CN112606540A - Screen printing device for glass surface printing for building materials - Google Patents

Abstract

The invention relates to a screen printing device, in particular to a screen printing device for printing on the surface of glass for building materials. Mainly provides a screen printing device for glass surface printing for building materials, which relies on a machine to perform uniform printing, continuously supplements ink and ensures printing quality. A screen printing device for printing patterns on the surface of glass for building materials comprises: the discharging frame is arranged on one side of the top of the base; the top of the base is connected with a feeding mechanism; the printing mechanism is connected with the middle side of the top of the base; the top of the base is connected with a silk screen component. The feeding mechanism and the printing mechanism are arranged to drive the glass to move rightwards for printing; through setting up dust removal mechanism, drive the dust removal gyro wheel and remove dust to glass, be convenient for glass better color.

Description

Screen printing device for glass surface printing for building materials

Technical Field

The invention relates to a screen printing device, in particular to a screen printing device for printing on the surface of glass for building materials.

Background

Glass is an amorphous, amorphous solid, which is generally transparent and has a wide range of practical, technical and decorative uses in glazing, tableware and optoelectronics, and the manufacturer, after producing the glass, processes its surface, usually by printing, with specific patterns printed on the glass, maintaining the aesthetic appearance.

The staff need stand in assembly line one side, and handheld printing ware carries out the stamp to the glass of intermittent type nature removal, and this method relies on the people hand printing, and it is uneven to print easily, carries out the inking again when the pigment of printing ware is not enough, leads to the colour depth of glass stamp to differ easily, is difficult to guarantee glass's pleasing to the eye.

Disclosure of Invention

In order to overcome the defects that the printing of hands is not uniform, the ink is required to be supplemented by the hands, the color depth of the glass printing is easily different, and the attractiveness of the glass is difficult to ensure, and the technical problem is as follows: the screen printing device for glass surface printing for building materials is provided, which can uniformly print by means of a machine, continuously supplement ink and ensure printing quality.

The technical scheme is as follows: a screen printing device for printing patterns on the surface of glass for building materials comprises:

the discharging frame is arranged on one side of the top of the base;

the top of the base is connected with a feeding mechanism;

the printing mechanism is connected with the middle side of the top of the base;

the top of the base is connected with a silk screen component.

Preferably, the feeding mechanism comprises:

the mounting seat is arranged on one side of the top of the base, and the cylinder is arranged on the top of the mounting seat;

the telescopic rod of the air cylinder is connected with a telescopic push rod, and the telescopic push rod is connected with the discharging frame in a sliding manner;

the two sides of the telescopic push rod are both connected with first racks;

the movable sliding groove plates are symmetrically arranged on one side of the top of the base and are connected with the first rack on the same side in a sliding manner;

the top of the base is symmetrically and rotatably provided with a first gear set, and gears on one side of the first gear set are meshed with first racks on the same side;

the inner walls of the gears on one side of the first gear set are connected with the one-way clutches;

feeding belt pulley subassembly, base top one side symmetry rotary type is connected with feeding belt pulley subassembly, and feeding belt pulley subassembly one side transmission shaft all is connected with the axis of rotation of first gear train.

Preferably, the printing mechanism includes:

the supporting seat is arranged on one side of the top of the base, the servo motor is arranged on the top of the supporting seat, and a first transmission gear is symmetrically connected to an output shaft of the servo motor;

the movable sliding rail plates are symmetrically arranged on the inner sides of the tops of the bases, second racks are connected to the tops of the movable sliding rail plates in a sliding mode, and the second racks are meshed with the first transmission gears on the same side;

the first wedge block is connected between the second racks, scrapers are symmetrically connected on the first wedge block in a sliding mode, and 2 first springs are connected between the top of each scraper and the inner wall of the first wedge block;

the top of the base is connected with a second wedge-shaped block which is matched with the first wedge-shaped block.

Preferably, the screen assembly comprises:

the top of the base is connected with the mounting rack;

the upper part of the mounting rack is connected with the steel slotted wire mesh;

and a plurality of locking nuts are connected between the steel slotted silk screen and the top of the mounting frame.

