is horizontally arranged on the lower side of the conveying belt, the conveying belt is provided with an air pump, the telescopic suction nozzle is fixedly connected with an air suction end of the air pump, the magnet is fixedly connected with a port of the telescopic suction nozzle in a surrounding manner, the iron plate is horizontally arranged right above the conveying belt, the supporting tubes are uniformly distributed on the upper end surface of the iron plate, the top balls and the raised particles are arranged at the upper end of the supporting tubes, the air conditioner is arranged right above the supporting frame, the storage box is fixedly connected with the lower side of the air conditioner, the square inner frame is connected with the inner side of the storage box, the bottom plate is horizontally arranged on the inner side of the lower end of the storage box, the square surrounding frame is embedded between the square inner frame and the storage box in a sliding manner, the bottom plate is provided with closed columns in an, the device comprises a supporting transverse plate, a proximity inductive switch, a trigger rod, a main stepping motor and a trigger button switch, wherein the proximity inductive switch is fixedly connected to the upper side of the right end of the supporting transverse plate, the trigger rod is fixedly connected to the rotating shaft end of the main stepping motor, and the trigger button switch is fixedly mounted above the position where the main stepping motor is located.

Furthermore, a detection mechanism is arranged on the right side of the supporting frame, the detection mechanism comprises an image scanner, an image size measuring instrument, a processing machine body, a second electric telescopic rod, a connecting frame, a pigment cylinder, a marking cotton body, a sealing plug and a pressure sensing switch, the image scanner is arranged on the right side of the supporting frame, the image size measuring instrument is electrically connected to the lower side of the image scanner, the processing machine body is arranged on the lower side of the image size measuring instrument, a data receiving module is arranged in the processing machine body and electrically connected with a data outgoing end of the image size measuring instrument, an output end of the data receiving module is electrically connected with a comparison module, an output end of the comparison module is electrically connected with an extension starting module, a standard size database is arranged in the processing machine body and electrically connected with the comparison module, the horizontal fixedly connected with second electric telescopic handle of downside of handling the organism, the extension control circuit of second electric telescopic handle with the extension starts the module electricity and is connected, link fixed connection is in the flexible end of second electric telescopic handle, the equal fixedly connected with pigment section of thick bamboo of link upper and lower ends, the fixed setting of mark cotton is in the lower extreme left side of pigment section of thick bamboo, and the mark cotton with the inboard contact of pigment section of thick bamboo, the forced induction switch fixed mounting be in pigment section of thick bamboo with between the link end, simultaneously the forced induction switch with the shrink control circuit electricity of second electric telescopic handle is connected.

Further, the winding column comprises a stepping electric telescopic rod, a connecting block, a linkage rod, an inflator pump, a communicating hose, a strip-shaped plate, a storage barrel, a corrugated telescopic airbag, an one-way air valve, a guide rail and a butt joint, the stepping electric telescopic rod is horizontally and fixedly connected with the rear end of the winding column, a contraction control circuit of the stepping electric telescopic rod is electrically connected with the trigger button switch, the connecting block is fixedly connected with the rear end of the stepping electric telescopic rod, the linkage rod is movably connected with the edge of the connecting block, the inflator pump is fixedly installed on the connecting block, the inflator pump is electrically connected with the trigger button switch, the strip-shaped plate is distributed at the edge of the rear end of the winding column around the equal distance, the storage barrel is fixedly connected with the equal distance on the strip-shaped plate, and the corrugated telescopic airbag is horizontally arranged in the storage barrel, one-way pneumatic valve fixed mounting be in the stiff end of flexible gasbag of ripple, butt joint tube head swing joint be in the gangbar is terminal, the laminating of butt joint tube head one-way pneumatic valve place side, guide rail fixed connection be in bar shape board border position, butt joint tube head sliding connection the guide rail, butt joint tube head with the end of giving vent to anger of inflator pump passes through the intercommunication hose connection.

Further, the air suction pump is connected with the conveyor belt through particle balls.

Furthermore, auxiliary supporting legs are fixedly connected to two sides of the air extracting pump.

Further, the front end of the winding column is fixedly connected with a fixing sleeve, the fixing sleeve is sleeved at the main shaft end of the main stepping motor, and the fixing sleeve is fixedly connected with the main stepping motor through screws.

Further, the outer wall of the supporting frame is coated with a smoothing agent.

An operation method of an intelligent printing machine comprises the following specific steps:

after the printing head prints the printed cloth under the printed cloth, the main stepping motor is started once to pull the printed pattern part of the printed cloth to move to the position right above the supporting frame, meanwhile, the trigger rod rotates for a circle and just props against the trigger key switch, the trigger key switch enables the first electric telescopic rod to extend upwards, the first electric telescopic rod drives the supporting tube uniformly distributed above the supporting tube to prop against the lower part of the printed cloth upwards, the propping ball at the upper end of the supporting tube and the raised particles on the outer wall of the supporting tube prop open the butted printed cloth, so that the line gap of the cloth body is enlarged, the printed spray materials can conveniently permeate into the printed cloth, the air suction pump starts to run, the tail end of the telescopic suction nozzle on the air suction pump at the upper left side position is adsorbed and attached to the lower side of the iron plate by means of attraction between the magnet and the iron plate and just aims at the lower port, the air suction pump sucks heat at the printing position on the printed cloth contacted with the upper side through the telescopic suction nozzle and the supporting pipe, meanwhile, the printing spray material is driven to permeate into the cloth body by virtue of downward flowing air flow, the conveying belt is driven by the auxiliary stepping motor to rotate clockwise step by step, so that the air suction pump butted at the lower side of the iron plate at the upper side is enabled to translate right step by step, and the air suction pump is butted at the lower end of the supporting pipe at different positions, so that the printing position of the printed cloth butted at the upper end of the supporting pipe is gradually absorbed, and the phenomenon that when the whole printed pattern position is directly absorbed or blown, the air pressure is too large, air flow beams are mutually interfered, the force of the printed cloth is changed too much, and the undried;

