阅读说明：本技术 丝网印刷制版用上下料一体化装置及使用方法 (Feeding and blanking integrated device for screen printing plate making and using method ) 是由 陈震 于 2021-01-26 设计创作，主要内容包括：本申请涉及一种丝网印刷制版用上下料一体化装置,包括制版箱,制版箱一侧的侧壁上设有进料口,制版箱与进料口相对的一侧的侧壁上设有出料口,制版箱内转动连接有用于放置版体的承载框,承载框与上料方向相对的两侧壁上均贯穿设有供版体穿过的通槽,承载框上设有用于固定版体的固定机构；制版箱位于进料口一侧的侧壁上延伸设有上料机架,上料机架上靠近进料口的一端设有用于将版体推入承载框内的推动机构,上料机架上位于推动机构远离制版箱的一侧设有上料机构；制版箱内位于进料口一侧的侧壁内设有升降门一,制版箱位于出料口一侧的侧壁内设有升降门二,制版箱上设有升降机构。本申请具有实现版体快速上下料的效果。(The application relates to a feeding and discharging integrated device for screen printing plate making, which comprises a plate making box, wherein a feeding hole is formed in the side wall of one side of the plate making box, a discharging hole is formed in the side wall of one side of the plate making box opposite to the feeding hole, a bearing frame for placing a plate body is connected in the plate making box in a rotating mode, through grooves for the plate body to pass through are formed in the two side walls of the bearing frame opposite to the feeding direction in a penetrating mode, and a fixing mechanism for fixing the plate body is arranged on the bearing frame; a feeding frame is arranged on the side wall of the plate making box, which is positioned on one side of the feeding hole, in an extending manner, a pushing mechanism used for pushing the plate body into the bearing frame is arranged at one end, which is close to the feeding hole, of the feeding frame, and a feeding mechanism is arranged on one side, which is positioned on the pushing mechanism and is far away from the plate making box, of the feeding frame; be equipped with overhead door one in the lateral wall that is located feed inlet one side in the plate-making case, the plate-making case is located the lateral wall on one side of the discharge gate and is equipped with overhead door two, is equipped with elevating system on the plate-making case. This application has the effect of the unloading of realizing the version body fast.)

1. The utility model provides a silk screen printing plate-making is with unloading integrated device, includes plate-making case (1), its characterized in that: a feeding hole (10) is formed in the side wall of one side of the plate making box (1), a discharging hole (11) is formed in the side wall of one side, opposite to the feeding hole (10), of the plate making box (1), a bearing frame (2) used for placing a plate body (17) is rotatably connected between the two side walls, adjacent to the feeding hole (10), of the plate making box (1), through grooves (20) for the plate body (17) to penetrate through are formed in the two side walls, opposite to the feeding direction, of the bearing frame (2), and a fixing mechanism (3) used for fixing the plate body (17) is arranged on the bearing frame (2);

a feeding rack (4) is arranged on the side wall of the plate making box (1) on one side of the feeding hole (10) in an extending mode, a pushing mechanism (5) used for pushing a plate body (17) into the bearing frame (2) is arranged at one end, close to the feeding hole (10), of the feeding rack (4), and a feeding mechanism (6) is arranged on one side, far away from the plate making box (1), of the pushing mechanism (5) on the feeding rack (4);

be equipped with overhead door one (7) in the lateral wall that is located feed inlet (10) one side in plate-making case (1), plate-making case (1) is located the lateral wall of discharge gate (11) one side and is equipped with overhead door two (8), be equipped with on plate-making case (1) and be used for driving elevating system (9) that overhead door one (7), overhead door two (8) reciprocated lift.

2. The feeding and blanking integrated device for screen printing plate making according to claim 1, characterized in that: bearing frame (2) are located the lateral wall at logical groove (20) both ends and all are equipped with and place chamber one (21), all be equipped with on leading to groove (20) two relative cell walls and place slide opening (201) of chamber one (21) intercommunication, fixed establishment (3) are including length-adjustable expansion plate (31), be equipped with in bearing frame (2) and be used for driving expansion plate (31) synchronous flexible telescopic assembly (32) that lead to groove (20) both sides.

3. The feeding and blanking integrated device for screen printing plate making according to claim 2, characterized in that: it places chamber two (22) to lie in two in the lateral wall of carriage (2) and is equipped with between chamber one (21) and places chamber two (22), be equipped with on the cell wall that leads to groove (20) and place spacing spout (202) of chamber two (22) intercommunication, flexible subassembly (32) are including rotating two-way screw rod (321) of connecting in placing chamber two (22), be equipped with actuating lever (3111) on folded sheet (311) that lead to groove (20) both sides are close to mutually, one of them actuating lever (3111) passes the one end threaded connection of spacing spout (202) and two-way screw rod (321), another actuating lever (3111) passes the other end threaded connection of spacing spout (202) and two-way screw rod (321), the one end of two-way screw rod (321) is connected with micro motor (322).

4. The feeding and blanking integrated device for screen printing plate making according to claim 3, characterized in that: bearing frame (2) are located the lateral wall that leads to groove (20) one side and are equipped with spacing chamber (23), spacing chamber (23) are relative with placing chamber two (22), spacing chamber (23) with place chamber one (21), place chamber two (22) and all communicate, the top of folded sheet (311) is slided and is connected in spacing chamber (23).