Preferably, still include dust removal mechanism, dust removal mechanism includes:

the top of the base is symmetrically provided with support frames, and dust removal rollers are rotatably connected between the upper parts of the support frames;

and the two sides of the rotating shaft of the dust removal roller are both connected with second transmission gears which are both matched with the first gear set on the same side.

Preferably, still including climbing mechanism, climbing mechanism is including:

the top of the base is symmetrically connected with the fixed support;

the top of the base is symmetrically and slidably provided with third wedge blocks, and second springs are connected between the third wedge blocks and the fixing supports on the same side;

one side of the top of the base is symmetrically provided with a fourth wedge-shaped block, and the fourth wedge-shaped block is matched with the third wedge-shaped block;

the fixing columns are arranged on two sides of the top of the base, and baffles are connected between the tops of the fixing columns in a sliding manner;

and a third spring is connected between the baffle plate and the inner wall of the fixed column, and the baffle plate is matched with a third wedge block.

Preferably, the ink supply device further includes an ink supply mechanism including:

one side of the top of the base is connected with the special-shaped bracket, and the special-shaped bracket is provided with an ink storage tank;

the top of the ink storage tank is connected with the ink adding port;

the bottom of the ink storage tank is connected with an ink outlet pipeline;

a second rack on one side of the fifth wedge-shaped block is connected with the fifth wedge-shaped block;

and one side of the top of the base is symmetrically connected with a fourth spring, the bottom of the fourth spring is connected with a sixth wedge-shaped block, and the sixth wedge-shaped block is connected with the ink outlet pipeline in a sliding manner and is matched with the fifth wedge-shaped block.

Preferably, the printing ink drying device further comprises an ink drying mechanism, wherein the ink drying mechanism comprises:

the supporting bracket is symmetrically arranged on one side of the top of the base, a second gear set is rotatably connected to the inner side of the upper part of the supporting bracket, and the second gear set is matched with the feeding belt pulley assembly;

the fan is rotatably connected to the rotating shaft on the upper side of the second gear set and the top of the base;

the connecting belt pulley assemblies are connected between the rotating shafts of every two adjacent fans on the same horizontal side.

The invention has the beneficial effects that: the feeding mechanism and the printing mechanism are arranged to drive the glass to move rightwards for printing; the dust removal mechanism is arranged to drive the dust removal roller to remove dust from the glass, so that the glass can be better colored; lifting the glass by arranging a jacking mechanism, and matching with printing; by arranging the ink supply mechanism, a small amount of ink is continuously supplied to the printing process, so that the printing quality is prevented from being influenced by too dry ink during printing; through setting up printing ink air-dry mechanism, air-dry with higher speed the stamp on the glass.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding mechanism and the dust removing mechanism of the present invention.

Fig. 3 is a schematic perspective view of a printing mechanism and screen assembly according to the present invention.

Fig. 4 is a schematic partial perspective view of a jacking mechanism of the present invention.

FIG. 5 is a schematic perspective view of an ink supply mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the ink drying mechanism according to the present invention.

Fig. 7 is an exploded view of the jacking mechanism of the present invention.

FIG. 8 is an exploded view of the ink replenishment mechanism of the present invention.

Description of reference numerals: 1-base, 2-discharging frame, 3-feeding mechanism, 31-mounting base, 32-cylinder, 33-telescopic push rod, 34-movable sliding chute plate, 35-first rack, 36-first gear set, 37-one-way clutch, 38-feeding belt pulley assembly, 4-printing mechanism, 41-supporting base, 42-servo motor, 43-first transmission gear, 44-second rack, 45-movable sliding rail plate, 46-first wedge block, 47-second wedge block, 48-first spring, 49-scraper, 5-silk screen assembly, 51-mounting base, 52-steel slotted silk screen, 53-locking nut, 6-dust removing mechanism, 61-supporting frame, 62-second transmission gear, 63-dust removing roller, 7-a jacking mechanism, 71-a fixed support, 72-a second spring, 73-a third wedge block, 74-a fourth wedge block, 75-a baffle, 76-a fixed column, 77-a third spring, 8-an ink supply mechanism, 81-a special-shaped support, 82-an ink adding port, 83-an ink storage tank, 84-an ink outlet pipeline, 85-a fifth wedge block, 86-a sixth wedge block, 87-a fourth spring, 9-an ink air drying mechanism, 91-a support, 92-a second gear set, 93-a fan and 94-a connecting belt pulley assembly.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