when the conveyor belt drives the air pump moving rightwards to rotate to the lower right side position and the proximity inductive switch is triggered, the proximity inductive switch stops the auxiliary stepping motor and the air pump, the first electric telescopic rod is made to shrink downwards at the same time, the first electric telescopic rod shrinks and resets to drive the square surrounding frame descending ring in the storage box to be at the position of the printed cloth pattern, when the square surrounding frame descends, the square surrounding frame drives the sealing column to be separated from the bottom plate, the bottom plate is hollowed out, the lower pressing plate connected above descends and is lapped on the square inner frame, cold air generated by the air conditioner in the storage box is pushed to the inner side space of the descending square surrounding frame, the cold air is settled on the printed cloth, the printed pattern is solidified, the cold air in the storage box is reduced, after the temperature rises, the air conditioner is operated by the temperature control switch, and the cold air is continuously injected into the storage box, when the main stepping motor moves again under the action of the controller, the printed cloth part with the cured pattern is pulled away, and meanwhile, the printing head prints a second pattern and slides to the upper side of the support frame along with the movement of the main stepping motor;

thirdly, when the main stepping motor operates once and pulls the printed cloth to be pulled between the supporting frame and the image scanner from the horizontal position, the image scanner scans the patterns on the printed cloth to form electronic images, the electronic images are transmitted into the image size measuring instrument, the image size measuring instrument calculates the overall size of the printed pattern and transmits the overall size to the processor body through the data receiving module, the comparison module compares the collected data with the standard size in the standard size database, if a larger error exists, a signal is fed back to the extension starting module, the extension starting module enables the second electric telescopic rod to extend, the second electric telescopic rod extrudes the upper side and the lower side of the printed pattern through the marking cotton body on the pigment barrel connected with the connecting frame, then the marking cotton body extrudes the pigment absorbed from the pigment barrel on the printed cloth, and the pigment is conveniently screened out by later-stage workers, when the marking cotton body and the pigment barrel are extruded on the printed calico, the pressure induction switch is subjected to a reaction force to enable the second electric telescopic rod to contract and reset;

the fourth step is when main step motor is taking the rotatory calico of coiling post coiling, the trigger bar just contradicts to trigger key switch last time, cause step-by-step electric telescopic handle to stretch out and draw back once, and when the shrink, the connecting block just makes the gangbar promotion of distribution once along the guide rail translation to the nipple head, all stop in one-way pneumatic valve position department to the nipple head at every turn, and the pump all inflates once at every turn, make gaseous through to the nipple head, one-way pneumatic valve is filled to ripple flexible gasbag, cause ripple flexible gasbag transversely to strut, just rely on the ripple flexible gasbag that struts between the calico of coiling like this one by one to separate, avoid the calico to roll up around the laminating together, lead to the pattern to seal up, simultaneously through coiling the calico, reduce the space that whole device occupy, avoid transversely to expand occupation space too big.

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

1. the invention triggers the key switch to extend the first electric telescopic rod upwards, the first electric telescopic rod drives the supporting tube uniformly distributed above to prop up to the lower part of the printed cloth, the top ball at the upper end of the supporting tube and the raised particles on the outer wall of the supporting tube prop up the propping printed cloth, so that the line gap of the cloth body is enlarged, the printed spray material can conveniently permeate into the printed cloth, the air suction pump starts to operate, the tail end of the telescopic suction nozzle on the air suction pump at the upper left side is adsorbed and attached to the lower side of the iron plate by depending on the attraction force between the magnet and the iron plate, so that the air suction pump can draw the heat at the printed position on the printed cloth contacted at the upper side by the telescopic suction nozzle and the supporting tube, meanwhile, the printed spray material can permeate into the cloth body by depending on the downward flowing air flow, and the auxiliary stepping motor drives the air suction pump to gradually absorb heat rightwards by the conveying belt, thereby, the force change of the printed cloth is too large, so that the undried sprayed printing materials are diffused or become pasty, and after heat absorption is completed, the first electric telescopic rod is made to shrink downwards by approaching the inductive switch, so that the descending ring of the square surrounding frame in the storage box is positioned at the pattern position of the printed cloth, then the closed column is driven to be separated from the bottom plate, the bottom plate is hollowed out, meanwhile, the lower pressing plate connected above the lower pressing plate descends and is lapped on the square inner frame, cold air generated by the air cooler in the storage box is pushed into the inner space of the descending square surrounding frame, and the cold air is settled on the printed cloth, so that the printed pattern is solidified;

2. when the printed calico is pulled between the supporting frame and the image scanner from the horizontal position, the image scanner scans the patterns on the printed calico to form an electronic image, then the printed pattern is transmitted into an image size measuring instrument, the image size measuring instrument calculates the whole size of the printed pattern and transmits the printed pattern into a processing machine body through a data receiving module, the comparison module then compares the collected data with the standard dimensions in the standard dimension database, and if there is a large error, then a signal is fed back to the extension starting module, the extension starting module enables the second electric telescopic rod to extend, the second electric telescopic rod extrudes the upper side and the lower side of the printed pattern through the marking cotton body on the pigment cylinder connected with the connecting frame, then the marking cotton body extrudes and coats the pigment absorbed from the pigment cylinder on the printed cloth, thereby facilitating the screening of later-stage workers;

3. when a main stepping motor drives a winding column to rotate and wind a piece of printed cloth, a trigger rod is abutted against a trigger button switch once, so that a stepping electric telescopic rod stretches once, when the stepping electric telescopic rod contracts, a connecting block enables a distributed linkage rod to push a butt joint pipe head to translate once along a guide rail, the butt joint pipe head stays at the position of a one-way air valve every time, an inflator pump inflates once every time, air is filled into a corrugated telescopic air bag through the butt joint pipe head and the one-way air valve, so that the corrugated telescopic air bag is transversely expanded, the printed cloth wound one by one is separated by the expanded corrugated telescopic air bag, the printed cloth is prevented from being wound and attached together, patterns are prevented from being printed, meanwhile, the space occupied by the whole device is reduced by winding the printed cloth, and the occupied space for transverse expansion is prevented from being too large.