5. The feeding and blanking integrated device for screen printing plate making according to claim 1, characterized in that: the feeding mechanism is characterized in that a transfer table (12) is arranged at one end, close to the feeding hole (10), of the feeding rack (4), the pushing mechanism (5) comprises a support (51) erected on the transfer table (12), a sliding plate (52) is connected to the support (51) in a sliding mode along the feeding direction, a pushing piece used for pushing the plate body (17) in a supporting mode is arranged on the sliding plate (52), a driving piece used for driving the pushing piece to lift in a reciprocating mode is arranged on the sliding plate (52), a driving assembly (55) used for driving the sliding plate (52) to slide in a reciprocating mode is arranged on the support (51), and a limiting plate (13) is arranged on the top wall, located on two sides of the feeding direction.

6. The feeding and blanking integrated device for screen printing plate making according to claim 5, characterized in that: one end of the transfer table (12) close to the feeding rack (4) is provided with a deviation rectifying mechanism (14) for rectifying the plate body (17).

7. The feeding and blanking integrated device for screen printing plate making according to claim 6, characterized in that: mechanism (14) of rectifying includes support frame (141), the top in material loading frame (4) is erect in support frame (141), material loading frame (4) are close to all to extend on two lateral walls of transfer station (12) one end and are equipped with fixed plate (142), it is connected with correction board (143) to slide on the top wall of fixed plate (142), be equipped with on support frame (141) and be used for driving adjusting part (144) that two correction boards (143) slided in step in opposite directions or back on the back mutually.

8. The feeding and blanking integrated device for screen printing plate making according to claim 7, characterized in that: the adjusting assembly (144) comprises a linkage rod (1441) rotatably connected to the bottom wall of the support frame (141), one end of the linkage rod (1441) is connected with one correction plate (143) through a first connecting rod (1442), the other end of the linkage rod (1441) is connected with the other correction plate (143) through a second connecting rod (1443), and an adjusting piece used for pushing the first connecting rod (1442) or the second connecting rod (1443) is arranged on the bottom wall of the support frame (141).

9. The feeding and blanking integrated device for screen printing plate making according to claim 1, characterized in that: plate-making case (1) is located the lateral wall of feed inlet (10), discharge gate (11) one side and all is equipped with smooth chamber (15), sliding door (7), two (8) of overhead door are slided and are connected in corresponding smooth chamber (15), the top of plate-making case (1) or the inside of bottom are equipped with and hold chamber (16), elevating system (9) are connected screw rod (91) and screw rod two (92) holding chamber (16) including rotating, screw rod (91) and overhead door (7) threaded connection, screw rod two (92) and overhead door two (8) threaded connection, it is used for driving screw rod (91), two (92) synchronous pivoted power component (93) to be equipped with in chamber (16).

10. A method for using a feeding and blanking integrated device for screen printing plate making comprising claim 9, characterized in that:

a. before feeding, a power assembly (93) is utilized to drive the first screw (91) and the second screw (92) to synchronously rotate, so that the first lifting door (7) and the second lifting door (8) synchronously vertically move downwards to expose the feeding hole (10) and the discharging hole (11);

b. during feeding, the plate body (17) is conveyed to one end, close to the feeding hole (10), of the feeding rack (4) by the aid of the feeding mechanism (6), and the plate body (17) is pushed into the bearing frame (2) from the feeding hole (10) by the aid of the pushing mechanism (5);

c. at the moment, the plate body (17) is fixed in the bearing frame (2) by using the fixing mechanism (3), and meanwhile, the power assembly (93) drives the screw rod I (91) and the screw rod II (92) to synchronously rotate, so that the lifting door I (7) and the lifting door II (8) synchronously vertically move upwards to close the feeding hole (10) and the discharging hole (11), and plate making is started;

d. after the plate making is completed, the first power assembly (93) drives the first screw rod (91) and the second screw rod (92) to synchronously rotate, so that the first lifting door (7) and the second lifting door (8) are synchronously opened, the fixing mechanism (3) is released, the next plate body (17) is pushed into the bearing frame (2) by utilizing the feeding mechanism (6), and when a new plate body (17) enters the bearing frame (2), the plate body (17) with the completed plate making is pushed out from the discharge hole (11), so that the quick feeding and discharging of the plate body (17) are completed.

Technical Field

The application relates to the technical field of screen printing, in particular to a feeding and blanking integrated device for screen printing plate making and a using method.

Background

The silk screen printing belongs to orifice plate printing, which comprises a stencil printing plate, a hollow flower printing plate, silk screen printing and the like, wherein the silk screen printing is used as a plate base to manufacture a silk screen printing plate with pictures and texts by a photosensitive plate making method.

The Chinese invention with the authorization notice number of CN109835048B discloses a screen printing plate making process, which comprises a plate making box, wherein an isolation cover plate is arranged at an outlet of the plate making box, a driving device and a first fixed block are respectively arranged on two opposite inner side walls of the plate making box, a fixed frame is arranged between the driving device and the first fixed block and comprises a clamping frame, a fixed plate and a fixed piece, a circular groove is arranged on one side of the clamping frame, threads are arranged in the circular groove, and the fixed plate is in threaded connection with the clamping frame through the fixed piece; before the plate making, the worker opens the isolation cover plate firstly, screws the fixing piece, unloads the fixed plate from the clamping frame, installs the plate body on the clamping frame, and finally fixes the plate body on the clamping frame through the cooperation of the fixing piece and the fixed plate.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: in foretell screen printing plate-making technology, the workman need be through the cooperation of mounting and fixed plate when going up the unloading, and the unloading of the manual version body that realizes is complex operation, wastes time and energy.

Disclosure of Invention

In order to improve the problem that the unloading wastes time and energy on the screen printing plate-making, the application provides a screen printing plate-making is with unloading integrated device and application method.