The utility model provides a screen printing device of glass surface stamp for building material, as shown in fig. 1 to 3, including base 1, ejection of compact frame 2, feed mechanism 3, printing mechanism 4 and screen assembly 5, base 1 top left side is equipped with ejection of compact frame 2, and base 1 top is connected with feed mechanism 3, and base 1 top inboard is connected with printing mechanism 4, and base 1 top is connected with screen assembly 5, and screen assembly 5 is located printing mechanism 4 below.

The feeding mechanism 3 comprises a mounting seat 31, an air cylinder 32, a telescopic push rod 33, a movable sliding chute plate 34, a first rack 35, a first gear set 36, a one-way clutch 37 and a feeding belt pulley assembly 38, the mounting seat 31 is arranged on the left side of the top of the base 1, the air cylinder 32 is arranged on the top of the mounting seat 31, the telescopic push rod 33 is connected onto a telescopic rod of the air cylinder 32, the telescopic push rod 33 is connected with the discharging frame 2 in a sliding manner, the first rack 35 is connected onto the front side and the rear side of the telescopic push rod 33, the movable sliding chute plate 34 is symmetrically arranged on the left side of the top of the base 1, the movable sliding chute plate 34 is connected with the first rack 35 on the same side in a sliding manner, the first gear set 36 is symmetrically and rotatably arranged on the top of the base 1, the left gears of the first gear set 36 are all meshed with the first rack 35 on the same side, the left drive shaft of the infeed pulley assembly 38 is connected to the rotational axis of the right gear of the first gear set 36.

The printing mechanism 4 comprises a supporting seat 41, a servo motor 42, a first transmission gear 43, a second rack 44, a movable slide rail plate 45, a first wedge block 46, a second wedge block 47, a first spring 48 and a scraper 49, base 1 top front side is equipped with supporting seat 41, supporting seat 41 top is equipped with servo motor 42, the symmetric connection has first drive gear 43 on servo motor 42's the output shaft, the lateral symmetry is equipped with movable slide rail board 45 in the base 1 top, the equal sliding connection in movable slide rail board 45 top has second rack 44, second rack 44 all meshes with the first drive gear 43 of homonymy, be connected with first wedge 46 between the second rack 44 right part, sliding symmetric connection has scraper 49 on first wedge 46, be connected with 2 first springs 48 between scraper 49 top and the first wedge 46 inner wall, base 1 top is connected with second wedge 47, second wedge 47 is located first wedge 46 top and rather than the cooperation.

The silk screen assembly 5 comprises a mounting frame 51, a steel slotted silk screen 52 and locking nuts 53, the mounting frame 51 is connected to the top of the base 1, the steel slotted silk screen 52 is connected to the upper portion of the mounting frame 51, the steel slotted silk screen 52 is located below the scraper 49, and the locking nuts 53 are connected between the steel slotted silk screen 52 and the top of the mounting frame 51.

A worker can place glass in the discharging frame 2, the air cylinder 32 is started, the telescopic rod of the air cylinder 32 extends to drive the bottommost glass to move rightwards through the telescopic push rod 33, the telescopic push rod 33 moves rightwards and drives the first gear set 36 to rotate through the first rack 35, the first gear set 36 rotates and drives the feeding belt pulley assembly 38 to rotate, the feeding belt pulley assembly 38 rotates and can drive the glass moving rightwards to move continuously, after the glass moves above the steel slotted screen 52, the telescopic rod of the air cylinder 32 retracts, the telescopic push rod 33 moves leftwards and drives the first rack 35 to move leftwards, the first gear set 36 cannot rotate under the action of the one-way clutch 37, the servo motor 42 is started, the output shaft of the servo motor 42 rotates and drives the second rack 44 to move leftwards through the first transmission gear 43, the second rack 44 moves leftwards and drives the scraper 49 to move leftwards through the first, the first wedge-shaped block 46 moves leftwards to be in contact with the second wedge-shaped block 47, the steel slotted screen 52 is driven to be in contact with the surface of the glass by the downward movement of the first wedge-shaped block 46 and the scraper 49, the first spring 48 plays a buffering role, when the first wedge-shaped block 46 moves leftwards to the edge of the glass and does not move upwards under the guiding effect of the second wedge-shaped block 47 to be in contact with the glass, printing is finished, the servo motor 42 stops rotating, at the moment, the telescopic rod of the air cylinder 32 extends to drive new glass to move rightwards again, a worker only needs to wait for the glass to move rightwards to a specified position, and the servo motor 42 is started to.

