CN114523755A

CN114523755A - Printing screen plate manufacturing device applied to conductive film silk screen

Info

Publication number: CN114523755A
Application number: CN202210213176.XA
Authority: CN
Inventors: 王鹏飞; 王林生
Original assignee: Shenzhen Yixiantong Electronics Co ltd
Current assignee: Shenzhen Yixiantong Electronics Co ltd
Priority date: 2022-03-04
Filing date: 2022-03-04
Publication date: 2022-05-24
Anticipated expiration: 2042-03-04
Also published as: CN114523755B

Abstract

The invention belongs to the technical field of screen plate manufacturing, in particular to a printing screen plate manufacturing device applied to a conductive film silk screen, which aims at solving the problem that screen plate meshes are more and more blocked easily due to the fact that a screen plate mould is not tightly attached in the current screen plate manufacturing process. The invention can drive the arch-shaped pressing plate to continuously leave the end part of the anti-sticking supporting plate under the action of the step pressing wheel, and impact the end part of the anti-sticking supporting plate in stages under the action of the tension spring to generate vibration so that the solution can be uniformly fused in meshes.

Description

Printing screen plate manufacturing device applied to conductive film silk screen

Technical Field

The invention relates to the technical field of screen manufacturing, in particular to a printing screen manufacturing device applied to a conductive film silk screen.

Background

The existing building ground heating materials taking electric energy as a heat source comprise a heating cable with constant power and an infrared carbon thermal plastic film which are single functional materials. Wherein, the structure of the floor heating of the constant power heating cable is complicated. Firstly, laying a polystyrene foam board heat insulation layer with the thickness of 25mm on a concrete floor slab, then laying a steel wire mesh, then distributing and binding a constant-power heating cable on the steel wire mesh in a snake-shaped mode, pouring fine stone concrete with the thickness of 30-40mm, and laying a wood floor according to a conventional method after the concrete is solidified. The overall thickness of the floor heating structure is relatively thick, and particularly, the constant-power heating cable is buried in fine stone concrete, so that the maintenance of the product is very difficult or even impossible. The structure of the infrared carbon thermal film used for floor heating is quite complex. Firstly, a polystyrene foam board heat insulation layer with the thickness of 25mm is paved on a concrete floor, then an infrared carbon thermal film embedded with a power line is paved, and finally a wood floor is paved on the infrared carbon thermal film according to a conventional method.

At present to the printing preparation of otter board pour liquid otter board raw materials into otter board mould usually, later wait to carry out the drawing of patterns again after the otter board solidifies easily, but this kind of production mode, the bottom that leads to the otter board easily in the solidification process overflows from the gap because of using for a long time, and then makes the otter board tend to an overall structure after the drawing of patterns that leads to the later stage, the hole of otter board is blockked up more, the post processing degree of difficulty is big, consequently just need one kind to avoid the otter board solution to spill over the novel making devices that link together in the solidification process.

Disclosure of Invention

The invention provides a printing screen plate manufacturing device applied to a conductive film screen, aiming at overcoming the problem that in the current screen plate manufacturing process, more screen holes are easily blocked due to the fact that the fitting of a screen plate mould is not tight enough.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a be applied to printing otter board making devices of conductive film silk screen, includes two tube socket one and tube socket two that the structure is the same and parallel to each other, and the whole of tube socket one is square tubular structure, and is fixed with the same opening and makes progress the bracket frame that the cross-section is the channel configuration between the upper surface of tube socket one and tube socket two, the tank bottom middle part of bracket frame is provided with antiseized layer board, and the upper surface of antiseized layer board is polished and is handled, otter board mould has been placed to the upper surface of antiseized layer board, and opens in the middle of the otter board mould has a plurality of meshes that link up mutually, and the upper surface mounting of otter board mould has a plurality of connecting strips that are parallel to each other, and the upper surface sliding of otter board mould is laminated has the push pedal, and the upper surface of push pedal is opened has the horn hole of vertical equidistance distribution, and the bottom in horn hole communicates with each other to can be when carrying out the otter board preparation, only need slowly pour into otter board raw materials solution from the horn hole, after slowly again along the horizontal direction promotion push pedal that makes a round trip to pour solution into all meshes uniformly, because antiseized layer board is sliding connection at the bottom inner wall of layer board frame, consequently can suitably promote the slight tremble of antiseized layer board at the in-process that solidifies, ensure that the otter board can not continuously bond with antiseized layer board's surface, be favorable to the complete drawing of patterns in later stage.