First aspect, the application provides a silk-screen printing is unloading integrated device for platemaking adopts following technical scheme:

a feeding and discharging integrated device for screen printing plate making comprises a plate making box, wherein a feeding hole is formed in the side wall of one side of the plate making box, a discharging hole is formed in the side wall of one side, opposite to the feeding hole, of the plate making box, a bearing frame used for placing a plate body is rotatably connected between the two side walls, adjacent to the feeding hole, in the plate making box, through grooves for the plate body to pass through are formed in the two side walls, opposite to the feeding direction, of the bearing frame in a penetrating mode, and a fixing mechanism used for fixing the plate body is arranged on the bearing frame;

a feeding frame is arranged on the side wall of the plate making box, which is positioned on one side of the feeding hole, in an extending manner, a pushing mechanism used for pushing the plate body into the bearing frame is arranged at one end, which is close to the feeding hole, of the feeding frame, and a feeding mechanism is arranged on the side, which is positioned on the pushing mechanism and is far away from the plate making box, of the feeding frame;

the plate making box is characterized in that a first lifting door is arranged in the side wall of one side of the feeding hole in the plate making box, a second lifting door is arranged in the side wall of one side of the discharging hole in the plate making box, and a lifting mechanism used for driving the first lifting door and the second lifting door to reciprocate is arranged on the plate making box.

Through adopting above-mentioned technical scheme, during the material loading, the workman utilizes elevating system drive overhead door to open earlier, utilize material loading feed mechanism to transmit the version body of treating the plate-making, and utilize pushing mechanism to push the version body from the feed inlet plate-making incasement, make the version body pass through logical groove and get into in the carriage, and utilize fixed establishment to fix the version body, plate-making after closing overhead door again, the plate-making is accomplished the back, reuse elevating system drive overhead door one, overhead door two is all opened, it promotes the next version body of treating the plate-making to the carriage in to recycle pushing mechanism, so that the next version body is released the version body that the plate-making is good from the discharge gate, thereby realize the unloading of the version body and go up fast, and labour saving and time saving, help promoting plate-making efficiency.

Optionally, the bearing frame is provided with a first placing cavity in the side walls at the two ends of the through groove, the two opposite groove walls of the through groove are provided with sliding holes communicated with the first placing cavity, the fixing mechanism comprises a telescopic plate with adjustable length, and telescopic assemblies for driving the telescopic plates on the two sides of the through groove to synchronously stretch are arranged in the bearing frame.

Through adopting above-mentioned technical scheme, under the initial state, the folded sheet is accomodate and is being placed the chamber one, and after the version body got into the carriage, the folded sheet that utilizes flexible subassembly drive to lead to groove both sides slided in opposite directions to the lateral wall with the version body supports tightly to fix the version body stable in the carriage.

Optionally, it places chamber two to lie in two in the lateral wall of bearing frame and place and be equipped with between the chamber one, be equipped with on the cell wall that leads to the groove and place the spacing spout of two intercommunications in chamber, flexible subassembly is including rotating the two-way screw rod of connecting in placing chamber two, it is equipped with the actuating lever on the folded sheet that leads to the groove both sides and be close to mutually, one of them the actuating lever passes the one end threaded connection of spacing spout and two-way screw rod, another the actuating lever passes the other end threaded connection of spacing spout and two-way screw rod, the one end of two-way screw rod is connected.

By adopting the technical scheme, when the plate body needs to be limited, the micro motor is used for driving the two-way screw rod to rotate, and under the guiding action of the limiting sliding chute, the two-way screw rod drives the two driving rods to synchronously slide in opposite directions, so that the folding plates on two sides of the through groove slide out of the first placing cavity; when the version body is released, the micro motor is utilized to drive the bidirectional screw rod to rotate reversely, under the guiding effect of the limiting sliding groove, the bidirectional screw rod drives the two driving rods to slide back to back synchronously, and therefore the folding plates on two sides of the through groove slide back to back and are stored in the placing cavity.

Optionally, a limiting cavity is formed in the side wall, located on one side of the through groove, of the bearing frame, the limiting cavity is opposite to the placing cavity, the limiting cavity is communicated with the placing cavity I and the placing cavity II, and the top end of the folding plate is connected in the limiting cavity in a sliding mode.

By adopting the technical scheme, when the two-way screw drives the driving rod to slide, the sliding process of the folding plate is guided to a certain extent by utilizing the limiting cavity.

Optionally, a transfer table is arranged at one end, close to the feed inlet, of the feeding rack, the pushing mechanism comprises a support erected on the transfer table, a sliding plate is connected to the support in a sliding mode along the feeding direction, a pushing piece used for pushing the plate body in a supporting mode is arranged on the sliding plate, a driving piece used for driving the pushing piece to lift in a reciprocating mode is arranged on the sliding plate, a driving assembly used for driving the sliding plate to slide in a reciprocating mode is arranged on the support, and limiting plates are arranged on top walls, located on two sides of the feeding direction, of the transfer table.

Through adopting above-mentioned technical scheme, utilize drive assembly drive slide to the top of the version body earlier, recycle the vertical downstream of driving piece drive impeller to support tightly with the lateral wall of the version body again, recycle drive assembly drive slide and slide towards feed inlet one side to the realization is to the transportation of the version body.

Optionally, one end of the transfer table, which is close to the feeding rack, is provided with a deviation rectifying mechanism for rectifying the plate body.

