CN112092494A - Double-rail full-automatic screen printer - Google Patents

Abstract

The application relates to the technical field of printing equipment, in particular to a double-track full-automatic screen printer, which comprises a feeding mechanism, a printing mechanism, a baking mechanism and a receiving mechanism, wherein the feeding mechanism, the printing mechanism, the baking mechanism and the receiving mechanism are sequentially arranged, the feeding mechanism is used for placing a to-be-printed product, the printing mechanism is used for printing the to-be-printed product, the baking mechanism is used for drying the printed finished product, and the receiving mechanism is used for rolling the dried finished product; wherein receiving agencies includes first quick-witted case, locates the first workstation on first quick-witted case and locates double rolling subassembly on the first workstation, parallel and linear setting between the adjacent rolling subassembly, the rolling subassembly is including being used for guiding the first guided way that the printing finished product removed along predetermined orbit, being used for the finished product's of extension printing carousel and being used for the finished product's of rolling printing receipts charging tray. This application is through the production mode of multitrack, when improving space utilization on limited space, improvement production efficiency by times.

Description

Double-rail full-automatic screen printer

Technical Field

The application relates to the technical field of printing equipment, in particular to a double-track type full-automatic screen printing machine.

Background

Screen printing belongs to stencil printing and is known as four major printing methods together with lithographic, embossing and gravure printing. The stencil printing includes stencil printing, spray printing, screen printing, etc. The principle of stencil printing is: when printing, the printing plate (paper film plate or other plate base is made with holes capable of passing through ink) transfers ink to the printing stock (paper, ceramic, etc.) through the holes of the hole plate by certain pressure to form image or characters.

Most current printing machines are produced in stages, firstly, printed matters processed in generation are printed, and then, after printed finished products are dried in air or physically dried, wherein manual operation is needed in the links, and in the process of printing the finished products, the production efficiency is low.

Content of application

To the not enough of above-mentioned prior art, the purpose of this application is to provide a full-automatic silk screen printing machine of double track formula to realize the production methods of multitrack, when improving space utilization on limited space, the improvement production efficiency by times.

The technical purpose of the application is realized by the following technical scheme: a double-track full-automatic screen printer comprises a feeding mechanism, a printing mechanism, a baking mechanism and a material receiving mechanism which are sequentially arranged, wherein the feeding mechanism is used for placing a to-be-printed product, the printing mechanism is used for printing the to-be-printed product, the baking mechanism is used for drying the printed finished product, and the material receiving mechanism is used for winding the dried printed finished product;

the receiving mechanism comprises a first case, a first workbench arranged on the first case and double rows of rolling assemblies arranged on the first workbench, wherein the rolling assemblies are arranged side by side and linearly arranged, each rolling assembly comprises a first guide rail for guiding a printing finished product to move along a preset track, a rotary disc for unfolding the printing finished product and a receiving disc for rolling the printing finished product, the first guide rail, the rotary disc and the receiving disc are arranged in sequence in a linear manner, the rotary disc and the receiving disc are respectively and rotatably connected onto the first workbench, a first driving piece for driving the receiving disc to rotate is arranged in the first case, a plurality of rotary discs corresponding to the receiving discs one by one are arranged on the first workbench, a plurality of guide columns are arranged on the first workbench and are distributed at intervals along a symmetrical axis between the rotary disc and the receiving disc, the printed finished product is wound on the guide post.

Further, feed mechanism includes the frame, be provided with double material loading subassembly in the frame, the material loading subassembly is including bearing the last charging tray of treating the printed matter and the dish of flare-outing that will treat the printed matter, go up the charging tray with the dish of flare-outing rotates respectively in the frame, the frame is close to printing mechanism one side is provided with the second guided way, the second guided way go up the charging tray and the dish of flare-outing three is located same horizontal plane, wherein treat that the printed matter is drawn forth by last charging tray, is drawn to by the second guide way after encircleing the dish of flare-outing printing mechanism.

Furthermore, the printing mechanism comprises a second case and a second workbench arranged on the second case, wherein third guide rails for guiding the printed products to slide along a preset track are respectively arranged at two ends of the second workbench, a printing assembly for printing the printed products is arranged on the second workbench, and the printing assembly is positioned above the second workbench.

Further, the printing component comprises a scraper used for scraping the screen plate and a second driving piece driving the scraper to slide on the second case, the second case is connected with a mounting plate in a sliding mode, the scraper is installed on the mounting plate, and the second driving piece is connected with the mounting plate.

Further, the baking mechanism comprises a box body, a heating tube is arranged on the inner wall of the box body, a drift diameter for printing finished products to pass through is arranged in the box body, and a sliding rail for sliding the printing finished products is arranged in the box body.

Further, the sliding track is arranged in a Z shape.