Drawings

FIG. 1 is a schematic view of the overall structure of an intelligent printing machine according to the present invention;

FIG. 2 is a schematic structural diagram of a cooling and reinforcing mechanism in an intelligent printing machine according to the present invention;

FIG. 3 is a schematic view of a top view structure of a square inner frame, a square bottom plate and a storage box in an intelligent printing machine according to the invention;

FIG. 4 is a schematic view of a partially enlarged structure of a matching connection between an air suction pump and a conveyor belt in an intelligent printing machine according to the present invention;

FIG. 5 is a schematic view of a top view structure of the fitting connection of the top ball, the support tube and the raised particles in the intelligent printing machine according to the present invention;

FIG. 6 is a schematic diagram of the module components in the processing body of the intelligent printing machine according to the present invention;

FIG. 7 is a schematic view of a partially enlarged structure of the pigment cylinder and the marking cotton body in the intelligent printing machine according to the present invention;

FIG. 8 is a left side view schematically illustrating the winding post of the intelligent printing machine according to the present invention;

FIG. 9 is a schematic rear view of a storage barrel, a butt joint pipe joint and a winding post of the intelligent printing machine according to the present invention;

fig. 10 is a partially enlarged structural schematic view of the matching connection between the corrugated expansion airbag and the storage barrel and the butt joint in the intelligent printing machine according to the present invention.