Through adopting above-mentioned technical scheme, because the version body through feed mechanism transmission has the possibility of taking place the skew, before recycling pushing mechanism promotes the version body, utilize the mechanism of rectifying to rectify the version body that takes place the skew to when guaranteeing that the version body transmits to the feed inlet, the version body can be smoothly from the feed inlet get into in the bearer frame.

Optionally, the mechanism of rectifying includes the support frame, the support frame erects the top at the material loading frame, the material loading frame all extends on being close to two lateral walls of transfer station one end and is equipped with the fixed plate, it is connected with the correcting plate to slide on the top wall of fixed plate, be equipped with on the support frame and be used for driving two correcting plates synchronous in opposite directions or carry on the back the regulating assembly who slides mutually.

Through adopting above-mentioned technical scheme, under the initial state, two correction plates keep away from each other, when the version body through feed mechanism transmission to the transfer table on, utilize two correction plates of adjusting part drive to slide in opposite directions in step to make the both sides of correction plate and the version body progressively support tightly, thereby realize the correction to the version body.

Optionally, the adjusting assembly comprises a linkage rod rotatably connected to the bottom wall of the support frame, one end of the linkage rod is connected with one of the correcting plates through a first connecting rod, the other end of the linkage rod is connected with the other correcting plate through a second connecting rod, and an adjusting piece used for pushing the first connecting rod or the second connecting rod is arranged on the bottom wall of the support frame.

By adopting the technical scheme, when the plate body is corrected, the adjusting piece is utilized to drive the connecting rod I or the connecting rod II, and under the linkage action of the linkage rod, the linkage rod drives the two correcting plates to synchronously face or slide to abut against the plate body.

Optionally, the plate-making case all is equipped with smooth chamber in being located the lateral wall of feed inlet, discharge gate one side, first, second sliding connection of overhead door are at the smooth intracavity that corresponds, the top of plate-making case or the inside of bottom are equipped with and hold the chamber, elevating system is including rotating to connect screw rod one and screw rod two that hold the intracavity, screw rod one and overhead door threaded connection, screw rod two and two threaded connection of overhead door, it is equipped with and is used for driving screw rod one, the synchronous pivoted power component of screw rod two to hold the intracavity.

By adopting the technical scheme, when feeding and discharging, the first lifting door and the second lifting door need to be opened, the first screw and the second screw are driven to synchronously rotate by the power assembly, and under the guiding action of the sliding cavity, the first screw drives the first lifting door to vertically slide in a reciprocating manner, and the second screw drives the second lifting door to vertically slide in a reciprocating manner, so that the first lifting door and the second lifting door are opened and closed.

In a second aspect, the application further provides a use method of the feeding and blanking integrated device for screen printing plate making, and the following technical scheme is adopted:

a. before feeding, the first screw and the second screw are driven by the power assembly to synchronously rotate, so that the first lifting door and the second lifting door synchronously vertically move downwards to expose the feeding hole and the discharging hole;

b. when feeding, the plate body is conveyed to one end, close to the feeding hole, of the feeding rack by the feeding mechanism, and then the plate body is pushed into the bearing frame from the feeding hole by the pushing mechanism;

c. at the moment, the plate body is fixed in the bearing frame by using the fixing mechanism, and meanwhile, the power assembly drives the screw rod I and the screw rod II to synchronously rotate, so that the lifting door I and the lifting door II synchronously vertically move upwards to close the feeding hole and the discharging hole, and plate making is started;

d. after the plate making is completed, the first power assembly drives the screw rod and the second screw rod to synchronously rotate, so that the first lifting door and the second lifting door are synchronously opened, the fixing mechanism is released, the next plate body is pushed into the bearing frame by the aid of the feeding mechanism, and when a new plate body enters the bearing frame, the plate body with the completed plate making is pushed out from the discharge port, so that the plate body is rapidly loaded and unloaded.

Through adopting above-mentioned technical scheme, utilize power component, overhead door one, overhead door two, screw rod one, screw rod two, feed mechanism, pushing mechanism and fixed establishment's common cooperation, realize the quick unloading of going up of version body to reach labour saving and time saving's effect.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the cooperation of the lifting mechanism, the feeding mechanism, the pushing mechanism and the fixing mechanism, the plate body can be quickly fed and discharged, time and labor are saved, and the plate making efficiency is improved;

2. when the plate body needs to be fixed after entering the bearing frame, the micro motor is used for driving the two-way screw rod to rotate, and under the guiding action of the limiting sliding chute, the two-way screw rod drives the two driving rods to synchronously slide in opposite directions, so that the folding plates on two sides of the through groove slide out of the first placing cavity;

3. the correction mechanism is arranged, so that the plate body transmitted from the feeding mechanism can be corrected, and the smoothness of the subsequent feeding process is ensured;

4. during correction, the adjusting piece is used for pushing the connecting rod I or the connecting rod II, and under the linkage action of the linkage rod, the linkage rod drives the correction plates on the two sides to slide oppositely and tightly abut against the plate body, so that the plate body is quickly corrected;

5. when the material is fed and discharged, the power assembly is utilized to drive the first screw rod and the second screw rod to synchronously rotate, under the guiding action of the sliding cavity, the first screw rod drives the first lifting door to lift, and the second screw rod drives the second lifting door to lift, so that the opening and closing of the material inlet and the material outlet are realized.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic cross-sectional structure diagram for showing a connection relationship among the plate making box, the bearing frame, the plate body, the material receiving plate, the first lifting door, the second lifting door and the lifting mechanism in the embodiment of the present application.