According to the preferable scheme, the middle of the top end of the supporting plate frame is provided with two mutually symmetrical anti-slip bayonets, and the front side and the rear side of the screen plate mold are respectively provided with a guide convex plate matched with the anti-slip bayonets in width, so that the situation that the anti-sticking supporting plate at the bottom and the push plate at the top generate friction force to drive the screen plate mold in the middle to move when moving left and right is avoided, and the screen plate mold is more convenient to mount and replace.

According to the preferred scheme, the hinged shaft is arranged on the side face of the supporting plate frame close to the anti-skid bayonet, the end part of the hinged shaft is fixedly provided with the pressing rod, the lower surface of the pressing rod is fixedly provided with the tension spring, and the bottom end of the tension spring is fixedly arranged on the side face of the supporting plate frame close to the bottom, so that the guide convex plate can be tightly pressed in the middle of the supporting plate frame through the pressing rod when the guide convex plate is just clamped in the anti-skid bayonet.

As a preferable scheme in the invention, the outer walls of two opposite sides of the push plate, which are close to four corners, are respectively fixed with a tightening mechanism, the tightening mechanism comprises a supporting plate fixed on the side surface of the push plate, which is close to the corners, the upper surface of the supporting plate is fixed with two compression springs, the top ends of the two compression springs are fixed with a same tightening block, the upper surface of the tightening block is embedded with two balls, parallel limiting grooves are formed between the inner walls of two opposite sides of the supporting plate frame, and the height of each limiting groove is smaller than the distance between the upper surface of the tightening block and the lower surface of the supporting plate when the tightening mechanism is taken out, so that the push plate can tightly press and slide on the screen plate mold, and redundant solution can be spread to a certain extent, and the solution can quickly fill meshes.

As a preferable scheme in the invention, the lower surface of the push plate is provided with strip-shaped grooves which are equidistantly distributed and are parallel to each other, and the sectional dimension of each strip-shaped groove is matched with the sectional shape of each connecting strip, so that the gaps on the upper surface of the screen plate mold are reduced.

As the preferable scheme in the invention, the middle part of the upper surface of the push plate is fixedly provided with the feeding groove in a rectangular frame structure, and the section of the feeding groove is in an inner cone structure, so that the solution is prevented from being spilled when the feeding groove filled with the solution shakes.

According to the preferable scheme, two arc-shaped push rods are fixed at one end of the anti-sticking supporting plate, the two arc-shaped push rods penetrate through the second tube seat and are fixed with a sliding block, the outer wall of the sliding block is sleeved with a groove-shaped sliding rail, a return spring is fixed between the side face of the sliding block and the inner wall of the second tube seat, the upper surface of the second tube seat is provided with a strip-shaped hole matched with the diameter of the arc-shaped push rod, the inner wall of the bottom of the first tube seat is fixed with a driving motor, the top end of an output shaft of the driving motor is fixed with a shaft rod, the shaft rod penetrates through the first tube seat and is fixed with an elliptical wheel, the height of the elliptical wheel is equal to that of the anti-sticking supporting plate, and therefore when the later-stage solidification of the printing screen plate is carried out, the anti-sticking supporting plate can be driven to be continuously drawn out only by the driving motor under the driving of the arc-shaped push rods at the other end, and the screen plate is prevented from being bonded with the anti-sticking supporting plate at the bottom.

According to the preferable scheme, the top end of the shaft lever is fixed with the rocker, the upper surface of the rocker is provided with a plurality of switching holes, one of the switching holes is inserted with the movable shaft, the top end of the movable shaft is sleeved with the connecting rod, the end part of the push plate is fixed with two fixed plates, the same movable hinge shaft is fixed between the two fixed plates, the other end of the connecting rod is provided with a round hole matched with the movable hinge shaft, and the push plate is driven to continuously move through the matching of the rocker and the connecting rod so as to push and pave liquid, so that the liquid injection fusion efficiency is improved.