In FIGS. 1-10: 1. a printing machine main body; 2. a print head; 3. a printing support table; 4. turning the column; 5. a cloth rolling cylinder; 6. printing on a printed cloth; 7. cooling and reinforcing mechanism; 8. an image scanner; 9. fixing a sleeve; 10. an image size measuring instrument; 11. processing the organism; 12. a second electric telescopic rod; 13. a detection mechanism; 14. a connecting frame; 15. a data receiving module; 16. a comparison module; 17. a standard size database; 18. an elongation start module; 19. an air conditioner; 20. a temperature control switch; 21. a storage box; 22. a lower pressing plate; 23. a square inner frame; 24. a square enclosure frame; 25. closing the column; 26. a base plate; 27. a support frame; 28. supporting a tube; 29. ejecting the ball; 30. an iron plate; 31. an air pump; 32. an auxiliary support plate; 33. a first electric telescopic rod; 34. supporting the transverse plate; 35. a proximity sensing switch; 36. a conveyor belt; 37. a sub-stepping motor; 38. auxiliary supporting legs; 39. a particle sphere; 40. a telescopic suction nozzle; 41. a magnet; 42. raised particles; 43. a paint cartridge; 44. marking cotton; 45. a closing plug; 46. a pressure sensitive switch; 47. winding the column; 48. an inflator pump; 49. connecting blocks; 50. a communication hose; 51. a linkage rod; 52. a butt joint head; 53. a strip plate; 54. a storage cylinder; 55. a step-by-step electric telescopic rod; 56. a main stepping motor; 57. triggering a key switch; 58. a trigger lever; 59. a corrugated expansion air bag; 60. a one-way air valve; 61. a guide rail.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides an intelligent printing machine, including calico printing machine main part 1, the upper end of calico printing machine main part 1 has set print head 2, the downside of print head 2 has set printing support table 3, the left side fixedly connected with rotary column 4 of calico printing machine main part 1, rotary column 4 is in the front and back trend position, change the spool 5 that has cup jointed on the rotary column 4, the last calico 6 that has rolled up of spool 5, the right downside fixedly connected with main step motor 56 of calico printing machine main part 1, main step motor 56 has set step controller, the main shaft end fixedly connected with of main step motor 56 winds the post 47, the end fixedly connected with of calico printing 6 winds the post 47, the right side of print head 2 is provided with cooling strengthening mechanism 7, cooling strengthening mechanism 7 includes carriage 27, first electric telescopic handle 33, support diaphragm 34, conveyer belt 36, auxiliary support plate 32, aspiration pump 31, flexible suction nozzle 40, magnet 41, stay tube 28, The device comprises a top ball 29, raised particles 42, an iron plate 30, an air cooler 19, a storage box 21, a square inner frame 23, a bottom plate 26, a closed column 25, a lower pressing plate 22 and a square surrounding frame 24, wherein the supporting frame 27 is fixedly connected to the right side of a printing machine main body 1, a printed calico 6 is horizontally lapped on the upper side of the supporting frame 27, a first electric telescopic rod 33 is vertically and fixedly connected to the lower side of the supporting frame 27, a supporting transverse plate 34 is horizontally and fixedly connected to the upper end of the first electric telescopic rod 33, a conveying belt 36 is horizontally arranged on the supporting transverse plate 34, the left end and the right end of the conveying belt 36 are connected with the supporting transverse plate 34 in a matching manner through a driving wheel, an auxiliary stepping motor 37 is arranged on a driving wheel on the left side of the conveying belt 36, an auxiliary supporting plate 32 is horizontally arranged on the lower side of the upper half circle of the conveying belt 36, the telescopic suction nozzle 40 is fixedly connected at the suction end of the suction pump 31, the telescopic suction nozzle 40 is of a horizontal bar type, the magnet 41 is fixedly connected at the port of the telescopic suction nozzle 40 in a surrounding manner, the iron plate 30 is horizontally arranged right above the conveyor belt 36, the iron plate 30 is fixedly connected with the telescopic end of the first electric telescopic rod 33 through a rod body, the supporting pipes 28 are uniformly distributed on the upper end surface of the iron plate 30 and are perpendicular to the iron plate 30, the top ball 29 is fixedly connected at the upper end of the supporting pipes 28, the raised particles 42 are uniformly distributed on the outer wall of the top ball 29, the air cooler 19 is arranged right above the supporting frame 27, the air cooler 19 is fixedly connected with the decorating machine main body 1, the storage box 21 is fixedly connected at the lower air outlet end of the air cooler 19, the square inner frame 23 is fixedly connected at the inner side of the storage box 21 through a rod body and close to the lower end, the square surrounding frame 24 is embedded in a gap between the square inner frame 23 and the storage box 21 in a sliding manner, meanwhile, the square surrounding frame 24 is fixedly connected with the telescopic end of the first electric telescopic rod 33 through a rod body, the bottom plate 26 is evenly embedded with the sealing column 25, the sealing column 25 is fixedly connected with the square surrounding frame 24 through the rod body, a lower pressing plate 22 is arranged right above the square inner frame 23, the lower pressing plate 22 is fixedly connected with the square surrounding frame 24 through the rod body, the inner wall of the storage box 21 is fixedly provided with a temperature control switch 20, the temperature control switch 20 is electrically connected with the air conditioner 19, the upper side of the right end of the supporting transverse plate 34 is fixedly connected with an approach induction switch 35, the approach induction switch 35 is electrically connected with a contraction control circuit of the first electric telescopic rod 33, an auxiliary stepping motor 37 and a stop control circuit of the air suction pump 31, a rotating shaft end of the main stepping motor 56, trigger button switch 57 is electrically connected with the extension control circuit of main step motor 56, auxiliary step motor 37 and air pump 31 starting circuit, after print head 2 prints print cloth 6 under, main step motor 56 is started once, the print pattern part of print cloth 6 is pulled to move to the position over supporting frame 27, meanwhile, trigger rod 58 rotates for a circle and just props against trigger button switch 57, trigger button switch 57 makes first electric telescopic rod 33 extend upwards, first electric telescopic rod 33 props against the lower part of print cloth 6 upwards with supporting tube 28 uniformly distributed above, and top ball 29 at the upper end of supporting tube 28 and raised particles 42 on the outer wall of supporting tube 28 prop open the butted print cloth 6, so that the wire gap of the cloth body is enlarged, print spray is convenient to permeate into print cloth 6, and simultaneously, pump 31 starts to run, and the tail end of telescopic suction nozzle 40 on air pump 31 at the upper left side position depends on magnet 41 and 30 between magnet The suction force is absorbed and attached to the lower side of the iron plate 30 and is just aligned with the lower port of the leftmost support tube 28, so that the air suction pump 31 sucks heat at the printing position on the printed cloth 6 contacted with the upper side through the telescopic suction nozzle 40 and the support tube 28, meanwhile, the downward flowing air flow drives the printing spray material to permeate into the cloth body, the auxiliary stepping motor 37 drives the conveyor belt 36 to rotate clockwise and gradually, the air suction pump 31 butted at the lower side of the iron plate 30 at the upper side is enabled to translate towards the right gradually, the lower end of the support tube 28 at different positions is butted, the printing position of the printed cloth 6 butted at the upper end of the support tube 28 is enabled to absorb heat gradually, and when the whole printing pattern position is directly absorbed or blown, the air pressure is too large, the air flow beam is interfered with each other, the force change of the printed cloth 6 is too large, and the undrie, when the conveyor belt 36 drives the air pump 31 moving to the lower right side position to trigger the proximity sensing switch 35, the proximity sensing switch 35 stops the auxiliary stepping motor 37 and the air pump 31, and simultaneously causes the first electric telescopic rod 33 to contract downwards, and the first electric telescopic rod 33 contracts and returns to the original position, so as to drive the square surrounding frame 24 in the storage box 21 to descend and circle at the pattern position of the printed cloth 6, and when the square surrounding frame 24 descends, the sealing column 25 is driven to separate from the bottom plate 26, so that the bottom plate 26 is hollowed out, and simultaneously the lower pressing plate 22 connected above descends and laps on the square inner frame 23, so as to push the cold air generated by the air cooler 19 in the storage box 21 to the space inside the descending square surrounding frame 24, so that the cold air is settled on the printed cloth 6, the printed pattern is solidified, the cold air in the storage box 21 is reduced, and after the temperature rises, the temperature control switch 20 drives the air cooler 19 to operate, and continuously injecting cold air into the storage box 21 for facilitating subsequent use, when the main stepping motor 56 moves again under the action of the controller, the part of the printed cloth 6 with the cured pattern is pulled away, and meanwhile, the printing head 2 prints a second pattern and slides to the upper side of the supporting frame 27 along with the movement of the main stepping motor 56.