Fig. 3 is a schematic structural diagram for showing a connection relationship among the servo motor, the rotating shaft, the first bevel gear, the first screw, the second bevel gear, the first lifting gate and the second lifting gate in the embodiment of the present application.

Fig. 4 is a schematic structural diagram for showing a connection relationship among the base frame, the support plate, the rotating roller, the first driving motor, the rotating shaft, the worm, and the worm wheel in the embodiment of the present application.

Fig. 5 is a schematic structural diagram for embodying the positional relationship among the support frame, the adjustment assembly, the transfer table, the support plate, and the fixing plate in the embodiment of the present application.

Fig. 6 is a schematic structural diagram for showing a connection relationship among the first cylinder, the second connecting rod, the linkage rod, the hinge shaft, the first connecting rod and the correction plate in the embodiment of the present application.

Fig. 7 is a schematic structural diagram for embodying the connection relationship among the bracket, the sliding plate, the second air cylinder, the pushing plate and the driving assembly in the embodiment of the present application.

Fig. 8 is a schematic cross-sectional view for illustrating a connection relationship between the carriage, the expansion plate and the expansion assembly in the embodiment of the present application.

Description of reference numerals: 1. a plate making box; 10. a feed inlet; 11. a discharge port; 2. a bearing frame; 20. a through groove; 201. a slide hole; 202. a limiting chute; 21. placing the first cavity; 22. a second placing cavity; 23. a limiting cavity; 3. a fixing mechanism; 31. a retractable plate; 311. folding the board; 3111. a drive rod; 32. a telescoping assembly; 321. a bidirectional screw; 3211. a third lug; 322. a micro motor; 323. connecting blocks; 4. a feeding rack; 41. a chassis; 42. a support plate; 5. a pushing mechanism; 51. a support; 511. a transfer frame; 5111. a guide groove; 512. a strut; 52. a slide plate; 53. a push plate; 54. a second air cylinder; 55. a drive assembly; 551. a second drive motor; 552. a screw; 6. a feeding mechanism; 61. a rotating roller; 62. a rotating assembly; 621. a first drive motor; 622. a rotating shaft; 623. a worm; 624. a worm gear; 625. a second lug; 7. a first lifting door; 8. a second lifting door; 9. a lifting mechanism; 91. a first screw rod; 92. a second screw; 93. a power assembly; 931. a servo motor; 932. a rotating shaft; 933. a first bevel gear; 934. a second bevel gear; 935. a first lug; 12. a transfer table; 13. a limiting plate; 14. a deviation rectifying mechanism; 141. a support frame; 1411. a horizontal plate; 1412. a vertical rod; 142. a fixing plate; 1421. a guide chute; 143. a correction plate; 144. an adjustment assembly; 1441. a linkage rod; 1442. a first connecting rod; 1443. a second connecting rod; 1444. a first cylinder; 1445. hinging a shaft; 1446. a first connecting rod; 1447. a second connecting rod; 15. a slide chamber; 16. an accommodating chamber; 17. a plate body; 18. a material receiving plate; 181. a support rod.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses a feeding and discharging integrated device for screen printing plate making. Referring to fig. 1 and 2, screen printing plate-making is with unloading integrated device includes plate-making case 1, be equipped with feed inlet 10 on the lateral wall of plate-making case 1 one side, be equipped with discharge gate 11 on the lateral wall of plate-making case 1 opposite side, discharge gate 11 is relative with feed inlet 10, it is connected with the carriage 2 that is used for placing the version body 17 to rotate between the two inboard walls of plate-making case 1 neighbouring feed inlet 10, carriage 2 and feed inlet 10, it is equipped with logical groove 20 all to run through on the lateral wall of the relative one side of discharge gate 11, be equipped with the fixed establishment 3 that is used for the fixed version body 17.

Referring to fig. 1 and 2, a feeding frame 4 extends from the side wall of the plate making box 1 on one side of a feeding port 10, a pushing mechanism 5 is arranged at one end of the feeding frame 4 close to the feeding port 10, a feeding mechanism 6 is arranged at one end of the feeding frame 4 far away from the feeding port 10, a transfer table 12 is arranged at one end of the feeding frame 4 close to the feeding port 10, a first lifting door 7 is arranged in the side wall of the plate making box 1 on one side of the feeding port 10, a second lifting door 8 is arranged in the side wall of the plate making box 1 on one side of a discharging port 11, and the plate making box 1 is provided with a first lifting door 7 for driving, the second lifting door 8 is a lifting mechanism 9 which can be lifted and lowered in a reciprocating manner, a receiving plate 18 is horizontally extended from the side wall of the plate making box 1, which is positioned on one side of the discharge hole 11, two supporting rods 181 are connected to the bottom wall of one end, far away from the plate making box 1, of the receiving plate 18, and one end, far away from the receiving plate 18, of each supporting rod 181 is fixedly connected with the side wall of the plate making box 1.

Referring to fig. 1 and 2, before loading, the first lifting door 7 and the second lifting door 8 are driven by the lifting mechanism 9 to open, and during loading, the plate body 17 is conveyed to the transfer table 12 by the feeding mechanism 6, the plate body 17 is pushed into the bearing frame 2 from the feeding hole 10 by the pushing mechanism 5, the plate body 17 is fixed by the fixing mechanism 3, the lifting mechanism 9 drives the first lifting door 7 and the second lifting door 8 to close, plate making is started, after the plate making is finished, the lifting mechanism 9 drives the first lifting door 7 and the second lifting door 8 to open, and releases the fixing mechanism 3, and then uses the pushing mechanism 5 to push the next new plate body 17 into the bearing frame 2, so that the new plate body 17 pushes out the plate body 17 which is subjected to plate making from the bearing frame 2 and the discharge hole 11 in sequence, thereby accomplish the unloading of going up fast of version body 17, labour saving and time saving just helps promoting plate-making efficiency.

