CN215198320U - Screen device for screen frame of printing screen - Google Patents

Abstract

The utility model discloses a printing silk screen printing screen frame sieving mechanism belongs to printing device technical field, including carrying platform, workstation, sorting device, resistant book device, roughness measurement device and pushing away the frame device, carry the platform to set up subaerial, sorting device sets up at carrying the bench, the workstation sets up the side at carrying the platform, resistant book device sets up the side at the workstation, roughness measurement device sets up on the workstation, it sets up on the workstation to push away the frame device. The utility model discloses a printing silk screen frame sieving mechanism is with weight, resistant degree of rolling over and the unqualified printing screen frame shift-out device of roughness in, collect qualified printing screen frame.

Description

Screen device for screen frame of printing screen

Technical Field

The utility model relates to a printing device technical field especially relates to a printing silk screen frame sieving mechanism.

Background

The screen frame is one of important materials for manufacturing the screen printing plate, and whether the screen frame is properly selected has direct influence on the plate making quality and the printing quality.

The screen frame must have a certain strength. Because the silk screen generates certain pulling force and pressure to the screen frame when the silk screen is stretched. The screen frame is required to be pressure-resistant, deformation cannot occur, the dimensional accuracy of the screen frame is required to be maintained, the screen frame is selected to be light as possible under the condition of ensuring the strength, the operation and the use are convenient, and the bonding surface of the screen frame and the screen is required to have certain roughness so as to strengthen the bonding force of the screen and the screen frame.

The existing screening can only adopt a semi-manual mode for detection and screening, under the condition of detecting out unqualified products, the products in the same batch need to be manufactured again, the qualified products and the unqualified products can not be distinguished, materials are wasted, and the economic efficiency is poor.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a printing silk screen frame sieving mechanism has solved above-mentioned technical problem.

The embodiment of the utility model provides an adopt following technical scheme: the utility model provides a printing silk screen frame sieving mechanism, is including carrying platform, workstation, sorting device, resistant device, roughness measurement device and pushing away the frame device of rolling over, carry the platform to set up subaerial, sorting device sets up at carrying the bench, the workstation sets up the side at carrying the platform, resistant device setting of rolling over is at the side of workstation, roughness measurement device sets up on the workstation, it sets up on the workstation to push away the frame device.

Furthermore, a first blanking plate is arranged on the sorting device, a second blanking plate and a third blanking plate are arranged on the working frame, and a blanking box is further arranged beside the working frame.

Further, sorting device includes letter sorting platform, letter sorting board and four letter sorting springs, the setting of letter sorting platform is at the side of carrying the platform, four two bisymmetry settings of letter sorting spring are at the top of letter sorting platform, the setting of letter sorting board is at the top of four letter sorting springs.

Further, the resistant device of rolling over includes resistant hole frame and two resistant subassemblies of rolling over, resistant the frame setting of rolling over is on the framework, two resistant subassembly symmetry of rolling over sets up the side at the framework, two resistant subassembly of rolling over all includes resistant frame, resistant branch, resistant frid, resistant electric jar of rolling over and two resistant carriage release levers of rolling over, resistant the frame setting of rolling over is at the side of framework, be equipped with the arc hole of two symmetries on the resistant frame, resistant branch setting is on resistant frame of rolling over, resistant electric jar of rolling over sets up on resistant frame, resistant frid is connected on the flexible end of resistant electric jar and is served and resistant frid and resistant a sliding fit of rolling over, two resistant the carriage release lever all sets up in two arc holes and the one end of two resistant carriage release levers slides and sets up in resistant frid.

Further, roughness measurement device is including test rack, flexible electric jar, coarse frame, promotion electric jar and slurcam, the test rack sets up on the handling frame, flexible electric jar sets up on the test rack, coarse frame setting is served in the flexible of flexible electric jar, promotion electric jar sets up on the handling frame, the slurcam setting is served in the flexible of promotion electric jar.

Further, push away the frame device including pushing away the frame electric jar and pushing away the deckle board, push away the frame electric jar and set up on the workstation, push away the deckle board setting and pushing away the side of frame electric jar.

The embodiment of the utility model provides an above-mentioned at least one technical scheme who adopts can reach following beneficial effect:

one of them, when the printing screen frame gets into the letter sorting board from carrying the platform on, need light because of printing screen frame quality, get into the letter sorting board when heavy printing screen frame on, four letter sorting springs of the great extrusion of weight descend to reduce the below of work frame, only can shift out the letter sorting board along with first flitch, four letter sorting springs of the extrusion that the quality is lighter, in work frame top, move along with the work frame, continue next detection.