The right side of the supporting frame 27 is provided with a detection mechanism 13, the detection mechanism 13 comprises an image scanner 8, an image size measuring instrument 10, a processing machine body 11, a second electric telescopic rod 12, a connecting frame 14, a pigment cylinder 43, a marking cotton body 44, a closing plug 45 and a pressure sensing switch 46, the image scanner 8 is arranged on the right side of the supporting frame 27, the image size measuring instrument 10 is electrically connected to the lower side of the image scanner 8, the processing machine body 11 is arranged on the lower side of the image size measuring instrument 10, a data receiving module 15 is arranged in the processing machine body 11, the data receiving module 15 is electrically connected with a data transmitting end of the image size measuring instrument 10, an output end of the data receiving module 15 is electrically connected with a comparison module 16, an output end of the comparison module 16 is electrically connected with an extension starting module 18, a standard size database 17 is arranged in the processing machine body 11, the standard size database 17 stores standard sizes of printed patterns, the lower side of the processing machine body 11 is horizontally and fixedly connected with a second electric telescopic rod 12, the left end of the second electric telescopic rod 12 is a telescopic end, an extension control circuit of the second electric telescopic rod 12 is electrically connected with an extension starting module 18, a connecting frame 14 is fixedly connected with the telescopic end of the second electric telescopic rod 12, the upper end and the lower end of the connecting frame 14 are fixedly connected with pigment barrels 43, and red pigments are filled in the pigment barrels 43; the marking cotton 44 is fixedly arranged at the left side of the lower end of the pigment cylinder 43, the marking cotton 44 is in contact with the inner side of the pigment cylinder 43, the pressure sensing switch 46 is fixedly arranged between the pigment cylinder 43 and the end of the connecting frame 14, meanwhile, the pressure sensing switch 46 is electrically connected with the contraction control circuit of the second electric telescopic rod 12, when the main stepping motor 56 operates once to pull the printed cloth 6 to be pulled to be between the supporting frame 27 and the image scanner 8 from the horizontal position, the image scanner 8 scans the patterns on the printed cloth 6 to form electronic images, and then the electronic images are transmitted to the image size measuring instrument 10, the image size measuring instrument 10 calculates the overall size of the printed patterns, and transmits the electronic images to the processing machine body 11 through the data receiving module 15, then the comparison module 16 compares the collected data with the standard size in the standard size database 17, if a large error exists, then a signal is fed back to the extension starting module 18, the extension starting module 18 enables the second electric telescopic rod 12 to extend, the second electric telescopic rod 12 is extruded to the upper side and the lower side of the printed pattern through the marking cotton body 44 on the pigment barrel 43 connected with the connecting frame 14, then the marking cotton body 44 extrudes the pigment absorbed from the pigment barrel 43 to be coated on the printed cloth 6, the later-stage workers can conveniently screen out the pigment, and when the marking cotton body 44 and the pigment barrel 43 are extruded on the printed cloth 6, the pressure sensing switch 46 receives a reaction force to enable the second electric telescopic rod 12 to retract and reset.

The winding column 47 comprises a stepping electric telescopic rod 55, a connecting block 49, a linkage rod 51, an inflator pump 48, a communicating hose 50, a strip-shaped plate 53, a storage barrel 54, a corrugated telescopic air bag 59, a one-way air valve 60, a guide rail 61 and a butt joint pipe 52, the stepping electric telescopic rod 55 is horizontally and fixedly connected to the rear end of the winding column 47, a contraction control circuit of the stepping electric telescopic rod 55 is electrically connected with a trigger key switch 57, the connecting block 49 is fixedly connected to the rear end of the stepping electric telescopic rod 55, the linkage rod 51 is movably connected to the edge of the connecting block 49 through a hinge, the linkage rod 51 is equidistantly distributed around the connecting block 49, the inflator pump 48 is fixedly installed on the connecting block 49, the inflator pump 48 is electrically connected with the trigger key switch 57, the strip-shaped plate 53 is equidistantly distributed at the edge of the rear end of the winding column 47, the strip-shaped plate 53 is perpendicular to the, the corrugated telescopic air bag 59 is horizontally arranged in the storage barrel 54, one end of the corrugated telescopic air bag 59 is fixedly connected with the inner wall of the storage barrel 54, the other end of the corrugated telescopic air bag is a movable end, the one-way air valve 60 is fixedly arranged at the fixed end of the corrugated telescopic air bag 59, the ventilation flow direction of the one-way air valve 60 flows towards the inner side of the outer side of the corrugated telescopic air bag 59, the butt joint pipe joint 52 is movably connected at the tail end of the linkage rod 51 through a hinge, the butt joint pipe joint 52 is attached to the side of the one-way air valve 60, the guide rail 61 is fixedly connected at the edge position of the strip-shaped plate 53, the butt joint pipe joint 52 is slidably connected with the guide rail 61, the butt joint pipe joint 52 is connected with the air outlet end of the inflator pump 48 through the communication hose 50, when the main stepping motor 56 rotates to wind the primary printed cloth 6 with, connecting block 49 just makes the gangbar 51 that distributes promote the butt joint head 52 once along guide rail 61 translation, the butt joint head 52 all stops in one-way pneumatic valve 60 position department at every turn, and every turn inflator pump 48 all aerifys once, make gaseous through butt joint head 52, one-way pneumatic valve 60 is filled in to flexible gasbag 59 of ripple, cause flexible gasbag 59 of ripple to transversely strut, just rely on the flexible gasbag 59 of ripple that struts to separate between the calico 6 of coiling one by one like this, avoid calico 6 to roll up to paste together, lead to the pattern to be printed, simultaneously through coiling calico 6, reduce the space that whole device occupy, it is too big to avoid transversely expanding occupation space.

The suction pump 31 is connected to the conveyor 36 by means of particle spheres 39, which particle spheres 39 connect the suction pump 31 to the conveyor 36 at a single point, thereby facilitating passage through the turning point of the conveyor 36.

Auxiliary supporting feet 38 are fixedly connected to two sides of the air suction pump 31, and the auxiliary supporting feet 38 are convenient for stably supporting the air suction pump 31 when the air suction pump is in a vertical position.

The front end of the winding column 47 is fixedly connected with a fixing sleeve 9, the fixing sleeve 9 is sleeved at the main shaft end of the main stepping motor 56, and the fixing sleeve 9 is fixedly connected with the main stepping motor 56 through screws, so that the winding column is conveniently detached.