Referring to fig. 2 and 3, a feeding port 10 is arranged in a plate making box 1, a sliding cavity 15 is arranged in a side wall on one side of a discharging port 11, a first lifting door 7 is connected in the sliding cavity 15 on one side of the feeding port 10 in a sliding mode, a second lifting door 8 is connected in the sliding cavity 15 on one side of the discharging port 11 in a sliding mode, a containing cavity 16 is arranged inside the bottom end of the plate making box 1, the containing cavity 16 is communicated with the two sliding cavities 15, a lifting mechanism 9 comprises a first screw rod 91, a second screw rod 92 and a power assembly 93, the bottom end of the first screw rod 91 is connected on a bottom wall on one side of the containing cavity 16 in a rotating mode, the top end of the first screw rod 91 is connected with the bottom end of the first lifting door 7 in a threaded mode, the bottom end of the second screw rod 92 is connected on a.

Referring to fig. 3, the power assembly 93 includes a servo motor 931, a rotating shaft 932, two first bevel gears 933 and a second bevel gear 934, the servo motor 931 is fixedly connected to the outer side wall of the plate making box 1 at the bottom end of the feeding port 10, the rotating shaft 932 is rotatably connected to the bottom wall of the accommodating chamber 16 through a plurality of lugs 935, one of the first bevel gears 933 is coaxially and fixedly connected to the peripheral side wall at one end of the rotating shaft 932, the other first bevel gear 933 is coaxially and fixedly connected to the peripheral side wall at the other end of the rotating shaft 932, one of the second bevel gears 934 is coaxially and fixedly connected to the peripheral side wall at the bottom end of the first screw 91, the other second bevel gear 934 is coaxially and fixedly connected to the peripheral side wall at the bottom end of.

Referring to fig. 1 and 3, before the material loading, utilize servo motor 931 drive axis of rotation 932 to rotate, make axis of rotation 932 drive two first bevel gears 933 and rotate, first bevel gear 933 and second bevel gear 934 meshing transmission, second bevel gear 934 drives screw rod 91, screw rod two 92 rotates, under the guide effect in smooth chamber 15, make screw rod 91 drive overhead door 7 vertically to sliding downwards to accomodating in smooth chamber 15, simultaneously, screw rod two 92 drive overhead door two 8 vertically to sliding downwards to accomodating in smooth chamber 15, thereby expose feed inlet 10 and discharge gate 11.

Referring to fig. 1 and 4, the feeding frame 4 includes a bottom frame 41 and supporting plates 42 disposed on top walls of two sides of the bottom frame 41, the feeding mechanism 6 includes a plurality of rotating rollers 61 and a rotating assembly 62 for driving the plurality of rotating rollers 61 to rotate synchronously, the plurality of rotating rollers 61 are rotatably connected between opposite side walls of the two supporting plates 42, the rotating assembly 62 includes a first driving motor 621, a rotating shaft 622, a plurality of worms 623 and a worm wheel 624, the first driving motor 621 is fixedly connected to the side wall of the supporting plate 42 near the feeding end, the rotating shaft 622 is rotatably connected to the outer side wall of the supporting plate 42 through a plurality of lugs two 625, the plurality of worms 623 are coaxially and fixedly connected to the peripheral side wall of the rotating shaft 622, one end of the rotating roller 61 penetrates through the side wall of the supporting plate 42 and is coaxially connected to.

Referring to fig. 1 and 4, during feeding, the first driving motor 621 is used to sequentially drive the rotating shaft 622, the worm 623 and the worm wheel 624 to rotate, so that the worm wheel 624 drives the rotating roller 61 to synchronously rotate, thereby realizing feeding of the plate body 17, and the structure is simple and stable.

Referring to fig. 1 and 5, one end of the feeding frame 4 close to the plate making box 1 is provided with a deviation rectifying mechanism 14, the deviation rectifying mechanism 14 includes a support frame 141, two correcting plates 143 and an adjusting component 144 for driving the two correcting plates 143 to synchronously slide in the opposite direction or in the opposite direction, the support frame 141 is erected above one end of the feeding frame 4 located at the transfer table 12, the support frame 141 includes a horizontal plate 1411 and vertical rods 1412 fixedly connected at four corners of the bottom wall of the horizontal plate 1411, one end of the vertical rods 1412 far away from the horizontal plate 1411 is supported on the ground, and two outer side walls of one end of the support plate 42 close to the transfer table 12 are provided with fixing plates 142 in an.

Referring to fig. 5 and 6, the side walls of the transfer platform 12 located at both sides of the feeding direction are fixedly connected with a limiting plate 13, the top wall of the fixing plate 142 is provided with a guide chute 1421, the bottom end of the correction plate 143 is connected in the guide chute 1421 in a sliding manner, the sliding direction of the correction plate 143 is perpendicular to the feeding direction, the adjusting assembly 144 includes a linkage rod 1441, a first connecting rod 1442, a second connecting rod 1443 and an adjusting member, the linkage rod 1441 is rotatably connected to the bottom wall of the horizontal plate 1411 through a hinge shaft 1445, one end of the linkage rod 1441 is hinged to the first connecting rod 1442, the other end of the linkage rod 1441 is hinged to the second connecting rod 1443, one end of the first connecting rod 1442 far from the linkage rod 1441 is fixedly connected to the top wall of one of the correction plate 143 through the first connecting rod 1446, one end of the second connecting rod 1443 far from the linkage rod 1 is fixedly connected to the top wall of the other correction plate 143 through the second connecting rod 1447, the, the piston rod of the first cylinder 1444 is hinged with the end wall of the first connecting rod 1442.