It is two, move to two resistant carriage release levers tops when the printing screen frame, then two resistant electric jar that roll over start to operate, it starts to move to drive resistant frid, resistant frid removes, it removes at the downthehole resistant carriage release lever of arc to drive, two resistant carriage release levers and resistant branch cooperatees of rolling over, carry out the bending to the printing screen frame, then the printing screen frame carries out and continues to remove along with the work frame, what did not take place deformation passes through resistant hole frame, what took place deformation can't be pushed away the frame device through resistant hole frame and promotes flitch under the second, because when stretching, the silk screen produces certain pulling force and pressure to the screen frame, require the screen frame to be resistant to roll over, can not produce the deformation, so detect whether resistant book of printing screen frame.

Third, when printing screen frame gets into the test rack top, flexible electric jar begins to function, drive rough frame and begin to remove, exert frictional force to printing screen frame, then promote electric jar and begin to function, drive the slurcam and begin to function, the slurcam begins to promote printing screen frame and removes, if the roughness of printing screen frame is high, printing screen frame displacement is little, can continue to get into the workbin along with the work frame, if the roughness is low, printing screen frame gets into third flitch down, detect the roughness of printing screen frame, with select with the sufficient printing screen frame of silk screen bonding power.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

fig. 3 is a schematic perspective view of the sorting device of the present invention;

fig. 4 is a schematic perspective view of the folding-resistant device of the present invention;

fig. 5 is a schematic view of the three-dimensional structure of the roughness detecting device of the present invention.

Reference numerals:

carry platform 1, the workstation 2, sorting device 3, resistant device 4 that rolls over, roughness detection device 5 pushes away frame device 6, first flitch 21 that rolls over, second flitch 22 that rolls over, third flitch 23 that rolls over, blanking box 24, sorting platform 31, sorting board 32, letter sorting spring 33, resistant hole frame 41 that rolls over, resistant subassembly 42 that rolls over, resistant frame 43 that rolls over, resistant branch 44 that rolls over, resistant frid 45, resistant electric jar 46 that rolls over, resistant carriage release lever 47, detection frame 51, flexible electric jar 52, coarse frame 53, promote electric jar 54, push plate 55, push away frame electric jar 61, push away frame board 62.

Detailed Description

To make the purpose, technical solution and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solution of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The following combines fig. 1 to fig. 5 to show, the embodiment of the utility model provides a printing silk screen frame sieving mechanism, including carrying platform 1, workstation 2, sorting device 3, resistant device 4, roughness measurement device 5 and pushing away frame device 6 of rolling over, carry platform 1 to set up subaerial, sorting device 3 sets up on carrying platform 1, workstation 2 sets up the side at carrying platform 1, resistant device 4 that rolls over sets up the side at workstation 2, roughness measurement device 5 sets up on workstation 2, it sets up on workstation 2 to push away frame device 6.

A first blanking plate 21 is arranged on the sorting device 3, a second blanking plate 22 and a third blanking plate 23 are arranged on the working frame 2, and a blanking box 24 is arranged beside the working frame 2; the screen printing frames detected to be unqualified in the sorting device 3, the folding endurance device 4 and the roughness detection device 5 are removed from the first blanking plate 21, the second blanking plate 22 and the third blanking plate 23.

The sorting device 3 comprises a sorting table 31, a sorting plate 32 and four sorting springs 33, the sorting table 31 is arranged beside the conveying table 1, the four sorting springs 33 are symmetrically arranged on the top of the sorting table 31 in pairs, and the sorting plate 32 is arranged on the top of the four sorting springs 33; when the printing screen frame gets into from carrying platform 1 on sorting board 32, because of printing screen frame quality needs are light, get into sorting board 32 when heavy printing screen frame on, four sorting springs 33 of the great extrusion of weight descend to reduce the below of handling frame 2, can only shift out sorting board 32 along with first flitch 21, four sorting springs 33 of the extrusion that the quality is lighter, in handling frame 2 top, move along with handling frame 2, continue next and detect.