Example 2

On the basis of embodiment 1, as shown in fig. 2, 4 and 7, the dust removing device further includes a dust removing mechanism 6, the dust removing mechanism 6 includes a supporting frame 61, a second transmission gear 62 and a dust removing roller 63, the supporting frame 61 is symmetrically arranged on the top of the base 1, the dust removing roller 63 is rotatably connected between the upper portions of the supporting frame 61, the front and rear sides of a rotating shaft of the dust removing roller 63 are connected with the second transmission gear 62, and the second transmission gear 62 is matched with the first gear set 36 on the same side.

The rotation of the first gear set 36 drives the dust removing roller 63 to rotate through the second transmission gear 62, when the glass is pushed out of the discharging frame 2, the glass is subjected to surface dust removal through the dust removing roller 63, and then enters the feeding belt pulley assembly 38 to continue moving to the right.

Still including climbing mechanism 7, climbing mechanism 7 is including fixed bolster 71, second spring 72, third wedge 73, fourth wedge 74, baffle 75, fixed column 76 and third spring 77, 1 top symmetric connection of base has fixed bolster 71, 1 top symmetric sliding type of base is equipped with third wedge 73, all be connected with second spring 72 between third wedge 73 left side and the homonymy fixed bolster 71, 1 top right side symmetry of base is equipped with fourth wedge 74, fourth wedge 74 and the cooperation of third wedge 73, both sides all are equipped with a plurality of fixed columns 76 around the 1 top of base, slidingtype baffle 75 is connected with between the fixed column 76 top, all be connected with third spring 77 between baffle 75 and the fixed column 76 inner wall, baffle 75 and the cooperation of third wedge 73.

In an initial state, the third wedge block 73 is in contact with the baffle 75, the baffle 75 moves downwards to drive the third spring 77 to be compressed, the glass moves rightwards to be in contact with the baffle 75 to move downwards slightly, the glass continues to move rightwards to be in contact with the third wedge block 73, the third wedge block 73 moves rightwards to drive the second spring 72 to be stretched, when the third wedge block 73 moves rightwards to be in contact with the fourth wedge block 74, the third wedge block 73 stops moving and is not in contact with the baffle 75, the third spring 77 stretches to drive the glass to move upwards through the baffle 75 to perform printing, meanwhile, the glass moves upwards and is not in contact with the third wedge block 73 any more, the second spring 72 compresses to drive the third wedge block 73 to move leftwards to reset, and the reciprocating operation is performed to drive the glass to move upwards to match.

Example 3

In addition to embodiment 2, as shown in fig. 5, 6, and 8, the ink supply device further includes an ink supply mechanism 8, the ink supply mechanism 8 includes a special-shaped support 81, an ink adding port 82, an ink storage tank 83, an ink outlet pipe 84, a fifth wedge 85, a sixth wedge 86, and a fourth spring 87, the special-shaped support 81 is connected to the rear side of the top of the base 1, the ink storage tank 83 is disposed on the special-shaped support 81, the ink adding port 82 is connected to the top of the ink storage tank 83, the ink outlet pipe 84 is connected to the bottom of the ink storage tank 83, the fifth wedge 85 is connected to the second rack 44 on the rear side, the fourth spring 87 is symmetrically connected to the rear side of the top of the base 1, the sixth wedge 86 is connected to the bottom of the fourth spring 87, and the sixth wedge 86 is slidably connected to the ink outlet pipe 84 and is engaged with the fifth wedge 85.