According to the preferable scheme, a shaft hole is reserved in the middle of the elliptical wheel, a first sliding groove communicated with the shaft hole is formed in the upper surface of the elliptical wheel, a second sliding groove is formed in the inner wall of each of two sides of the first sliding groove, a jack is formed in the bottom of the second sliding groove, an inserting strip is connected in the jack in a sliding mode, a positioning pin is connected in the first sliding groove in a sliding mode, a resisting spring is fixed at the tail of the positioning pin, and a positioning notch matched with the positioning pin is formed in the outer wall of the circumference of the shaft rod;

as a preferable scheme in the invention, the end part of the anti-sticking supporting plate is hinged with an arched pressing plate, the inner side of the arched pressing plate is fixed with a push rod close to the middle part, the outer wall of the shaft rod is sleeved with a step pinch roller with the same height as the push rod, and a tension spring II is fixed between the inner side of the arched pressing plate and the end part of the anti-sticking supporting plate, so that when the anti-sticking supporting plate is used, the arched pressing plate is driven to continuously leave the end part of the anti-sticking supporting plate under the action of the step pinch roller and is impacted on the end part of the anti-sticking supporting plate in a staged manner under the action of the tension spring to generate vibration, so that the solution can be uniformly fused in meshes.

To sum up, the beneficial effect in this scheme is:

1. this kind of be applied to printing otter board making devices of conductive film silk screen, through the antiseized layer board that sets up with can compress tightly the push pedal of removal, can be when carrying out the otter board preparation, only need slowly pour into otter board raw materials solution from the horn hole, later slowly make a round trip to promote the push pedal along the horizontal direction again and can pour solution into all meshes uniformly, because antiseized layer board is sliding connection at the bottom inner wall of layer board frame, consequently can suitably promote the slight tremble of antiseized layer board at the in-process that solidifies, ensure that the otter board can not last the bonding with the surface of antiseized layer board, be favorable to the complete drawing of patterns in later stage.

Drawings

FIG. 1 is a schematic perspective view of a printing screen manufacturing apparatus applied to a conductive film screen according to the present invention;

FIG. 2 is a schematic perspective view of a push plate of a printing screen manufacturing apparatus for a conductive film screen according to the present invention;

FIG. 3 is a schematic cross-sectional view of a push plate of a printing screen manufacturing apparatus applied to a conductive film screen according to the present invention;

FIG. 4 is a schematic structural diagram of a screen mold of a printing screen manufacturing apparatus applied to a conductive film screen according to the present invention;

FIG. 5 is a schematic perspective view of an anti-sticking pallet of a printing screen manufacturing apparatus for a conductive film screen according to the present invention;

FIG. 6 is a schematic perspective view of a pallet of the apparatus for manufacturing a printing screen for a conductive film screen according to the present invention;

FIG. 7 is a schematic view of an elliptical wheel assembly of a printing stencil making apparatus for use with a conductive film screen according to a second embodiment of the present invention;

fig. 8 is a schematic top view of a vibrating mechanism of a printing screen manufacturing apparatus for a conductive film screen according to a third embodiment of the present invention.

In the figure: 1. a first tube seat; 2. a screen plate mould; 3. a connecting strip; 4. pushing the plate; 5. an anti-slip bayonet; 6. a tension spring; 7. a pressure lever; 8. a pallet frame; 9. a second tube seat; 10. a strip-shaped hole; 11. an arcuate push rod; 12. a feed chute; 13. a limiting groove; 14. an anti-sticking supporting plate; 15. a rocker; 16. a shaft lever; 17. an elliptical wheel; 18. a horn hole; 19. a ball bearing; 20. a resisting block; 21. a fixing plate; 22. a strip-shaped groove; 23. a support plate; 24. a compression spring; 25. a movable hinge shaft; 26. mesh openings; 27. a guide convex plate; 28. a groove-shaped slide rail; 29. a return spring; 30. a drive motor; 31. a first sliding chute; 32. a second chute; 33. a jack; 34. positioning pins; 35. cutting; 36. a positioning notch; 37. an arcuate platen; 38. a stepped pinch roller; 39. a top rod; 40. and a second tension spring.