The folding-resistant device 4 comprises a folding-resistant hole frame 41 and two folding-resistant components 42, the folding-resistant frame 43 is arranged on the working frame 2, the two folding-resistant components 42 are symmetrically arranged at the side of the working frame 2, each folding-resistant component 42 comprises a folding-resistant frame 43, a folding-resistant support rod 44, a folding-resistant groove plate 45, a folding-resistant electric cylinder 46 and two folding-resistant moving rods 47, the folding-resistant frame 43 is arranged at the side of the working frame 2, the folding-resistant frame 43 is provided with two symmetrical arc-shaped holes, the folding-resistant support rod 44 is arranged on the folding-resistant frame 43, the folding-resistant electric cylinder 46 is arranged on the folding-resistant frame 43, the folding-resistant groove plate 45 is connected to the telescopic end of the folding-resistant electric cylinder 46, the folding-resistant groove plate 45 is in sliding fit with the folding-resistant frame 43, the two folding-resistant moving rods 47 are arranged in the two arc-shaped holes, and one ends of the two folding-resistant moving rods 47 are arranged in the folding-resistant groove plate 45 in a sliding manner; when the printing screen frame moves to the top of the two folding-resisting movable rods 47, then the two folding-resisting electric cylinders 46 start to operate, drive the folding-resisting groove plates 45 to start to move, the folding-resisting groove plates 45 move, drive the folding-resisting movable rods 47 in the arc holes to move in the arc holes, the two folding-resisting movable rods 47 are matched with the folding-resisting support rods 44, bend the printing screen frame, then the printing screen frame moves continuously along with the working frame 2, the non-deformed folding-resisting hole frames 41 pass through, the deformed frame cannot be pushed to the second blanking plate 22 through the folding-resisting hole frames 41, when the screen is stretched, the screen generates certain pulling force and pressure on the screen frame, the screen frame is required to be folded, and the deformation cannot be generated, so that whether the printing screen frame is folded or not detected.

The roughness detection device 5 comprises a detection frame 51, a telescopic electric cylinder 52, a rough frame 53, a pushing electric cylinder 54 and a pushing plate 55, wherein the detection frame 51 is arranged on the working frame 2, the telescopic electric cylinder 52 is arranged on the detection frame 51, the rough frame 53 is arranged on the telescopic end of the telescopic electric cylinder 52, the pushing electric cylinder 54 is arranged on the working frame 2, and the pushing plate 55 is arranged on the telescopic end of the pushing electric cylinder 54; when the printing screen frame enters the upper part of the detection frame 51, the telescopic electric cylinder 52 starts to operate to drive the rough frame 53 to start moving, friction force is applied to the printing screen frame, then the electric cylinder 54 is pushed to start operating to drive the pushing plate 55 to start operating, the pushing plate 55 starts to push the printing screen frame to move, if the roughness of the printing screen frame is high, the moving distance of the printing screen frame is small, the printing screen frame can continuously enter the blanking box 24 along with the working frame 2, if the roughness is low, the printing screen frame enters the third blanking plate 23, the roughness of the printing screen frame is detected, and the printing screen frame with enough silk screen bonding force is screened out.

The frame pushing device 6 comprises a frame pushing electric cylinder 61 and a frame pushing plate 62, the frame pushing electric cylinder 61 is arranged on the working frame 2, and the frame pushing plate 62 is arranged beside the frame pushing electric cylinder 61; when the printing screen frame can not pass through the folding-resistant hole frame 41, the frame pushing motor 61 starts to move to drive the frame pushing plate 62 to move, and the frame pushing plate 62 pushes the printing screen frame onto the first blanking plate 21 to be separated from the qualified printing screen frame.