Furthermore, a clamping mechanism for vertically placing the printing finished product is arranged in the box body along the sliding rail.

Furthermore, fixture includes along the holder that the slip track direction set up, the holder is with two centre gripping posts that the slip track set up as the symmetry axis, and is adjacent reverse motion between the centre gripping post, be provided with the drive in the box centre gripping post pivoted third driving piece.

Furthermore, fixture is including locating a plurality of drive assembly on the box, and is a plurality of drive assembly sets up along the sliding track, drive assembly is used for accepting the printing finished product and removes in between the heating tube.

Further, the transmission assembly comprises a plurality of transmission rollers arranged along the direction of the sliding track, and convex edges for surrounding the printing finished products are arranged on the surfaces of the transmission rollers.

The beneficial effect of this application is:

1. after the printed product is placed on the feeding mechanism and printed by the printing mechanism, the printed finished product is physically baked by the baking mechanism, and after the baking is finished, the baked finished product is rolled by the receiving mechanism, so that the aim of integrated automatic production is fulfilled, and the production efficiency is greatly improved;

2. receiving agencies adopts double track formula setting, and the printing finished product that the printing was accomplished is through first guide rail introduction, through the carousel, combs and straightens the printing finished product, carries out the curl through the material collecting tray again, and double track formula setting makes space utilization obtain further improvement, and production efficiency also promotes doubly, and the coordinated receipts of this receiving agencies's multi-element formula in addition are expected for the printing finished product can not glue and be in one, has improved printing finished product quality.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a schematic view of an overall flow line of an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a loading mechanism according to an embodiment of the present application;

FIG. 3 is a schematic structural view of a printing mechanism according to an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a toasting mechanism according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a receiving mechanism in an embodiment of the present application.

Reference numerals: 1. a feeding mechanism; 11. feeding a material plate; 12. straightening the disc; 13. a frame; 14. a second guide rail; 2. a printing mechanism; 21. a second chassis; 22. a second table; 23. a third guide rail; 24. a printing assembly; 25. a scraper; 26. a second driving member; 27. mounting a plate; 3. a baking mechanism; 31. a box body; 32. a heat generating tube; 33. passing through; 34. a sliding track; 4. a material receiving mechanism; 41. a first chassis; 42. a first table; 43. a first guide rail; 44. a turntable; 45. a guide post; 46. a material receiving disc; 5. a clamping mechanism; 51. a clamping post; 52. a driving roller; 53. and (4) a convex edge.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, refer to an orientation or positional relationship illustrated in the drawings for convenience in describing the present application and to simplify description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

A double-track full-automatic screen printer is disclosed, and referring to fig. 1 to 5, the screen printer comprises a feeding mechanism 1, a printing mechanism 2, a baking mechanism 3 and a receiving mechanism 4 which are sequentially arranged, wherein the feeding mechanism 1 is used for placing a to-be-printed product, the printing mechanism 2 is used for printing the to-be-printed product, the baking mechanism 3 is used for drying a printed finished product, and the receiving mechanism 4 is used for rolling the dried printed finished product;

the receiving mechanism 4 comprises a first case 41, a first workbench 42 arranged on the first case 41 and double rows of winding assemblies arranged on the first workbench 42, wherein the winding assemblies are arranged in parallel and linearly, each winding assembly comprises a first guide rail 43 used for guiding a printing finished product to move along a predetermined track, a rotary disc 44 used for unfolding the printing finished product and a receiving disc 46 used for winding the printing finished product, the first guide rail 43, the rotary disc 44 and the receiving disc 46 are arranged in sequence in a linear manner, the rotary disc 44 and the receiving disc 46 are respectively connected to the first workbench 42 in a rotating manner, a first driving piece used for driving the receiving disc 46 to rotate is arranged in the first case 41, a plurality of rotary discs 44 corresponding to the receiving disc 46 one to one are arranged on the first workbench 42, a plurality of guide columns 45 are arranged on the first workbench 42, the guide posts 45 are distributed at intervals along a symmetry axis between the turntable 44 and the material receiving tray 46, and the printing finished product is wound on the guide posts 45.

Treat in this implementation that the printed matter is through placing on feed mechanism 1, after printing mechanism 2 prints, carry out the physics through toasting mechanism 3 with the printing finished product that has printed and toast, treat to toast after accomplishing, will toast the printing finished product that is good by receiving agencies 4 and carry out the rolling to this realizes integration automatic production's purpose, improves production efficiency greatly.

Receiving agencies 4 adopts double track formula setting, and the printing finished product that the printing was accomplished is through first guide rail introduction, through carousel 44, combs and straightens the printing finished product, carries out the curl through material collecting tray 46 again, and double track formula setting makes space utilization obtain further improvement, and production efficiency also promotes doubly, and the coordinated receipts of this receiving agencies 4's multi-element in addition are expected for the printing finished product can not glue in one, has improved printing finished product quality.