Detailed Description

Example 1

Referring to fig. 1-6, a printing screen manufacturing device applied to a conductive film silk screen comprises a tube seat I1 and a tube seat II 9 which have the same structure and are parallel to each other, wherein the tube seat I1 is of a square tubular structure or a rectangular box structure as a whole, a supporting plate frame 8 with the same opening and the upward cross section of a groove-shaped structure is fixed between the upper surfaces of the tube seat I1 and the tube seat II 9, an anti-sticking supporting plate 14 is arranged in the middle of the bottom of the supporting plate frame 8, the upper surface of the anti-sticking supporting plate 14 is polished, a screen mold 2 is arranged on the upper surface of the anti-sticking supporting plate 14, the lower surface of the screen mold 2 is also polished, a plurality of through meshes 26 are arranged in the middle of the screen mold 2, a plurality of parallel connecting strips 3 are fixed on the upper surface of the screen mold 2, a push plate 4 is attached to the upper surface of the screen mold 2 in a sliding manner, and horn holes 18 which are distributed at equal intervals in the longitudinal direction are arranged on the upper surface of the push plate 4, the bottom and the mesh 26 of horn hole 18 communicate each other, thereby can be when carrying out the otter board preparation, only need slowly pour into otter board raw materials solution from horn hole 18, later slowly push away push pedal 4 along the horizontal direction round trip and can pour solution into all mesh 26 uniformly, because antiseized layer board 14 is sliding connection at the bottom inner wall of layer board frame 8, consequently can suitably promote the slight tremble of antiseized layer board 14 at the in-process that solidifies, ensure that the otter board can not continuously bond with antiseized layer board 14's surface, be favorable to the complete drawing of patterns in later stage.

Wherein, the top middle part of the pallet 8 is opened with two mutually symmetrical anti-skidding bayonets 5, and the both sides are reserved respectively around otter board mould 2 have with the direction flange 27 of 5 width looks adaptations of anti-skidding bayonets, avoid the anti-sticking layer board 14 of bottom and the push pedal 4 at top to remove the frictional force that produces when removing about and drive otter board mould 2 in the middle of the removal, let the installation and the change of otter board mould 2 more convenient moreover.

Wherein, the side of bracket 8 is close to anti-skidding bayonet socket 5 department and is provided with the articulated shaft, and the tip of articulated shaft is fixed with depression bar 7, and the lower fixed surface of depression bar 7 has extension spring 6, and the bottom mounting of extension spring 6 is close to the bottom position in the side of bracket 8 to can let direction flange 27 when just joint in anti-skidding bayonet socket 5, can tightly press it at the intermediate position of bracket 8 through depression bar 7.

Wherein, the both sides outer wall that the push pedal 4 carried on the back mutually all is fixed with near four corners department and supports tight mechanism, and support tight mechanism including fixing the layer board 23 that is close to the corner in the push pedal 4 side, the last fixed surface of layer board 23 has two compression spring 24, and the top of two compression spring 24 is fixed with same piece 20 that supports, support the upper surface of piece 20 and inlay and be equipped with two balls 19, it has parallel spacing groove 13 of each other to open between the relative both sides inner wall of layer board frame 8, spacing groove 13 highly is less than and supports the distance between the upper surface of piece 20 and layer board 23 lower surface when supporting tight mechanism takes out, thereby can let push pedal 4 can tightly press otter board mould 2 and slide on its upper surface promptly, and can pave unnecessary solution to a certain extent, make solution fill up mesh 26 fast.

Wherein, the lower surface of push pedal 4 is opened has equidistant distribution and the parallel bar groove 22 of each other, and the sectional dimension of bar groove 22 and the sectional shape looks adaptation of connecting strip 3 for the gap of the upper surface of otter board mould 2 reduces.

Wherein, the middle part of the upper surface of the push plate 4 is fixed with a feed chute 12 which is a rectangular frame structure, and the cross section of the feed chute 12 is of an inner cone structure, so that the feed chute 12 which is provided with solution is prevented from spilling the solution when the feed chute is rocked.