The utility model discloses a theory of operation: when the utility model is used, when the printing screen frame enters the sorting plate 32 from the conveying platform 1, the quality of the printing screen frame needs to be light, when the heavy printing screen frame enters the sorting plate 32, the heavy printing screen frame extrudes the four sorting springs 33 to drop, thereby the weight is reduced to the lower part of the working frame 2, only the sorting plate 32 can be moved out along with the first blanking plate 21, the four sorting springs 33 which are extruded with light quality move along with the working frame 2 above the working frame 2, the next detection is continued, when the printing screen frame moves to the upper part of the two folding-resistant moving rods 47, then the two folding-resistant electric cylinders 46 start to operate, the folding-resistant slotted plates 45 start to move, the folding-resistant slotted plates 45 move, the folding-resistant moving rods 47 in the arc-shaped holes move in the arc-shaped holes are driven, the two folding-resistant moving rods 47 are matched with the folding-resistant supporting rods 44, the printing screen frame is bent, then the printing screen frame continues to move along with the working frame 2, when the printing screen frame cannot pass through the folding-resistant hole frame 41, the frame-pushing motor 61 starts to move to drive the frame-pushing plate 62 to move, the frame-pushing plate 62 pushes the printing screen frame onto the first blanking plate 21 to separate from the qualified printing screen frame, when the printing screen frame enters the upper part of the detection frame 51, the telescopic electric cylinder 52 starts to operate to drive the rough frame 53 to start to move to apply friction to the printing screen frame, then the electric cylinder 54 is driven to start to operate to drive the pushing plate 55 to operate, the pushing plate 55 starts to push the printing screen frame to move, if the roughness of the printing screen frame is high, the moving distance of the printing screen frame is small, the screen frame will continue to enter the blanking box 24 along with the working frame 2, and if the roughness is low, the printing screen frame will enter the third blanking plate 23, and the roughness of the printing screen frame will be detected, so as to screen out the printing screen frame with enough adhesion force with the screen.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (6)

1. The utility model provides a printing silk screen frame sieving mechanism, its characterized in that, is including carrying platform (1), workstation (2), sorting device (3), resistant device (4), roughness measurement device (5) and pushing away frame device (6), carry platform (1) to set up subaerial, sorting device (3) set up on carrying platform (1), workstation (2) set up the side of carrying platform (1), resistant device (4) of rolling over sets up the side at workstation (2), roughness measurement device (5) set up on workstation (2), it sets up on workstation (2) to push away frame device (6).

2. The screen frame screening device for printing silk screen of claim 1, wherein: the sorting device is characterized in that a first blanking plate (21) is arranged on the sorting device (3), a second blanking plate (22) and a third blanking plate (23) are arranged on the work frame (2), and a blanking box (24) is further arranged beside the work frame (2).

3. The screen frame screening device for printing silk screen of claim 1, wherein: sorting device (3) are including letter sorting platform (31), letter sorting board (32) and four letter sorting spring (33), letter sorting platform (31) set up the side of carrying platform (1), four two bisymmetry settings of letter sorting spring (33) are at the top of letter sorting platform (31), letter sorting board (32) set up the top at four letter sorting spring (33).

4. The screen frame screening device for printing silk screen of claim 1, wherein: the folding-resistant device (4) comprises a folding-resistant hole frame (41), two folding-resistant assemblies (42) and a folding-resistant frame (43), wherein the folding-resistant frame (43) is arranged on the working frame (2), the two folding-resistant assemblies (42) are symmetrically arranged at the side of the working frame (2), the two folding-resistant assemblies (42) respectively comprise a folding-resistant frame (43), a folding-resistant support rod (44), a folding-resistant groove plate (45), a folding-resistant electric cylinder (46) and two folding-resistant moving rods (47), the folding-resistant frame (43) is arranged at the side of the working frame (2), the folding-resistant frame (43) is provided with two symmetrical arc-shaped holes, the folding-resistant support rod (44) is arranged on the folding-resistant frame (43), the folding-resistant electric cylinder (46) is arranged on the folding-resistant frame (43), the folding-resistant groove plate (45) is connected to the telescopic end of the folding-resistant electric cylinder (46), and the folding-resistant groove plate (45) is in sliding fit with the folding-resistant frame (43), the two folding-resistant movable rods (47) are arranged in the two arc-shaped holes, and one ends of the two folding-resistant movable rods (47) are arranged in the folding-resistant groove plate (45) in a sliding mode.

5. The screen frame screening device for printing silk screen of claim 1, wherein: roughness detection device (5) are including detection frame (51), flexible electric jar (52), rough frame (53), promotion electric jar (54) and catch plate (55), detection frame (51) set up on work frame (2), flexible electric jar (52) set up on detection frame (51), rough frame (53) set up on the flexible end of flexible electric jar (52), promotion electric jar (54) set up on work frame (2), catch plate (55) set up on the flexible end of promotion electric jar (54).

6. The screen frame screening device for printing silk screen of claim 1, wherein: push away frame device (6) including pushing away frame electric jar (61) and pushing away deckle board (62), push away frame electric jar (61) and set up on working frame (2), push away deckle board (62) and set up the side of pushing away frame electric jar (61).

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