Specifically, feed mechanism 1 includes frame 13, be provided with double feeding subassembly in the frame 13, the feeding subassembly is including bearing the last charging tray 11 of treating the printed matter and will treating the stretched out dish 12 of straightened of printed matter, go up charging tray 11 with straightened dish 12 rotates respectively in on the frame 13, frame 13 is close to 2 one sides of printing mechanism are provided with second guided way 14, second guided way 14 go up charging tray 11 and straightened dish 12 three is located same horizontal plane, wherein treat that the printed matter is drawn out by last charging tray 11, encircle and draw to by the second guide way after being straightened dish 12 rounds printing mechanism 2.

The to-be-printed matter is placed in the feeding tray 11, the to-be-printed matter surrounds the straightening tray 12, the to-be-printed matter is laid in a straight line, and the to-be-printed matter is guided to the printing mechanism 2 in a straight line by the second guide rail 14 through the rotation of the straightening tray 12 and the feeding tray 11 on the rack 13.

Specifically, the printing mechanism 2 includes a second chassis 21 and a second workbench 22 disposed on the second chassis 21, two ends of the second workbench 22 are respectively provided with a third guide rail 23 for guiding a printed product to slide along a predetermined track, the second workbench 22 is provided with a printing assembly 24 for printing the printed product, and the printing assembly 24 is located above the second workbench 22.

The to-be-printed matter is led into the printing assembly 24 along the third guide rail 23, the to-be-printed matter is subjected to product coating printing through the printing assembly 24, and after the printing assembly 24 finishes printing, the to-be-printed matter is led out through the third guide rail 23, so that the printed finished product flows into the baking mechanism 3.

Specifically, the printing assembly 24 includes a scraper 25 for scraping the screen plate and a second driving member 26 for driving the scraper 25 to slide on the second case 21, a mounting plate 27 is connected to the second case 21 in a sliding manner, the scraper 25 is installed on the mounting plate 27, and the second driving member 26 is connected to the mounting plate 27.

The present embodiment drives the mounting plate 27 to move by the second driving member 26, so that the scraper 25 mounted on the mounting plate 27 follows the mounting plate 27 to move.

Specifically, the baking mechanism 3 includes a box 31, a heating tube 32 is disposed on an inner wall of the box 31, a drift diameter 33 for a printing finished product to pass through is disposed in the box 31, and a sliding rail 34 for the printing finished product to slide is disposed in the box 31.

The printed printing finished product passes through the box body 31 through the drift diameter 33 and slides along the sliding track, and the printed printing finished product is physically dried by utilizing the heating tube 32 arranged on the inner wall of the box body 31, so that the quality of the printed printing finished product is further guaranteed.

Specifically, the sliding rail 34 is disposed in a zigzag shape.

The sliding track 34 that is the zigzag setting in this embodiment has prolonged the sliding track of sliding track 34 on the one hand, and on the other hand is through the mode of extension sliding track 34 for the printing finished product of placing along sliding track 34 has prolonged the toasting time, makes the quality of printed matter obtain further guarantee.

Specifically, a clamping mechanism 5 for vertically placing the printing finished product is arranged in the box 31 along the sliding rail 34.

The clamping mechanism 5 is arranged to vertically place the printed finished product, and the vertically placed printed finished product is just opposite to the heating tube 32 to move, so that the printed finished product is further baked with the maximum efficiency.

Specifically, fixture 5 includes along the holder that slip track 34 direction set up, the holder is with two centre gripping posts 51 that slip track 34 set up as the symmetry axis, and is adjacent reverse motion between the centre gripping post 51, be provided with the drive in the box 31 centre gripping post 51 pivoted third driving piece.

In this embodiment, the bisymmetric clamping columns 51 are arranged, the clamping columns 51 are used for clamping the printed product, and the bisymmetric clamping columns 51 move in opposite directions through the third driving member, so as to achieve the purpose of pushing the printed product.

Specifically, the clamping mechanism 5 includes a plurality of transmission assemblies disposed on the box 31, the transmission assemblies are disposed along the sliding track, and the transmission assemblies are configured to receive the printing product and move between the heating tubes 32.

As the sliding rails 34 are arranged in a Z shape, transmission assemblies are arranged at the corners of the Z shape, and the purpose of arranging and placing the Z-shaped sliding rails 34 is achieved.

Specifically, the transmission assembly comprises a plurality of transmission rollers 52 arranged along the direction of the sliding track, and convex edges 53 for surrounding the printing finished product are arranged on the surfaces of the transmission rollers 52.

The drive assembly in this embodiment passes the latus rectum earlier with the printing finished product through a plurality of driving roller settings, passes the protruding edge on the driving roller again, will print the protruding edge that the finished product encircleed for the printing finished product passes the latus rectum again, and later comes and goes back and forth along former latus rectum through a plurality of driving roller again, and final material is received to final flow direction receiving mechanism, completion.