Wherein, one end of the anti-sticking supporting plate 14 is fixed with two arc push rods 11, the two arc push rods 11 are fixed with a slide block through the second tube seat 9, the outer wall of the slide block is sleeved with a groove-shaped slide rail 28, and a return spring 29 is fixed between the side surface of the sliding block and the inner wall of the second tube seat 9, a strip-shaped hole 10 matched with the diameter of the bow-shaped push rod 11 is arranged on the upper surface of the second tube seat 9, a driving motor 30 is fixed on the inner wall of the bottom of the first tube seat 1, and the top end of the output shaft of the driving motor 30 is fixed with a shaft lever 16, the shaft lever 16 penetrates through the tube seat I1 and is fixed with an elliptical wheel 17, the height of the elliptical wheel 17 is equal to the height of the anti-sticking supporting plate 14, therefore, when the later solidification stage of the printing screen plate is performed, the anti-sticking supporting plate 14 can be driven to continuously twitch only by starting the driving motor 30 under the driving of the elliptical wheel 17 and matching the action of the bow-shaped push rod 11 at the other end, and the screen plate is prevented from being bonded with the anti-sticking supporting plate 14 at the bottom.

Wherein, the top of axostylus axostyle 16 is fixed with rocker 15, and the upper surface of rocker 15 is opened there are a plurality of switching holes, it has the loose axle to peg graft in one of them switching hole, and the top of loose axle has cup jointed the connecting rod, the end fixing of push pedal 4 has two fixed plates 21, and be fixed with same activity hinge 25 between two fixed plates 21, the other end of connecting rod is opened has the round hole with activity hinge 25 looks adaptation, the cooperation through rocker 15 and connecting rod drives push pedal 4 and constantly removes, in order to carry out pushing away of liquid and pave, liquid injection fusion efficiency has been improved.

The working principle is as follows: when the anti-sticking support plate is used, firstly, the anti-sticking support plate 14 is fixed at the groove bottom of the support plate frame 8, then the guide convex plates 27 on the two sides of the screen plate mold 2 are clamped on the anti-sticking bayonet 5, and the screen plate mold 2 is pressed down until the lower surface of the screen plate mold 2 is attached to the upper surface of the anti-sticking support plate 14; then, the abutting mechanisms on the two sides of the push plate 4 are embedded into the limit grooves 13; when carrying out the otter board preparation, only need slowly pour into otter board raw materials solution from horn hole 18, later slowly push away push pedal 4 along the horizontal direction round trip and can pour solution into all mesh 26 evenly, because antiseized layer board 14 is sliding connection at the bottom inner wall of layer board frame 8, consequently can suitably promote the slight tremble of antiseized layer board 14 at the in-process that solidifies, ensure that the otter board can not continuously bond with the surface of antiseized layer board 14, be favorable to the complete drawing of patterns in later stage.

Example 2

Referring to fig. 1-7, a printing screen manufacturing apparatus applied to a conductive film screen, in this embodiment, compared with embodiment 1, the printing screen manufacturing apparatus further includes a first tube seat 1 and a second tube seat 9 having the same structure and being parallel to each other, the first tube seat 1 is integrally of a square tubular structure or a rectangular box structure, a pallet 8 having the same opening and the upper cross section being of a groove structure is fixed between the upper surfaces of the first tube seat 1 and the second tube seat 9, an anti-sticking pallet 14 is disposed in the middle of the bottom of the pallet 8, the upper surface of the anti-sticking pallet 14 is polished, a screen mold 2 is disposed on the upper surface of the anti-sticking pallet 14, the lower surface of the screen mold 2 is also polished, a plurality of through meshes 26 are disposed in the middle of the screen mold 2, a plurality of parallel connecting strips 3 are fixed on the upper surface of the screen mold 2, and a push plate 4 is slidably attached to the upper surface of the screen mold 2, and the upper surface of push pedal 4 is opened there is the horn hole 18 of vertical equidistance distribution, the bottom and the mesh 26 of horn hole 18 communicate each other, thereby can be when carrying out the otter board preparation, only need slowly pour into otter board raw materials solution from horn hole 18, later slowly push away push pedal 4 along the horizontal direction round trip again and can pour solution into all mesh 26 evenly, because antiseized layer board 14 is sliding connection at the bottom inner wall of layer board frame 8, consequently can suitably promote the slight tremble of antiseized layer board 14 at the in-process that solidifies, ensure that the otter board can not last the bonding with the surface of antiseized layer board 14, be favorable to the complete drawing of patterns in later stage.