The staff can put ink into the ink storage tank 83 through the ink adding port 82, the ink can flow out from the ink outlet pipeline 84, the sixth wedge-shaped block 86 extrudes the ink outlet pipeline 84 in the initial state, the ink outlet pipeline 84 can not discharge ink, the second rack 44 moves leftwards and drives the sixth wedge-shaped block 86 to move upwards through the fifth wedge-shaped block 85, the fourth spring 87 is compressed, the sixth wedge-shaped block 86 moves upwards and does not extrude the ink outlet pipeline 84 any more, the ink outlet pipeline 84 can discharge ink, the fifth wedge-shaped block 85 continues to move leftwards and does not contact with the sixth wedge-shaped block 86 any more, the fourth spring 87 stretches to drive the sixth wedge-shaped block 86 to extrude the ink outlet pipeline 84 again, the ink discharge is stopped, and the ink outlet pipeline 84 can be driven to continuously add ink in such a reciprocating manner.

Still including printing ink air-dry mechanism 9, printing ink air-dry mechanism 9 is including support holder 91, second gear group 92, fan 93 and connection belt pulley subassembly 94, 1 top right side symmetry of base is equipped with support holder 91, the equal rotary type in support holder 91 upper portion inboard is connected with second gear group 92, second gear group 92 and feeding belt pulley subassembly 38 cooperation, the equal rotary type in second gear group 92 upside axis of rotation and 1 top of base is connected with fan 93, all be connected with between the axis of rotation of every adjacent fan 93 of horizontal homonymy and connect belt pulley subassembly 94.

The feeding belt pulley assembly 38 rotates to drive the second gear set 92 to rotate under the action of friction force, the second gear set 92 rotates to drive the fan 93 to rotate through the connecting belt pulley assembly 94, and the fan 93 rotates to drive the printing on the glass to be quickly dried.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A screen printing device for printing on the surface of glass for building materials is characterized by comprising:

the discharging frame (2) is arranged on one side of the top of the base (1);

the top of the base (1) is connected with the feeding mechanism (3);

the printing mechanism (4), the printing mechanism (4) is connected with the top middle side of the base (1);

the top of the base (1) is connected with the silk screen component (5).

2. A screen printing device for printing on the surface of glass used for building materials according to claim 1, wherein the feeding mechanism (3) comprises:

the mounting seat (31) is arranged on one side of the top of the base (1), and the air cylinder (32) is arranged on the top of the mounting seat (31);

the telescopic rod of the cylinder (32) is connected with a telescopic push rod (33), and the telescopic push rod (33) is connected with the discharging frame (2) in a sliding manner;

the two sides of the telescopic push rod (33) are both connected with the first rack (35);

the movable sliding groove plate (34) is symmetrically arranged on one side of the top of the base (1), and the movable sliding groove plate (34) is connected with the first rack (35) on the same side in a sliding manner;

the top of the base (1) is symmetrically and rotatably provided with a first gear set (36), and gears on one side of the first gear set (36) are meshed with a first rack (35) on the same side;

the inner wall of one side gear of the first gear set (36) is connected with the one-way clutch (37);

feeding belt pulley subassembly (38), base (1) top one side symmetry rotary type is connected with feeding belt pulley subassembly (38), and the axis of rotation of feeding belt pulley subassembly (38) one side transmission shaft and first gear train (36) all is connected.

3. A screen printing apparatus for printing on the surface of glass for building materials according to claim 2, wherein the printing means (4) comprises:

the device comprises a supporting seat (41), wherein the supporting seat (41) is arranged on one side of the top of a base (1), a servo motor (42) is arranged on the top of the supporting seat (41), and an output shaft of the servo motor (42) is symmetrically connected with a first transmission gear (43);

the middle side of the top of the base (1) is symmetrically provided with the movable sliding rail plates (45), the tops of the movable sliding rail plates (45) are connected with second racks (44) in a sliding mode, and the second racks (44) are meshed with first transmission gears (43) on the same side;

the first wedge block (46) is connected between the first wedge block (46) and the second rack (44), the first wedge block (46) is connected with scrapers (49) in a sliding and symmetrical mode, and 2 first springs (48) are connected between the top of each scraper (49) and the inner wall of the first wedge block (46);

the top of the second wedge-shaped block (47) is connected with the second wedge-shaped block (47), and the second wedge-shaped block (47) is matched with the first wedge-shaped block (46).