Claims (10)

1. The utility model provides a full-automatic silk screen printing machine of double track formula, characterized by: the automatic printing machine comprises a feeding mechanism (1), a printing mechanism (2), a baking mechanism (3) and a material receiving mechanism (4) which are sequentially arranged, wherein the feeding mechanism (1) is used for placing a to-be-printed product, the printing mechanism (2) is used for printing the to-be-printed product, the baking mechanism (3) is used for drying the printed finished product, and the material receiving mechanism (4) is used for winding the dried printed finished product;

the receiving mechanism (4) comprises a first case (41), a first workbench (42) arranged on the first case (41) and double-row winding components arranged on the first workbench (42), and is adjacent to the winding components which are arranged in parallel and linearly, the winding components comprise a first guide rail (43) used for guiding a printing finished product to move along a preset track, a rotating disc (44) used for unfolding the printing finished product and a receiving disc (46) used for winding the printing finished product, the first guide rail (43), the rotating disc (44) and the receiving disc (46) are arranged in sequence in a linear mode, the rotating disc (44) and the receiving disc (46) are respectively connected to the first workbench (42) in a rotating mode, a first driving part used for driving the receiving disc (46) to rotate is arranged in the first case (41), a plurality of rotating discs (44) corresponding to the receiving disc (46) one by one are arranged on the first workbench (42), be provided with a plurality of guide posts (45) on first workstation (42), it is a plurality of guide post (45) along carousel (44) with interval distribution on the symmetry axis between material receiving plate (46), the printing finished product twine in guide post (45).

2. The dual-rail full-automatic screen printing machine according to claim 1, wherein: feed mechanism (1) includes frame (13), be provided with double feeding subassembly in frame (13), feeding subassembly is including bearing the last charging tray (11) of not printing the finished product and the dish (12) of flare-outing that will not print the finished product, go up charging tray (11) with dish (12) of flare-outing rotate respectively in on frame (13), frame (13) are close to printing mechanism (2) one side is provided with second guided way (14), second guided way (14) go up charging tray (11) and dish (12) of flare-outing three are located same horizontal plane, and wherein treat that the printed matter is drawn forth by last charging tray (11), encircle and draw-outing dish (12) round back and lead to by the second guide way printing mechanism (2).

3. The dual-rail full-automatic screen printing machine according to claim 2, wherein: the printing mechanism (2) comprises a second case (21) and a second workbench (22) arranged on the second case (21), wherein third guide rails (23) for guiding printed products to slide along a preset track are respectively arranged at two ends of the second workbench (22), a printing assembly (24) for printing the printed products is arranged on the second workbench (22), and the printing assembly (24) is located above the second workbench (22).

4. The dual-rail full-automatic screen printing machine according to claim 3, wherein: printing element (24) slide in second driving piece (26) of second quick-witted case (21) including scraper (25) and drive scraper (25) that are used for scraping the screen board, sliding connection has mounting panel (27) on second quick-witted case (21), scraper (25) install in on mounting panel (27), second driving piece (26) with mounting panel (27) are connected.

5. The dual-rail full-automatic screen printing machine according to claim 4, wherein: the baking mechanism (3) comprises a box body (31), a heating tube (32) is arranged on the inner wall of the box body (31), a drift diameter (33) for printing finished products to pass through is arranged in the box body (31), and a sliding track (34) for the printing finished products to slide is arranged in the box body (31).

6. The dual-rail full-automatic screen printing machine according to claim 5, wherein: the sliding track (34) is arranged in a Z shape.

7. The dual-rail full-automatic screen printing machine according to claim 6, wherein: and a clamping mechanism (5) for vertically placing the printing finished product is arranged in the box body (31) along the sliding rail (34).

8. The dual-rail full-automatic screen printing machine according to claim 7, wherein: fixture (5) include along the holder that slip track (34) direction set up, the holder is with two centre gripping post (51) that slip track (34) set up as the symmetry axis, and is adjacent reverse motion between centre gripping post (51), be provided with the drive in box (31) centre gripping post (51) pivoted third driving piece.

9. The dual-rail full-automatic screen printing machine according to claim 8, wherein: the clamping mechanism (5) comprises a plurality of transmission assemblies arranged on the box body (31), the transmission assemblies are arranged along the sliding track, and the transmission assemblies are used for receiving printing finished products and moving between the heating tubes (32).

10. The dual-rail full-automatic screen printing machine according to claim 9, wherein: the transmission assembly comprises a plurality of transmission rollers (52) arranged along the direction of the sliding track, and convex edges (53) for surrounding printing finished products are arranged on the surfaces of the transmission rollers (52).

Images