The outer wall of the supporting frame 27 is coated with a smoothing agent, so that the printed calico 6 can slide conveniently.

after the first step of printing the printed cloth 6 by the printing head 2, the main stepping motor 56 is started once to pull the printed pattern part of the printed cloth 6 to move to the position right above the supporting frame 27, and the trigger rod 58 rotates for a circle to just touch the trigger button switch 57, the trigger button switch 57 enables the first electric telescopic rod 33 to extend upwards, the first electric telescopic rod 33 drives the supporting tube 28 uniformly distributed above to touch the lower part of the printed cloth 6 upwards, and the top ball 29 at the upper end of the supporting tube 28 and the raised particles 42 on the outer wall of the supporting tube 28 open the touched printed cloth 6, so that the line gap of the cloth body is enlarged, the printed spray can conveniently permeate into the printed cloth 6, the air suction pump 31 starts to operate, and the tail end of the telescopic 40 on the air suction pump 31 at the upper left side is attached to the lower side of the iron plate 30 by means of the attraction between the magnet 41 and the iron plate 30, the air suction pump 31 is just aligned with the lower port of the leftmost support pipe 28, so that the heat of the printing position on the printed cloth 6 contacted with the upper side is sucked away by the air suction nozzle 40 and the support pipe 28, meanwhile, the downward flowing air flow drives the printing spray material to permeate into the cloth body, and the auxiliary stepping motor 37 drives the conveyor belt 36 to clockwise and gradually rotate, so that the air suction pump 31 butted with the lower side of the iron plate 30 at the upper side gradually translates rightwards, and is butted with the lower end of the support pipe 28 at different positions, the printing position of the printed cloth 6 butted with the upper end of the support pipe 28 is gradually absorbed, and the phenomenon that when the whole printed pattern position is directly absorbed or blown, the air pressure is overlarge air flow bundle to interfere with each other, so that the printed cloth 6 is excessively stressed and changed, and the undried printing spray material is;

secondly, when the conveyor belt 36 rotates to the lower right side with the air pump 31 moving right and triggers the proximity inductive switch 35, the proximity inductive switch 35 stops the auxiliary stepping motor 37 and the air pump 31, at the same time, the first electric telescopic rod 33 contracts downwards, and the first electric telescopic rod 33 contracts and resets, drives the square surrounding frame 24 in the storage box 21 to descend and circle at the pattern position of the printed cloth 6, and when the square surrounding frame 24 descends, the square surrounding frame 24 drives the sealing post 25 to separate from the bottom plate 26, so that the bottom plate 26 is hollowed out, meanwhile, the lower pressing plate 22 connected above descends and is lapped on the square inner frame 23, pushes the cold air generated by the air cooler 19 in the storage box 21 to the inner space of the descending square surrounding frame 24, so that the cold air is settled on the printed cloth 6, the printed pattern is solidified, the cold air in the storage box 21 is reduced, and after the temperature rises, the air cooler 19 is operated by the temperature control switch 20, continuously injecting cold air into the storage box 21 for facilitating subsequent use, when the main stepping motor 56 moves again under the action of the controller, pulling away the part of the printed calico 6 with the cured pattern, and simultaneously printing the second pattern by the printing head 2, and sliding to the upper side of the supporting frame 27 along with the movement of the main stepping motor 56;

thirdly, when the main stepping motor 56 runs once to pull the printed calico 6 to be pulled between the supporting frame 27 and the image scanner 8 from the horizontal position, the image scanner 8 scans the pattern on the printed calico 6 to form an electronic image, and then transmits the electronic image to the image size measuring instrument 10, the image size measuring instrument 10 calculates the overall size of the printed calico and transmits the overall size to the processing machine body 11 through the data receiving module 15, the comparison module 16 compares the collected data with the standard size in the standard size database 17, if a large error exists, a signal is fed back to the extension starting module 18, the extension starting module 18 enables the second electric telescopic rod 12 to extend, the second electric telescopic rod 12 extrudes the marking cotton 44 on the pigment cylinder 43 connected with the connecting frame 14 to the upper side and the lower side of the printed calico, and then the marking cotton 44 extrudes the pigment absorbed from the pigment cylinder 43 on the printed calico 6, the screening of workers at the later stage is facilitated, and when the marking cotton body 44 and the pigment cylinder 43 are extruded on the printed calico 6, the pressure sensing switch 46 is subjected to a counterforce to enable the second electric telescopic rod 12 to be contracted and reset;