Referring to fig. 5 and 6, during correction, the first cylinder 1444 pushes the first connecting rod 1442, under the guiding action of the guiding chute 1421, the first connecting rod 1442 drives the linkage rod 1441 to rotate, the linkage rod 1441 pulls the second connecting rod 1443, the second connecting rod 1443 and the first connecting rod 1442 drive the two correction plates 143 to synchronously slide in opposite directions, so that the two side walls of the plate 17 along the feeding direction gradually abut against the side walls of the correction plates 143, and correction of the plate 17 is achieved.

Referring to fig. 1 and 7, the pushing mechanism 5 includes a bracket 51, a slide plate 52, the pushing part, driving part and driving assembly 55, the support 51 includes a transferring frame 511 and two supporting rods 512, the end wall of one end of the transferring frame 511 is fixedly connected with the side wall at the top end of the plate making box 1, the bottom wall of the other end of the transferring frame 511 is fixed on the side wall of the supporting plate 42 through the supporting rods 512, the longitudinal section of the supporting rods 512 is shaped like Contraband, the two inner side walls of the transferring frame 511 along the feeding direction are both provided with guide grooves 5111, the two sides of the sliding plate 52 are connected in the guide grooves 5111 in a sliding manner, the pushing part includes a pushing plate 53, the longitudinal section of the pushing plate 53 is shaped like an L, the driving part includes a second air cylinder 54, the second air cylinder 54 is fixedly connected on the bottom wall of the sliding plate 52, the piston rod of the second air cylinder 54 is fixedly connected with the top wall of the vertical end.

Referring to fig. 7, the driving assembly 55 includes a second driving motor 551 and a screw 552, the second driving motor 551 is fixedly connected to a top wall of the end of the transfer frame 511 away from the plate making box 1, an output shaft of the second driving motor 551 is coaxially connected to the screw 552, the screw 552 is rotatably connected between two opposite side walls of the transfer frame 511, and a length direction of the screw 552 is the same as a feeding direction.

Referring to fig. 1 and 7, in an initial state, the push plate 53 is located above one end, close to the feeding, of the transfer table 12, after the plate body 17 is corrected, the second air cylinder 54 is firstly used for driving the push plate 53 to vertically move downwards until the horizontal end of the push plate 53 is opposite to the end wall, far away from one end of the plate body 17, of the plate body 1, the screw rod 552 is driven to rotate by the second driving motor 551, so that the screw rod 552 drives the sliding plate 52 to move towards one side of the plate making box 1, and the push plate 53 pushes the plate body 17 towards one side of the plate making box 1.

Referring to fig. 2 and 8, a first placing cavity 21 is formed in the side wall of the carrying frame 2 at two ends of the through groove 20, sliding holes 201 (not shown in the figure) communicated with the first placing cavity 21 are formed in two opposite groove walls of the through groove 20, a second placing cavity 22 is formed in the side wall of the carrying frame 2 adjacent to one side of the sliding holes 201, a limiting sliding groove 202 communicated with the second placing cavity 22 is formed in the groove bottom wall of the through groove 20, a limiting cavity 23 is formed in the side wall of the carrying frame 2 at one side of the through groove 20, and the limiting cavity 23 is communicated with the first placing cavity 21 and the second placing cavity 22.

Referring to fig. 2 and 8, the fixing mechanism 3 includes a telescopic plate 31 and a telescopic assembly 32, the telescopic plate 31 includes a plurality of foldable plates 311, a driving rod 3111 is fixedly connected to the foldable plate 311 closest to one side of the sliding hole 201 along the vertical direction, the bottom end of the driving rod 3111 passes through the limiting sliding groove 202 and extends into the placing cavity two 22, and a connecting block 323 is fixedly connected to the bottom end of the driving rod 3111.

Referring to fig. 8, the telescopic assembly 32 includes a micro motor 322 and a bidirectional screw 321, the micro motor 322 is fixed on the bottom wall of the placing cavity two 22, the bidirectional screw 321 is rotatably connected in the placing cavity two 22 through a plurality of lugs three 3211, one end of the bidirectional screw 321 is connected with an output shaft of the micro motor 322, the screw threads at the two ends of the bidirectional screw 321 are opposite in rotation direction, one end of the bidirectional screw 321 is in threaded connection with one of the connecting blocks 323, and the other end of the bidirectional screw 321 is in threaded connection with the other connecting block 323.

Referring to fig. 2 and 8, in an initial state, the retractable plate 31 is accommodated in the first accommodating cavity 21, when the plate body 17 slides into the first carrying frame 2, the micro motor 322 is used to drive the two-way screw 321 to rotate, and under the guiding action of the limiting sliding groove 202, the two-way screw 321 drives the two driving rods 3111 to synchronously slide in opposite directions, so that the driving rods 3111 drive the retractable plates 31 on two sides to move in opposite directions to abut against the side walls of the first carrying frame 2, thereby fixing the plate body 17 in the first carrying frame 2; during the unloading, the micro motor 322 at logical groove 20 both ends drives two-way screw 321 antiport simultaneously, under the guide effect of spacing spout 202 for two-way screw 321 drives two actuating lever 3111 and slides back to back in step, makes actuating lever 3111 drive folded sheet 311 slide and get into place in the chamber 21, thereby realizes the release to the version body 17.