The top end of the shaft lever 16 is fixed with a rocker 15, the upper surface of the rocker 15 is provided with a plurality of switching holes, a movable shaft is inserted into one switching hole, the top end of the movable shaft is sleeved with a connecting rod, the end part of the push plate 4 is fixed with two fixed plates 21, a same movable hinge shaft 25 is fixed between the two fixed plates 21, the other end of the connecting rod is provided with a round hole matched with the movable hinge shaft 25, the push plate 4 is driven to move continuously through the matching of the rocker 15 and the connecting rod, so that liquid is pushed and paved, and the liquid injection fusion efficiency is improved;

the middle of the elliptical wheel 17 is reserved with a shaft hole, the upper surface of the elliptical wheel 17 is provided with a first sliding groove 31 which is mutually communicated with the shaft hole, the inner walls of two sides of the first sliding groove 31 are provided with second sliding grooves 32, the bottom of the second sliding groove 32 is provided with a jack 33, an inserting strip 35 is connected in the jack 33 in a sliding manner, a positioning pin 34 is connected in the first sliding groove 31 in a sliding manner, the tail part of the positioning pin 34 is fixed with a resisting spring, and the circumferential outer wall of the shaft lever 16 is provided with a positioning notch 36 matched with the positioning pin 34, so that when the anti-sticking support plate 14 at the bottom of the feeding stage can be kept still temporarily without influencing the movement of the top push plate 4 by poking the inserting strips 35 at two sides;

example 3

Referring to fig. 8, a printing screen manufacturing apparatus applied to a conductive film screen, in this embodiment, compared to embodiment 1, the apparatus further includes an arch-shaped pressing plate 37 hinged to an end of the anti-sticking supporting plate 14, a push rod 39 fixed to an inner side of the arch-shaped pressing plate 37 near a middle portion, a step pinch roller 38 having a same height as the push rod 39 sleeved on an outer wall of the shaft rod 16, and a second tension spring 40 fixed between an inner side of the arch-shaped pressing plate 37 and an end of the anti-sticking supporting plate 14, so that when in use, the arch-shaped pressing plate 37 is driven to continuously leave the end of the anti-sticking supporting plate 14 under the action of the step pinch roller 38, and the end of the anti-sticking supporting plate 14 is impacted in a stage under the action of the tension spring 40, so as to generate tremor, so that a solution can be uniformly fused in the meshes 26.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A printing screen manufacturing device applied to a conductive film silk screen comprises a tube seat I (1) and a tube seat II (9) which are identical in structure and parallel to each other, wherein the whole tube seat I (1) is of a square tubular structure, a supporting plate frame (8) with the same opening and the groove-shaped structure in the upper section is fixed between the tube seat I (1) and the upper surface of the tube seat II (9), the printing screen manufacturing device is characterized in that an anti-sticking supporting plate (14) is arranged in the middle of the bottom of the supporting plate frame (8), the upper surface of the anti-sticking supporting plate (14) is polished, a screen mold (2) is placed on the upper surface of the anti-sticking supporting plate (14), a plurality of meshes (26) which are communicated with each other are formed in the middle of the screen mold (2), a plurality of parallel connecting strips (3) are fixed on the upper surface of the screen mold (2), and a push plate (4) is attached to the upper surface of the screen mold (2) in a sliding manner, and the upper surface of the push plate (4) is provided with horn holes (18) which are longitudinally distributed at equal intervals, and the bottom ends of the horn holes (18) are communicated with the mesh holes (26).

2. The printing screen manufacturing device applied to the conductive film screen as claimed in claim 1, wherein the middle part of the top end of the supporting plate frame (8) is provided with two mutually symmetrical anti-slip bayonets (5), and guide convex plates (27) matched with the width of the anti-slip bayonets (5) are reserved on the front side and the rear side of the screen mold (2) respectively.

3. The printing screen plate manufacturing device applied to the conductive film screen printing plate of claim 2, wherein a hinged shaft is arranged at the position, close to the anti-skidding bayonet (5), of the side surface of the supporting plate frame (8), a pressing rod (7) is fixed at the end part of the hinged shaft, a tension spring (6) is fixed on the lower surface of the pressing rod (7), and the bottom end of the tension spring (6) is fixed at the position, close to the bottom, of the side surface of the supporting plate frame (8).