fourthly, when the main stepping motor 56 drives the winding post 47 to rotate and wind the printed calico 6 once, the trigger rod 58 is abutted against the trigger button switch 57 once, so that the stepping electric telescopic rod 55 extends once, when the printed calico 6 is contracted, the connecting block 49 enables the distributed linkage rod 51 to push the butt joint head 52 to translate once along the guide rail 61, the butt joint head 52 stays at the position of the one-way air valve 60 every time, and the air pump 48 inflates once every time, so that the air is filled into the corrugated telescopic air bag 59 through the butt joint head 52 and the one-way air valve 60, so that the corrugated telescopic air bag 59 is transversely expanded, thus the printed calico 6 wound one by one is separated by the expanded corrugated telescopic air bag 59, the printed calico 6 is prevented from being wound and attached together, patterns are prevented from being printed, and simultaneously, the space occupied by the whole device is reduced by winding the printed calico 6, the overlarge occupied space of the transverse unfolding is avoided.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An intelligent printing machine, comprising a printing machine main body (1), characterized in that: the upper end of the printing machine main body (1) is provided with a printing head (2), and the left side of the printing machine main body (1) is provided with a printing head (2). A printed cloth (6) is provided, a main stepping motor (56) is fixedly connected to the lower right side of the main body of the printing machine (1), and a winding column (56) is fixedly connected to the main shaft end of the main stepping motor (56). 47), a cooling reinforcement mechanism (7) is provided on the right side of the print head (2), and the cooling reinforcement mechanism (7) includes a support frame (27), a first electric telescopic rod (33), a support cross plate ( 34), conveyor belt (36), auxiliary support plate (32), air pump (31), telescopic suction nozzle (40), magnet (41), support tube (28), top ball (29), raised particles (42) ), iron plate (30), air conditioner (19), storage box (21), square inner frame (23), bottom plate (26), closing column (25), lower pressing plate (22) and square surrounding frame (24) , the support transverse plate (34) is horizontally and fixedly connected to the upper end of the first electric telescopic rod (33), the conveyor belt (36) is horizontally arranged on the support transverse plate (34), and the conveyor belt (36) ) is provided with a secondary stepping motor (37) on the left side, the auxiliary support plate (32) is horizontally arranged on the lower side of the conveyor belt (36), and the conveyor belt (36) is provided with an air pump (31), the The telescopic suction nozzle (40) is fixedly connected to the suction end of the air pump (31), the magnet (41) is peripherally and fixedly connected to the port of the telescopic suction nozzle (40), and the iron plate (30) Horizontally arranged directly above the conveyor belt (36), the support tubes (28) are evenly distributed on the upper end surface of the iron plate (30), and the top balls (29) and the raised particles (4) are arranged At the upper end of the support pipe (28), the air conditioner (19) is arranged just above the support frame (27), and the storage box (21) is fixedly connected to the lower side of the air conditioner (19), so The square inner frame (23) is connected to the inner side of the storage box (21), the bottom plate (26) is horizontally arranged on the inner side of the lower end of the storage box (21), and the square surrounding frame (24) is slidably fitted to the inner side of the storage box (21). Between the square inner frame (23) and the storage box (21), a closing column (25) is evenly fitted on the bottom plate (26), and a lower pressing plate is arranged directly above the square inner frame (23). (22), a proximity sensor switch (35) is fixedly connected to the upper side of the right end of the support transverse plate (34), and a trigger rod (58) is fixedly connected to the shaft end of the main stepping motor (56). A trigger button switch (57) is fixedly installed above the position where the intake motor (56) is located.

2 . The intelligent printing machine according to claim 2 , wherein a detection mechanism ( 13 ) is provided on the right side of the support frame ( 27 ), and the detection mechanism ( 13 ) includes an image scanner ( 8 ). 3 . , image size measuring instrument (10), processing body (11), second electric telescopic rod (12), connecting frame (14), paint tube (43), marking cotton body (44), closing plug (45) and pressure Induction switch (46), the image scanner (8) is arranged on the right side of the support frame (27), and the image size measuring instrument (10) is electrically connected to the lower side of the image scanner (8) , the processing body (11) is arranged on the lower side of the image size measuring instrument (10), the processing body (11) is provided with a data receiving module (15), and the data receiving module (15) is connected with the The data outgoing end of the image size measuring instrument (10) is electrically connected, the output end of the data receiving module (15) is electrically connected with a comparison module (16), and the output end of the comparison module (16) is electrically connected with an elongation activation module (18), the processing body (11) is provided with a standard size database (17), the standard size database (17) is electrically connected with the comparison module (16), and the lower side of the processing body (11) A second electric telescopic rod (12) is horizontally and fixedly connected, the extension control circuit of the second electric telescopic rod (12) is electrically connected with the extension start module (18), and the connection frame (14) is fixedly connected At the telescopic end of the second electric telescopic rod (12), the upper and lower ends of the connecting frame (14) are fixedly connected with a paint tube (43), and the marking cotton body (44) is fixedly arranged on the paint tube (43). 43), and the marking cotton body (44) is in contact with the inner side of the paint tube (43), and the pressure-sensitive switch (46) is fixedly installed on the paint tube (43) and the connecting frame (14) between the ends, while the pressure sensing switch (46) is electrically connected to the contraction control circuit of the second electric telescopic rod (12).

3. An intelligent printing machine according to claim 1, characterized in that: the winding column (47) comprises a step-by-step electric telescopic rod (55), a connecting block (49), a linkage rod (51), Inflator pump (48), connecting hose (50), strip plate (53), storage cylinder (54), corrugated telescopic air bag (59), one-way air valve (60), guide rail (61) and butt joint ( 52), the step-type electric telescopic rod (55) is horizontally and fixedly connected to the rear end of the winding column (47), the step-type electric telescopic rod (55) shrinks the control circuit and the trigger button switch (57) Electrical connection, the connection block (49) is fixedly connected at the rear end of the step-by-step electric telescopic rod (55), and the linkage rod (51) is movably connected to the connection block (49) At the edge, the air pump (48) is fixedly installed on the connecting block (49), the air pump (48) is electrically connected with the trigger button switch (57), and the strip plate (53) surrounds Equidistantly distributed at the rear end edge of the winding column (47), the strip plate (53) is fixedly connected with a receiving cylinder (54) at an equal distance, and the corrugated telescopic airbag (59) is horizontally arranged on the Inside the storage cylinder (54), the one-way air valve (60) is fixedly installed on the fixed end of the corrugated telescopic airbag (59), and the butt joint (52) is movably connected to the end of the linkage rod (51) , the butt joint (52) is attached to the side where the one-way air valve (60) is located, the guide rail (61) is fixedly connected to the edge of the strip plate (53), and the butt joint ( 52) The guide rail (61) is slidably connected, and the butt joint (52) is connected with the air outlet end of the air pump (48) through the communication hose (50).

4 . The intelligent printing machine according to claim 1 , wherein the air pump ( 31 ) and the conveyor belt ( 36 ) are connected by particle spheres ( 39 ). 5 .

5 . The intelligent printing machine according to claim 1 , wherein auxiliary support feet ( 38 ) are fixedly connected to both sides of the air pump ( 31 ). 6 .