4. A screen printing apparatus for printing on glass surfaces for building materials according to claim 3, wherein the screen unit (5) comprises:

the top of the base (1) is connected with the mounting rack (51);

the upper part of the mounting rack (51) is connected with a steel slotted wire mesh (52);

and a plurality of locking nuts (53) are connected between the steel slotted screen (52) and the top of the mounting rack (51).

5. The screen printing device for the surface printing of the glass for the building material according to claim 4, characterized in that the screen printing device further comprises a dust removing mechanism (6), wherein the dust removing mechanism (6) comprises:

the dust removal device comprises support frames (61), wherein the support frames (61) are symmetrically arranged at the top of a base (1), and dust removal rollers (63) are rotatably connected between the upper parts of the support frames (61);

and the two sides of the rotating shaft of the second transmission gear (62) and the dedusting roller (63) are both connected with the second transmission gear (62), and the second transmission gear (62) is matched with the first gear set (36) on the same side.

6. The screen printing device for the glass surface printing of the building material according to claim 5, characterized in that, the screen printing device further comprises a jacking mechanism (7), and the jacking mechanism (7) comprises:

the top of the base (1) is symmetrically connected with the fixed support (71);

the third wedge blocks (73) are symmetrically and slidably arranged on the top of the base (1), and second springs (72) are connected between the third wedge blocks (73) and the fixing support (71) on the same side;

the fourth wedge block (74) is symmetrically arranged on one side of the top of the base (1), and the fourth wedge block (74) is matched with the third wedge block (73);

the fixing columns (76) are arranged, a plurality of fixing columns (76) are arranged on two sides of the top of the base (1), and baffles (75) are connected between the tops of the fixing columns (76) in a sliding mode;

third spring (77), all be connected with third spring (77) between baffle (75) and fixed column (76) inner wall, baffle (75) and third wedge (73) cooperation.

7. A screen printing apparatus for printing on the surface of glass used for building materials, as claimed in claim 6, further comprising an ink supply means (8), wherein the ink supply means (8) comprises:

the ink bottle comprises a special-shaped support (81), wherein one side of the top of a base (1) is connected with the special-shaped support (81), and an ink storage tank (83) is arranged on the special-shaped support (81);

an ink adding port (82), wherein the top of the ink storage tank (83) is connected with the ink adding port (82);

the bottom of the ink storage tank (83) is connected with an ink outlet pipeline (84);

the second rack (44) on one side of the fifth wedge-shaped block (85) is connected with the fifth wedge-shaped block (85);

the ink outlet device comprises a fourth spring (87), wherein one side of the top of the base (1) is symmetrically connected with the fourth spring (87), the bottom of the fourth spring (87) is connected with a sixth wedge-shaped block (86), and the sixth wedge-shaped block (86) is connected with the ink outlet pipeline (84) in a sliding mode and is matched with the fifth wedge-shaped block (85).

8. The screen printing device for printing on the glass surface of the building material according to claim 7, further comprising an ink drying mechanism (9), wherein the ink drying mechanism (9) comprises:

the feeding belt pulley assembly comprises a supporting bracket (91), wherein the supporting bracket (91) is symmetrically arranged on one side of the top of the base (1), a second gear set (92) is rotatably connected to the inner side of the upper part of the supporting bracket (91), and the second gear set (92) is matched with the feeding belt pulley assembly (38);

the fan (93) is rotatably connected with the rotating shaft on the upper side of the second gear set (92) and the top of the base (1);

and the connecting belt pulley assemblies (94) are connected between the rotating shafts of every two adjacent fans (93) on the same side in the transverse direction, and the connecting belt pulley assemblies (94) are connected between the rotating shafts of every two adjacent fans (93).

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