The implementation principle of the feeding and discharging integrated device for screen printing plate making in the embodiment of the application is as follows: before feeding, a servo motor 931 is used for driving a rotating shaft 932 to rotate, so that the rotating shaft 932 drives two first bevel gears 933 to rotate, the first bevel gears 933 are in meshed transmission with second bevel gears 934, the second bevel gears 934 drive a first screw 91 and a second screw 92 to rotate, under the guiding action of a sliding cavity 15, the first screw 91 drives a first lifting door 7 to vertically slide downwards to be accommodated in the sliding cavity 15, and meanwhile, the second screw 92 drives a second lifting door 8 to vertically slide downwards to be accommodated in the sliding cavity 15, so that a feeding port 10 and a discharging port 11 are exposed; during feeding, the first driving motor 621 is used for sequentially driving the rotating shaft 622, the worm 623 and the worm wheel 624 to rotate, so that the worm wheel 624 drives the rotating roller 61 to synchronously rotate, and feeding of the plate body 17 is completed; when the plate body 17 moves to a position far away from the rotating roller 61, the first cylinder 1444 is used for pushing the first connecting rod 1442, under the guiding action of the guiding chute 1421, the first connecting rod 1442 drives the linkage rod 1441 to rotate, the linkage rod 1441 pulls the second connecting rod 1443, the second connecting rod 1443 and the first connecting rod 1442 drive the two correcting plates 143 to synchronously slide in opposite directions, two side walls of the plate body 17 along the feeding direction gradually abut against the side walls of the correcting plates 143, and therefore correction of the plate body 17 is achieved; then, the second air cylinder 54 is used for driving the push plate 53 to vertically move downwards until the horizontal end of the push plate 53 is opposite to the end wall of the end, far away from the plate making box 1, of the plate body 17, and then the second driving motor 551 is used for driving the screw 552 to rotate, so that the screw 552 drives the sliding plate 52 to move towards one side of the plate making box 1; after the plate body 17 enters the bearing frame 2, the micro motor 322 is used to drive the two-way screw 321 to rotate, and under the guiding action of the limiting sliding groove 202, the two-way screw 321 drives the two driving rods 3111 to synchronously slide in opposite directions, so that the driving rods 3111 drive the expansion plates 31 on the two sides to move in opposite directions to be tightly abutted against the side walls of the bearing frame 2, and the plate body 17 is fixed in the bearing frame 2; after the platemaking is accomplished, the micro motor 322 that leads to groove 20 both ends drives two-way screw 321 antiport simultaneously, under the guide effect of spacing spout 202, make two-way screw 321 drive two actuating levers 3111 and slide back to back in step, make actuating lever 3111 drive folded sheet 311 slide and get into place in the chamber 21, thereby realize the release to the version body 17, recycle pushing mechanism 5 and push into next new version body 17 from feed inlet 10, thereby the version body 17 that will make a plate and accomplish is released from discharge gate 11, thereby realize the unloading of going up fast of version body 17, time saving and labor saving.

The embodiment of the application also discloses a using method of the feeding and blanking integrated device for screen printing plate making, which comprises the following steps:

a. before feeding, the first screw 91 and the second screw 92 are driven by the power assembly 93 to synchronously rotate, so that the first lifting door 7 and the second lifting door 8 synchronously vertically move downwards to leak out of the feeding hole 10 and the discharging hole 11, at the moment, the folding plate 311 close to one side of the feeding hole 10 is accommodated in the first placing cavity 21, and the folding extending sliding hole 201 close to one side of the discharging hole 11 is accommodated;

b. when feeding, the feeding mechanism 6 is used for conveying the plate body 17 onto the transfer table 12, and the deviation correcting mechanism 14 is used for correcting the plate body 17, so that two side walls of the plate body 17 along the feeding direction are tightly abutted against the side walls of the limiting plate 13;

c. when pushing materials, the driving piece is used for driving the pushing piece to vertically move downwards to abut against the plate body 17, the sliding plate 52 of the driving assembly 55 is used for sliding towards one side of the feeding hole 10 along the feeding direction, after one end of the plate body 17 abuts against the folding plate 311 close to one side of the discharging hole 11, the micro motor 322 is used for driving the two-way screw 321 to rotate, and under the guiding action of the limiting sliding groove 202, the two-way screw 321 drives the folding plates 311 at two sides of the through groove 20 to oppositely slide to abut against the side wall of the plate body 17 close to the feeding side, so that the plate body 17 is fixed;

d. meanwhile, the power assembly 93 drives the first screw 91 and the second screw 92 to synchronously rotate, so that the first lifting door 7 and the second lifting door 8 synchronously vertically move upwards to close the feed inlet 10 and the discharge outlet 11, and plate making is started;

e. after the platemaking is completed, the first power assembly 93 drives the first screw rod 91 and the second screw rod 92 to synchronously rotate, so that the first lifting door 7 and the second lifting door 8 synchronously vertically move downwards to the sliding cavity 15, the next new plate body 17 is conveyed to the transfer table 12 by the feeding mechanism 6, the driving piece is used for driving the pushing piece to vertically move downwards, the driving assembly 55 is used for driving the sliding plate 52 to slide along the feeding direction, the sliding plate 52 pushes the new plate body 17 towards the inside of the bearing frame 2 through the pushing piece, and the new plate body 17 pushes the plate body 17 which is completed by the platemaking out from the discharge hole 11.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.