6. An intelligent printing machine according to claim 1, characterized in that: the front end of the winding column (47) is fixedly connected with a fixing sleeve (9), and the fixing sleeve (9) is sleeved on the main step into the main shaft end of the motor (56), and the fixing sleeve (9) and the main stepping motor (56) are fixedly connected by screws.

7 . The intelligent printing machine according to claim 1 , wherein the outer wall of the support frame ( 27 ) is coated with a lubricant. 8 .

8. the operation method of a kind of intelligent printing machine according to claim 1-7, is characterized in that, concrete steps are as follows:

In the first step, after the printing head (2) prints the printed cloth (6) directly below, the main stepping motor (56) is started once, and the printed pattern part of the printed cloth (6) is pulled to move to the correct position of the support frame (27). At the same time, the trigger rod (58) rotates a circle and just touches the trigger button switch (57), and the trigger button switch (57) causes the first electric telescopic rod (33) to extend upward, and the first electric telescopic rod (33) ) with the evenly distributed support tube (28) up against the bottom of the printed cloth (6), and the top ball (29) at the upper end of the support tube (28) and the raised particles (42) on the outer wall of the support tube (28) will The conflicting printed cloth (6) is stretched, so that the line gap of the cloth body becomes larger, which facilitates the penetration of the printing material into the printed cloth (6). The end of the telescopic suction nozzle (40) on (31) relies on the attractive force between the magnet (41) and the iron plate (30) to be attached to the underside of the iron plate (30), and is aligned with the leftmost support tube (28) The lower port, so that the air pump (31) can extract the heat of the printing position on the printed cloth (6) that is in contact with the upper side through the telescopic suction nozzle (40) and the support pipe (28), and at the same time rely on the downward flowing airflow The printing spray material is driven to penetrate into the cloth body, and the auxiliary stepping motor (37) drives the conveyor belt (36) to rotate clockwise gradually, so that the air pump (31) whose upper side is connected to the lower side of the iron plate (30) is gradually moved to the right. Thereby, the lower ends of the support tubes (28) at different positions are connected to realize the gradual heat absorption of the printing positions of the printed cloth (6) which the upper ends of the support tubes (28) are in conflict with, so as to avoid direct heat absorption or blowing of the entire printing pattern position. When the air pressure is too large, the airflow is too large and interferes with each other, causing the force of the printing cloth (6) to change too much, thus causing the wet printing material to spread or become mushy;

In the second step, when the conveyor belt (36) with the right-moving air pump (31) turns to the lower right position and triggers the proximity sensor switch (35), the proximity sensor switch (35) will make the auxiliary stepping motor (37) And the air pump (31) is stopped, and at the same time, the first electric telescopic rod (33) is retracted downward, and when the first electric telescopic rod (33) is retracted and reset, it drives the square enclosing frame (24) in the storage box (21) to descend in a circle At the pattern position of the printed cloth (6), and when the square frame (24) descends, it is detached from the bottom plate (26) with the closing column (25), so that the bottom plate (26) is hollowed out, and at the same time the lower pressing plate connected above (22) The lowering is placed on the square inner frame (23), and the cold air generated by the air conditioner (19) in the storage box (21) is pushed into the inner space of the descending square surrounding frame (24), so that the cold air will settle into the printing On the cloth (6), the printing pattern is solidified, and the cold air in the storage box (21) is reduced. After the temperature rises, the temperature control switch (20) will make the air conditioner (19) run, and continue to the storage box (21). The cold air is injected to facilitate subsequent use. When the main stepping motor (56) moves again under the action of the controller, the printed cloth (6) with the cured pattern will be partially pulled away, and the second pattern will also be printed on the printing head (2). , and slide to the upper side of the support frame (27) with the movement of the main stepper motor (56);

In the third step, when the main stepping motor (56) runs once and pulls the printed cloth (6) from the horizontal position to the space between the support frame (27) and the image scanner (8), the image scanner (8) will move the printed cloth (6). 6) The pattern on the top is scanned and becomes an electronic image, which is then transmitted to the image size measuring instrument (10), and the image size measuring instrument (10) calculates the overall size of the printed pattern, and transmits it to the image size measuring instrument (10) through the data receiving module (15). Process the inside of the body (11), and then the comparison module (16) compares the collected data with the standard size in the standard size database (17). If there is a large error, the feedback signal is sent to the elongation start module (18). , the extension start module (18) makes the second electric telescopic rod (12) stretch, and the second electric telescopic rod (12) is connected by the connecting frame (14) to the marking cotton body (44) on the paint cylinder (43) ) is squeezed to the upper and lower sides of the printing pattern, and then the marking cotton body (44) will squeeze the pigment absorbed from the paint tube (43) on the printing cloth (6), which is convenient for the later staff to screen out, and when the marking cotton body (44) is used. When the body (44) and the pigment cylinder (43) are squeezed onto the printed cloth (6), the pressure-sensitive switch (46) is subjected to a reaction force, causing the second electric telescopic rod (12) to contract and reset;

Step 4 Whenever the main stepper motor (56) rotates with the winding column (47) to wind the printed cloth (6) once, the trigger lever (58) touches the trigger button switch (57) once, causing the stepping The electric telescopic rod (55) is telescopic once, and when it is retracted, the connecting block (49) makes the distributed linkage rod (51) push the butt joint (52) to translate along the guide rail (61) once, each time the butt joint The head (52) stays at the position of the one-way air valve (60), and each time the air pump (48) is inflated, so that the gas passes through the butt joint (52), the one-way air valve (60) to the direction of the air. The corrugated airbags (59) are filled in, causing the corrugated airbags (59) to be stretched horizontally, so that the printed cloths (6) wound one by one are separated by the stretched corrugated airbags (59) to avoid the printed cloth. (6) Rolling and sticking together results in the pattern being printed. At the same time, by winding the printed cloth (6), the space occupied by the whole device is reduced, and the space occupied by the horizontal expansion is avoided.