4. The printing screen manufacturing device applied to the conductive film screen as recited in claim 1, wherein the outer walls of two opposite sides of the pushing plate (4) are respectively fixed with a tightening mechanism near four corners, the tightening mechanism comprises a supporting plate (23) fixed on the side of the pushing plate (4) near the corners, the upper surface of the supporting plate (23) is fixed with two compression springs (24), the top ends of the two compression springs (24) are fixed with a same abutting block (20), the upper surface of the abutting block (20) is embedded with two balls (19), parallel limiting grooves (13) are formed between the inner walls of two opposite sides of the supporting plate frame (8), and the height of the limiting groove (13) is smaller than the distance between the upper surface of the abutting block (20) and the lower surface of the supporting plate (23) when the tightening mechanism is taken out.

5. A printing screen making apparatus for conductive film screens according to claim 4, characterised in that the lower surface of the pusher (4) is provided with equally spaced and parallel grooves (22), and the cross-sectional dimensions of the grooves (22) are adapted to the cross-sectional shape of the connecting strips (3).

6. A printing screen making apparatus for conductive film screen as claimed in claim 1, wherein the feeding chute (12) is fixed at the middle of the upper surface of the pushing plate (4) and has a rectangular frame structure, and the cross section of the feeding chute (12) has an inner cone structure.

7. The printing screen manufacturing device applied to the conductive film screen as claimed in claim 1, wherein two bow-shaped push rods (11) are fixed at one end of the anti-sticking supporting plate (14), a sliding block is fixed on the two bow-shaped push rods (11) after penetrating through the second tube seat (9), a groove-shaped sliding rail (28) is sleeved on the outer wall of the sliding block, a return spring (29) is fixed on the side surface of the sliding block between the inner walls of the second tube seat (9), a strip-shaped hole (10) matched with the diameter of the bow-shaped push rod (11) is formed in the upper surface of the second tube seat (9), a driving motor (30) is fixed on the inner wall of the bottom of the first tube seat (1), a shaft rod (16) is fixed at the top end of an output shaft of the driving motor (30), an elliptical wheel (17) is fixed on the shaft rod (16) after penetrating through the first tube seat (1), and the height of the elliptical wheel (17) is equal to the height of the anti-sticking supporting plate (14).

8. The printing screen plate manufacturing device applied to the conductive film screen printing plate of claim 1, wherein a rocker (15) is fixed at the top end of the shaft lever (16), a plurality of switching holes are formed in the upper surface of the rocker (15), a movable shaft is inserted into one switching hole, a connecting rod is sleeved at the top end of the movable shaft, two fixed plates (21) are fixed at the end part of the push plate (4), the same movable hinge shaft (25) is fixed between the two fixed plates (21), and a round hole matched with the movable hinge shaft (25) is formed in the other end of the connecting rod.

9. The printing screen manufacturing device applied to the conductive film screen as claimed in claim 1, wherein a shaft hole is reserved in the middle of the elliptical wheel (17), a first sliding groove (31) communicated with the shaft hole is formed in the upper surface of the elliptical wheel (17), second sliding grooves (32) are formed in the inner walls of the two sides of the first sliding groove (31), insertion holes (33) are formed in the bottoms of the second sliding grooves (32), insertion strips (35) are connected in the insertion holes (33) in a sliding mode, positioning pins (34) are connected in the first sliding grooves (31) in a sliding mode, abutting springs are fixed to the tail portions of the positioning pins (34), and positioning notches (36) matched with the positioning pins (34) are formed in the outer circumferential wall of the shaft rod (16).

10. The printing screen manufacturing device applied to the conductive film screen as recited in claim 1, wherein an arched pressing plate (37) is hinged to an end of the anti-sticking supporting plate (14), a top bar (39) is fixed to an inner side of the arched pressing plate (37) near a middle portion, a stepped pressing wheel (38) having the same height as the top bar (39) is sleeved on an outer wall of the shaft lever (16), and a second tension spring (40) is fixed between the inner side of the arched pressing plate (37) and the end of the anti-sticking supporting plate (14).